阅读说明：本技术 一种连接结构 (Connecting structure ) 是由 陈伟豪 于 2019-07-04 设计创作，主要内容包括：一种连接结构,它涉及支架或自拍杆技术领域。它包括：安装部,设置于支架本体；设置于所述安装部的第一角度盘；套设于所述安装部并相对于所述安装部转动的、用于与第一角度盘的刻度对齐的指针盘；用于安装夹具的连接头,所述连接头相对于所述安装部可转动,所述连接头相对于所述安装部转动时驱动所述指针盘相对于所述第一角度盘同步转动,所述夹具用于夹持拍摄设备。该连接结构通过设置指针盘和第一角度盘,可以准确获知连接头的转动角度,方便调节安装于夹具、补光灯组件或副手柄组件等的转动角度。(A connecting structure relates to a support or the technical field of a selfie stick. It includes: the mounting part is arranged on the bracket body; a first dial provided to the mounting portion; the pointer disc is sleeved on the mounting part, rotates relative to the mounting part and is used for aligning with the scales of the first angle disc; the connector is used for installing a clamp, the connector is relative to the installation portion is rotatable, the connector is relative to the installation portion drives when rotating the pointer disc relative to the first angle disc synchronously rotates, and the clamp is used for clamping shooting equipment. This connection structure is through setting up pointer dish and first angle dish, can accurately learn the turned angle of connector, and the turned angle who installs in anchor clamps, light filling banks spare or vice handle assembly etc. is conveniently adjusted.)

1. A connecting structure, characterized by comprising:

the mounting part is arranged on the bracket body;

a first dial provided to the mounting portion;

the pointer disc is sleeved on the mounting part, rotates relative to the mounting part and is used for aligning with the scales of the first angle disc;

the connector is used for installing a clamp, the connector is relative to the installation portion is rotatable, the connector is relative to the installation portion drives when rotating the pointer disc relative to the first angle disc synchronously rotates, and the clamp is used for clamping shooting equipment.

2. The connection structure according to claim 1, further comprising a connecting member and a link;

one end of the connecting piece is fixedly assembled with the mounting part, and the other end of the connecting piece is rotatably assembled with the connector;

connecting rod one end with connector grafting assembly, the other end with pointer dish grafting assembly, the connecting rod is used for making the pointer dish with the connector synchronous revolution.

3. The connection structure of claim 2, further comprising a bracket locking assembly, wherein the bracket locking assembly is sleeved on the connection head, rotatably assembled with the mounting portion, and rotatable, lockable or adjustable with respect to the mounting portion and a friction force between the bracket locking assembly and the mounting portion.

4. The connection structure according to claim 3, wherein the bracket locking assembly comprises: the clamping block is spliced and assembled with the connecting piece and sleeved on the connector;

the cover is located on embracing tightly the piece and with embrace that piece screw thread assembly, be used for the drive embrace that the piece is close to or keep away from the connector, with right the connector with embrace and tightly lock, unlock or adjust the driving sleeve of frictional force between the piece.

5. The connection structure according to claim 1, wherein the holder body is independently supported on a support surface, the holder has an adjustable holding width, the holder is mounted to the connector via a holding arm, one end of the holding arm is rotatably mounted to the connector, and the other end of the holding arm is rotatably mounted to the holder.

6. The connection structure of claim 1, wherein the fixture is rotatably mounted with a light supplement lamp assembly, the light supplement lamp assembly rotates relative to the fixture to supplement light for the photographing apparatus when in use or is accommodated in a clamping space of the fixture when in storage, and the light supplement lamp assembly can adjust an irradiation direction when in use.

7. The connection structure of claim 1, wherein the connection head is further configured to mount an auxiliary handle assembly, the auxiliary handle assembly is rotatably assembled with the connection head, and is configured to be held by a user when performing handheld shooting, and keep a camera of the shooting device aligned with a shooting object all the time when the arm of the user moves relative to the shooting device, so as to facilitate shooting.

8. A connecting structure, characterized by comprising:

the mounting part is arranged on the bracket body;

a first dial provided to the mounting portion;

the pointer disc is sleeved on the mounting part, rotates relative to the mounting part and is used for aligning with the scales of the first angle disc;

a connector for installing sub-handle assembly, the connector for the installation department is rotatable, the connector for the drive during the installation department rotation pointer dish for first angle dish synchronous rotation, sub-handle assembly with the connector rotation assembly is used for adjusting the angle of connector.

9. The connecting structure according to claim 8, wherein the bracket body is independently supportable on a support surface;

the connecting structure further comprises a connecting piece and a connecting rod;

one end of the connecting piece is fixedly assembled with the mounting part, and the other end of the connecting piece is rotatably assembled with the connector;

connecting rod one end with connector grafting assembly, the other end with pointer dish grafting assembly, the connecting rod is used for making the pointer dish with the connector synchronous revolution.

10. A connecting structure, characterized by comprising:

the mounting part is arranged on the bracket body;

a first dial provided to the mounting portion;

the pointer disc is sleeved on the mounting part, rotates relative to the mounting part and is used for aligning with the scales of the first angle disc;

the connector is used for installing a light supplementing lamp assembly, the connector can rotate relative to the installation part, and the connector drives the pointer disc to synchronously rotate relative to the first angle disc when rotating relative to the installation part.

11. The connection structure of claim 10, wherein the light supplement lamp assembly is rotatably mounted on a fixture, the light supplement lamp assembly supplements light for the photographing apparatus when in use or is accommodated in a clamping space of the fixture when in storage, the light supplement lamp assembly can adjust an irradiation direction when in use, and the fixture is used for clamping the photographing apparatus;

the bracket body can be independently supported on a supporting surface;

the clamp can adjust the clamping width, the clamp is arranged on the connector through a clamping arm, one end of the clamping arm is rotatably assembled with the connector, and the other end of the clamping arm is rotatably assembled with the clamp;

the connecting structure further comprises a connecting piece and a connecting rod;

one end of the connecting piece is fixedly assembled with the mounting part, and the other end of the connecting piece is rotatably assembled with the connector;

connecting rod one end with connector grafting assembly, the other end with pointer dish grafting assembly, the connecting rod is used for making the pointer dish with the connector synchronous revolution.

Technical Field

The invention relates to the technical field of supports or selfie sticks, in particular to a connecting structure.

Background

The support class product is used for shooing or the light filling, and support class product includes the support body and installs in the supported part of support body, can be for anchor clamps, vice handle assembly, light filling banks spare etc. by the supported part, and wherein, anchor clamps are used for the centre gripping to shoot equipment.

In a conventional bracket product, a supported member is attached to a bracket body through a connecting portion, and the supported member is rotatable with respect to the bracket body. The use angle of the supported part cannot be accurately adjusted when the supported part rotates in the existing bracket type product.

Disclosure of Invention

The present invention is directed to overcoming the disadvantages and drawbacks of the prior art and providing a connection structure. In order to achieve the above object, the technical solution adopted by the present invention is a connection structure, including: the mounting part is arranged on the bracket body; a first dial provided to the mounting portion; the pointer disc is sleeved on the mounting part, rotates relative to the mounting part and is used for aligning with the scales of the first angle disc; the connector is used for installing a clamp, the connector is relative to the installation portion is rotatable, the connector is relative to the installation portion drives when rotating the pointer disc relative to the first angle disc synchronously rotates, and the clamp is used for clamping shooting equipment.

Preferably, the connecting structure further comprises a connecting piece and a connecting rod; one end of the connecting piece is fixedly assembled with the mounting part, and the other end of the connecting piece is rotatably assembled with the connector; connecting rod one end with connector grafting assembly, the other end with pointer dish grafting assembly, the connecting rod is used for making the pointer dish with the connector synchronous revolution.

Preferably, the connection structure further comprises a bracket locking component, wherein the bracket locking component is sleeved on the connection head, is rotatably assembled with the mounting part, and can rotate, lock or adjust relative to the mounting part and the friction force between the mounting parts.

Preferably, the stand locking assembly comprises: the clamping block is spliced and assembled with the connecting piece and sleeved on the connector; the cover is located on embracing tightly the piece and with embrace that piece screw thread assembly, be used for the drive embrace that the piece is close to or keep away from the connector, with right the connector with embrace and tightly lock, unlock or adjust the driving sleeve of frictional force between the piece.

Preferably, the support body can independently support in the holding surface, the adjustable centre gripping width of anchor clamps, anchor clamps through a centre gripping arm install in the connector, centre gripping arm one end with the connector rotates the assembly, the other end with anchor clamps rotate the assembly.

Preferably, the fixture is rotatably provided with a light supplement lamp assembly, the light supplement lamp assembly rotates relative to the fixture to supplement light for the photographing equipment during use or is accommodated in a clamping space of the fixture during storage, and the light supplement lamp assembly can adjust the irradiation direction during use.

Preferably, the connector is also used for installing an auxiliary handle assembly, the auxiliary handle assembly and the connector are rotatably assembled, are used for holding by a user when handheld shooting is carried out, and enable a camera of the shooting equipment to be always aligned with a shooting object when the arm of the user and the shooting equipment move relatively so as to facilitate shooting.

The embodiment of the present invention further provides a connection structure, including: the mounting part is arranged on the bracket body; a first dial provided to the mounting portion; the pointer disc is sleeved on the mounting part, rotates relative to the mounting part and is used for aligning with the scales of the first angle disc; a connector for installing sub-handle assembly, the connector for the installation department is rotatable, the connector for the drive during the installation department rotation pointer dish for first angle dish synchronous rotation, sub-handle assembly with the connector rotation assembly is used for adjusting the angle of connector.

Preferably, the bracket body can be independently supported on a supporting surface; the connecting structure further comprises a connecting piece and a connecting rod; one end of the connecting piece is fixedly assembled with the mounting part, and the other end of the connecting piece is rotatably assembled with the connector; connecting rod one end with connector grafting assembly, the other end with pointer dish grafting assembly, the connecting rod is used for making the pointer dish with the connector synchronous revolution.

The embodiment of the present invention further provides a connection structure, including: the mounting part is arranged on the bracket body; a first dial provided to the mounting portion; the pointer disc is sleeved on the mounting part, rotates relative to the mounting part and is used for aligning with the scales of the first angle disc; the connector is used for installing a light supplementing lamp assembly, the connector can rotate relative to the installation part, and the connector drives the pointer disc to synchronously rotate relative to the first angle disc when rotating relative to the installation part.

Preferably, the light supplement lamp assembly is rotatably mounted on the clamp, the light supplement lamp assembly supplements light for the shooting equipment when in use or is accommodated in a clamping space of the clamp when in storage, the light supplement lamp assembly can adjust the irradiation direction when in use, and the clamp is used for clamping the shooting equipment; the bracket body can be independently supported on a supporting surface; the clamp can adjust the clamping width, the clamp is arranged on the connector through a clamping arm, one end of the clamping arm is rotatably assembled with the connector, and the other end of the clamping arm is rotatably assembled with the clamp; the connecting structure further comprises a connecting piece and a connecting rod; one end of the connecting piece is fixedly assembled with the mounting part, and the other end of the connecting piece is rotatably assembled with the connector; connecting rod one end with connector grafting assembly, the other end with pointer dish grafting assembly, the connecting rod is used for making the pointer dish with the connector synchronous revolution.

The connecting structure provided by the embodiment of the invention has the following beneficial effects: this connection structure is through setting up pointer dish and first angle dish, can accurately learn the turned angle of connector, and the turned angle who installs in anchor clamps, light filling banks spare or vice handle assembly etc. is conveniently adjusted.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic view showing the construction of a self-timer stick of embodiment 1 in an open state;

FIG. 2 is a schematic view showing the structure of the selfie stick of embodiment 1 in the stored state;

FIG. 3 is a schematic structural view of the sub-handle assembly of embodiment 1;

fig. 4 is an exploded view of the sub-handle assembly of embodiment 1;

FIG. 5 is a schematic structural view of the holding apparatus of embodiment 1 in a stored state;

FIG. 6 is a schematic structural view of a holding device of embodiment 1 in a use state;

fig. 7 is an exploded view of the holding device of embodiment 1;

FIG. 8 is an enlarged partial view corresponding to detail A in FIG. 7;

FIG. 9 is a schematic structural view of a connecting device and a mounting portion of embodiment 1;

FIG. 10 is a sectional view of the connecting device of embodiment 1;

FIG. 11 is an exploded view of the connecting device and the mounting portion of embodiment 1;

FIG. 12 is a schematic structural view of a holding device of embodiment 2 in a use state;

fig. 13 is an exploded view of the holding device of embodiment 3.

Description of reference numerals: 1. a stent body; 2. a connecting device; 3. a clamping device; 4. a secondary handle assembly; 5. supporting legs; 6. a containing groove; 7. a retention structure; 8. an auxiliary handle mounting bracket; 9. an auxiliary handle body; 10. a plug shaft; 11. inserting grooves; 12. a limiting hole; 13. a limiting rod; 14. an arc-shaped groove; 15. a remote controller; 16. a receiving groove; 17. ejecting the groove; 18. a clamp arm; 19. a clamp; 20. a light supplement lamp assembly; 201. a light supplement lamp body; 21. rotating the disc; 22. a movable chuck; 23. fixing the chuck; 24. mounting grooves; 25. hinging a shaft; 26. a hinge joint; 27. a mounting head; 28. a lower cover; 29. an upper cover; 30. a clamping structure; 31. a damping rubber ring; 32. a lamp rear cover; 33. a circuit board; 34. a lamp shade; 35. a switch button; 36. a power jack; 37. a damping washer; 38. an installation part; 39. a connector; 40. a cradle locking assembly; 401. a connecting member; 402. a hugging block; 403. a drive sleeve; 404. a first angle dial; 405. a pointer dial; 406. a connecting rod; 41. a clamp locking assembly; 411. abutting the sleeve; 412. a first locking knob; 413. a second angle scale; 42. a secondary handle locking assembly; 421. a first bearing; 422. a second locking knob; 423. a second bearing; 43. a level gauge; 44. a first card slot; 45. a first clamping block; 46. a slot; 47. a pointer block; 48. an angle line; 49. a pointer line; 50. a rotating shaft; 51. a fixing hole; 52. and (7) installing holes.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment as necessary without making a contribution thereto after reading the present specification, but all are protected by patent laws within the scope of the claims of the present invention.

Referring to fig. 1 to 13, an embodiment of the present invention provides a connection structure, including: a mounting portion 38 provided to the holder body 1; a first angle dial 404 provided on the mounting portion 38; a pointer dial 405 which is sleeved on the mounting portion 38 and rotates relative to the mounting portion 38 and is used for aligning with the scales of the first angle dial 404; and the connecting head 39 is used for installing the clamp 19, the connecting head 39 can rotate relative to the installing part 38, the pointer disc 405 is driven to synchronously rotate relative to the first angle disc 404 when the connecting head 39 rotates relative to the installing part 38, and the clamp 19 is used for clamping the shooting equipment.

Further, the connecting structure further includes a connecting member 401 and a connecting rod 406; one end of the connecting piece 401 is fixedly assembled with the mounting part 38, and the other end is rotatably assembled with the connecting head 39; one end of the connecting rod 406 is inserted into the connecting head 39, the other end is inserted into the pointer disc 405, and the connecting rod 406 is used for enabling the pointer disc 405 and the connecting head 39 to synchronously rotate.

Further, the connecting structure further includes a bracket locking component 40, and the bracket locking component 40 is sleeved on the connecting head 39, is rotatably assembled with the mounting portion 38, and can rotate relative to the mounting portion 38, lock or adjust the friction force between the bracket locking component 40 and the mounting portion 38.

Further, the stand locking assembly 40 includes: a clasping block 402 which is inserted into the connecting piece 401 and sleeved on the connecting head 39; and the driving sleeve 403 is sleeved on the clasping block 402, is in threaded assembly with the clasping block 402, and is used for driving the clasping block 402 to be close to or far from the connecting head 39 so as to lock, unlock or adjust the friction force between the connecting head 39 and the clasping block 402.

Further, the support body 1 can be independently supported on a supporting surface, the clamp 19 can adjust the clamping width, the clamp 19 is mounted on the connector 39 through a clamping arm 18, one end of the clamping arm 18 is rotatably assembled with the connector 39, and the other end of the clamping arm 18 is rotatably assembled with the clamp 19.

Further, the fixture 19 is rotatably provided with the light supplement lamp assembly 20, the light supplement lamp assembly 20 rotates relative to the fixture 19 so as to supplement light for the shooting device during use or be accommodated in the clamping space of the fixture 19 during storage, and the light supplement lamp assembly 20 can adjust the irradiation direction during use.

Further, the connector 39 is also used for installing the auxiliary handle assembly 4, and the auxiliary handle assembly 4 and the connector 39 are rotatably assembled and used for being held by a user when carrying out handheld shooting, and when the arm of the user and the shooting device move relatively, the camera of the shooting device and a shooting object are always kept in an aligned state so as to be convenient for shooting.

Referring to fig. 1 to 13, an embodiment of the present invention further provides a connection structure, including: a mounting portion 38 provided to the holder body 1; a first angle dial 404 provided on the mounting portion 38; a pointer dial 405 which is sleeved on the mounting portion 38 and rotates relative to the mounting portion 38 and is used for aligning with the scales of the first angle dial 404; the auxiliary handle assembly 4 is rotatably assembled with the connecting head 39 and used for adjusting the angle of the connecting head 39, the connecting head 39 is rotatable relative to the mounting portion 38, the pointer disc 405 is driven to synchronously rotate relative to the first angle dial 404 when the connecting head 39 rotates relative to the mounting portion 38, and the auxiliary handle assembly 4 is rotatably assembled with the connecting head 39 and used for adjusting the angle of the connecting head 39.

Further, the bracket body 1 can be independently supported on a supporting surface; the connecting structure further comprises a connecting piece 401 and a connecting rod 406; one end of the connecting piece 401 is fixedly assembled with the mounting part 38, and the other end is rotatably assembled with the connecting head 39; one end of the connecting rod 406 is inserted into the connecting head 39, the other end is inserted into the pointer disc 405, and the connecting rod 406 is used for enabling the pointer disc 405 and the connecting head 39 to synchronously rotate.

Referring to fig. 1 to 13, an embodiment of the present invention further provides a connection structure, including: a mounting portion 38 provided to the holder body 1; a first angle dial 404 provided on the mounting portion 38; a pointer dial 405 which is sleeved on the mounting portion 38 and rotates relative to the mounting portion 38 and is used for aligning with the scales of the first angle dial 404; and the connecting head 39 is used for mounting the fill-in light assembly 20, the connecting head 39 can rotate relative to the mounting part 38, and when the connecting head 39 rotates relative to the mounting part 38, the pointer disc 405 is driven to synchronously rotate relative to the first angle dial 404.

Further, the light supplement lamp assembly 20 is rotatably mounted on the clamp 19, the light supplement lamp assembly 20 supplements light for the shooting device when in use or is accommodated in a clamping space of the clamp 19 when in storage, the irradiation direction of the light supplement lamp assembly 20 can be adjusted when in use, and the clamp 19 is used for clamping the shooting device; the bracket body 1 can be independently supported on a supporting surface; the clamp 19 can adjust the clamping width, the clamp 19 is arranged on the connector 39 through a clamping arm 18, one end of the clamping arm 18 is rotatably assembled with the connector 39, and the other end of the clamping arm 18 is rotatably assembled with the clamp 19; the connecting structure further comprises a connecting piece 401 and a connecting rod 406; one end of the connecting piece 401 is fixedly assembled with the mounting part 38, and the other end is rotatably assembled with the connecting head 39; one end of the connecting rod 406 is inserted into the connecting head 39, the other end is inserted into the pointer disc 405, and the connecting rod 406 is used for enabling the pointer disc 405 and the connecting head 39 to synchronously rotate.

The present embodiment relates to a multifunctional self-stick with stable shooting effect, as shown in fig. 1 and 2, comprising: the support comprises a support body 1, a connecting device 2, a clamping device 3 and an auxiliary handle component 4.

The support body 1 can be independently supported on a support surface (ground). The connecting device 2 is arranged on one side, far away from the supporting surface, of the support body 1, and the connecting device 2 can rotate, lock or adjust the friction force between the connecting device 2 and the support body 1 relative to the support body 1, so that the connecting device 2 and the support body 1 can be conveniently adjusted. The clamping device 3 is rotatably assembled with the connecting device 2 and is used for clamping the shooting device. The sub-handle assembly 4 is rotatably assembled with the connecting device 2. When the user holds the shooting equipment in hand, the auxiliary handle assembly 4 is used for being held by the user, and when the arm of the user and the shooting equipment move relatively, the camera of the shooting equipment and a shooting object are always kept in an aligned state, so that the shooting is convenient.

As shown in fig. 1 and 2, the holder body 1 is a telescopic rod, and the connecting device 2 is provided at the tip of the telescopic rod. The bottom of telescopic link is provided with collapsible supporting legs 5 of accomodating, and is provided with the storage tank 6 of this supporting legs 5 on the telescopic link. Preferably, the top end of the accommodating groove 6 is provided with a retaining structure 7, and the retaining structure 7 is used for clamping the folded supporting feet 5, so that the supporting feet 5 are effectively prevented from being separated from the accommodating groove 6 after being accommodated. The holding structure 7 is composed of two blocks disposed on the inner wall of the receiving groove 6.

As shown in fig. 1 to 4, the sub-handle assembly 4 includes: an auxiliary handle mounting frame 8 and an auxiliary handle body 9. The hinged end of the secondary handle mount 8 is fitted with the attachment means 2 and the secondary handle mount 8 is rotatable or lockable relative to the attachment means 2. The secondary handle mount 8 is free to rotate about the hinged end relative to the attachment means 2 during handheld use. Keep away from hinged end one side grafting assembly on vice handle body 9 and the vice handle mounting bracket 8, vice handle body 9 can rotate for vice handle mounting bracket 8 after pegging graft.

Specifically, as shown in fig. 3 and 4, an insertion shaft 10 is arranged on one side, far away from the hinged end, of the auxiliary handle mounting frame 8, an insertion groove 11 assembled with the insertion shaft 10 is arranged on the auxiliary handle body 9, the auxiliary handle body 9 and the auxiliary handle mounting frame 8 are assembled in an insertion mode through the cooperation of the insertion shaft 10 and the insertion groove 11, and after the insertion assembly, the auxiliary handle body 9 can rotate relative to the auxiliary handle mounting frame 8 around the axis of the insertion shaft 10. In other embodiments, the insertion shaft 10 is disposed on the side of the auxiliary handle body 9 close to the auxiliary handle mounting bracket 8, and the insertion groove 11 is disposed on the side of the auxiliary handle mounting bracket 8 away from the hinge end.

Further, as shown in fig. 3 and 4, an insertion groove 11 is formed in the auxiliary handle body 9, a limiting hole 12 communicated with the insertion groove 11 is further formed in the auxiliary handle body 9, a limiting rod 13 is inserted and assembled in the limiting hole 12, and a part of the upper portion of the limiting rod 13 protrudes out of a groove wall of the insertion groove 11. The inserting shaft 10 is arranged on the auxiliary handle mounting rack 8, and an arc-shaped groove 14 is formed in the inserting shaft 10. When vice handle body 9 assembles with vice handle mounting bracket 8, arc recess 14 is used for assembling with the bulge of gag lever post 13 to prevent that vice handle body 9 from breaking away from vice handle mounting bracket 8, simultaneously, arc recess 14 offer length can effectively restrict vice handle body 9 and vice handle mounting bracket 8's rotation range.

Referring to fig. 3 and 4, it is noted that the multi-function self-stick further includes: and the remote controller 15 is used for remotely controlling the shooting equipment to shoot. Meanwhile, the auxiliary handle body 9 is provided with a storage groove 16, and the remote controller 15 is detachably assembled with the storage groove 16. When carrying out handheld shooting, remote controller 15 holding is in accomodating groove 16, and remote controller 15's control button exposes in the notch position of accomodating groove 16 to conveniently control the shooting equipment and shoot. In order to facilitate the user to push the remote controller 15 out of the storage groove 16 when the remote controller 15 is taken out, a push-out groove 17 is provided at the bottom of the storage groove 16. In this embodiment, the sub-handle body 9 is a handle of a fixed length, and in other embodiments, the sub-handle body 9 may be a telescopic handle.

As shown in fig. 1-2 and 5-8, the holding device 3 includes: a clamping arm 18, a clamp 19 and a fill-in light assembly 20. The hinged side of the clamp arm 18 is fitted with the connecting device 2, and the clamp arm 18 is rotatable with respect to the connecting device 2 to adjust the photographing angle of the photographing apparatus or to lock for fixing the adjusted position. The clamp 19 is pivotally mounted to the side of the clamp arm 18 remote from the hinged side. The clamp 19 can adjust the clamping width so as to adapt to different models of shooting equipment. The fill light assembly 20 is mounted on the jig 19 and is rotatable with respect to the jig 19. When the device is used, the light supplement lamp assembly 20 is used for supplementing light to the shooting device, and the irradiation direction of light can be adjusted when the light supplement lamp is used for supplementing light, so that a light supplement area is adjusted; when the light supplement lamp assembly 20 is stored, the light supplement lamp assembly is accommodated in the clamping space of the clamp 19, thereby saving the storage space.

Specifically, as shown in fig. 5 to 8, a rotating disk 21 is provided between the clamp arm 18 and the clamp 19 so that the clamp 19 can rotate about the axis of the rotating disk 21 with respect to the clamp arm 18. The clamp 19 includes: a movable jaw 22 and a fixed jaw 23. The fixed jaw 23 is rotatably assembled with the gripping arm 18 by means of the rotating disc 21. The movable chuck 22 is connected with the fixed chuck 23 through a connecting rod and a spring, the connecting rod plays a role in connection and guidance, and the spring is used for providing restoring force for the restoration of the movable chuck 22. The jig 19 is provided with a mounting groove 24, and an inner wall of the mounting groove 24 is provided with a hinge shaft 25. Preferably, the mounting slot 24 is provided on the movable jaw 22.

Further, as shown in fig. 5 to 8, the fill light assembly 20 includes: a hinged joint 26 and a light body 201. The hinge 26 is disposed in the mounting groove 24, and the hinge 26 is rotatably assembled with the hinge shaft 25, thereby enabling the hinge 26 to rotate about the axis of the hinge shaft 25. A mounting head 27 is protrudingly provided on the hinge head 26. The light supplement lamp body 201 is inserted into the mounting head 27 and can rotate relative to the axis direction of the mounting head 27, so that the light irradiation range is adjusted, and the light supplement position is adjusted.

As shown in fig. 7 and 8, the joint 26 includes: a lower cover 28, an upper cover 29 and a clamping structure 30. The upper cover 29 is detachably assembled with the lower cover 28, and the mounting head 27 is integrally formed with the upper cover 29. The clamping structure 30 is disposed between the lower cover 28 and the upper cover 29, and the clamping structure 30 is used for realizing detachable assembly between the lower cover 28 and the upper cover 29. Preferably, the clamping structure 30 includes: cardboard and fixture block. The clamping plate is arranged on the lower cover 28 and forms a clamping groove with the lower cover 28 in an enclosing manner. The fixture block is arranged on the upper cover 29 and used for being matched with the clamping plate. In order to reduce the mutual wear between the articulated joint 26 and the articulated shaft 25, a damping rubber ring 31 is arranged between the articulated joint 26 and the articulated shaft 25.

As shown in fig. 7, the fill light body 201 includes: lamp rear cover 32, circuit board 33, lamp housing 34, and switch knob 35. The lamp rear cover 32 is assembled with the mounting head 27. The circuit board 33 is disposed in the lamp rear cover 32, and the circuit board 33 is provided with a light emitting unit. The light emitting unit is used for emitting light to supplement light for the shooting object. The lamp housing 34 is snap-fitted with the lamp rear cover 32 and serves to protect the light emitting unit. The switch button 35 is provided on the lamp rear cover 32 on the side away from the mounting head 27. The switch button 35 is used to control the light emitting unit to be turned on, turned off, or adjust the light intensity.

In the present embodiment, the circuit board 33 is provided with a power port, and the lamp rear cover 32 is provided with a power jack 36 for accommodating the power port. The lamp rear cover 32 is provided with a rotating shaft rotatably inserted into the mounting head 27, and a damping washer 37 is provided between the rotating shaft and the mounting head 27.

As shown in fig. 1-2 and 9-11, a mounting portion 38 is disposed on the bracket body 1 near the connecting assembly. The connecting device 2 includes: a connector 39, a bracket locking assembly 40, a clamp locking assembly 41, and a secondary handle locking assembly 42.

As shown in fig. 9-11, the connector 39, the clamping arm 18 and the sub-handle mounting bracket 8 are assembled in a sleeved manner, and a level 43 is arranged on the connector 39, and the level 43 is used for adjusting the placing position of the bracket body 1, so that the bracket body 1 can be stably placed on a supporting surface, and the shooting quality is ensured. The bracket locking component 40 is sleeved on the connecting head 39 and is rotatably assembled with the mounting part 38. Cradle lock assembly 40 is rotatable or lockable relative to mounting portion 38, while cradle lock assembly 40 is capable of adjusting the frictional force between it and mounting portion 38. The clamping and locking assembly 41 is arranged on one side of the connecting head 39, penetrates through the auxiliary handle mounting frame 8 and the clamping arm 18 and is in threaded assembly with the connecting head 39. The clamp locking assembly 41 is used to lock or unlock the clamp arm 18 from the connector 39. The auxiliary handle locking assembly 42 is arranged on the other side of the connecting head 39 and is symmetrically distributed with the clamping locking assembly 41. The sub-handle lock assembly 42 is threaded into the coupler 39 through the sub-handle mount 8 and the clamp arm 18. The sub-handle lock assembly 42 is used to adjust the friction force between the sub-handle mount 8 and the grip arm 18 or to lock and unlock the sub-handle mount 8 and the grip arm 18.

In order to enable a user to clearly check and control the shooting range when the user carries out panoramic shooting, and meanwhile, the user can conveniently record the position and the direction of the last shooting by remembering the angle value under the condition that the support body 1 does not move, the shooting effect is guaranteed, the user experience is improved, and the first angle disc 404 is arranged on the installation part 38.

As shown in fig. 9-11, the carriage lock assembly 40 includes: a connecting piece 401, a holding block 402, a driving sleeve 403, a pointer dial 405 and a connecting rod 406. One end of the connecting member 401 is fixedly fitted to the mounting portion 38, and the other end is rotatably fitted to the connector 39. The clasping block 402 is inserted into the connecting member 401 and sleeved on the connecting head 39. The driving sleeve 403 is sleeved on the clasping block 402 and is in threaded assembly with the clasping block 402. The driving sleeve 403 is used for driving the clasping block 402 to move close to or away from the connecting head 39, so as to lock, unlock or adjust the friction between the connecting head 39 and the clasping block 402. The pointer dial 405 is sleeved on the mounting portion 38 and can rotate relative to the mounting portion 38. The pointer dial 405 is used to align with the graduations on the first angle dial 404 to facilitate the user's viewing of the rotation angle. One end of the connecting rod 406 is inserted into the connector 39, and the other end is inserted into the pointer dial 405. The link 406 is used to rotate the pointer dial 405 in synchronization with the connection head 39.

As shown in fig. 9 to 11, a first engaging groove 44 is disposed on the connecting member 401, a first engaging block 45 is disposed on the clasping block 402, and the first engaging block 45 is used for being assembled with the first engaging groove 44. A stepped groove is formed in the mounting portion 38, a second clamping groove is formed in the stepped groove, a second clamping block is arranged on the connecting piece 401, and the second clamping block is used for being assembled with the second clamping groove.

Preferably, as shown in fig. 9 to 11, both of the two clasping blocks 402 are semi-cylindrical, and the outer side wall of both of the two clasping blocks 402 is provided with external threads. The two clasping blocks 402 are combined to form a complete cylinder which is sleeved on the connector 39, and the external threads on the two clasping blocks 402 are combined to form a complete thread. The inner wall of the driving sleeve 403 is provided with internal threads which are assembled with the external threads on the two holding blocks 402. The first clamping grooves 44 are symmetrically arranged in two, the two clasping blocks 402 are arranged, and the first clamping blocks 45 are arranged on the two clasping blocks 402. A conical plug is arranged on one side of the connecting piece 401 close to the connecting head 39. When the connecting piece 401 is assembled with the connecting head 39, the conical plug is inserted into the connecting head 39.

The connector 39 is provided with a slot 46, the clamping arm 18 is sleeved in the slot 46 and can rotate relative to the connector 39, and the auxiliary handle mounting frame 8 is sleeved on the clamping arm 18 and can rotate relative to the connector 39 and the clamping arm 18. The clamp lock assembly 41 includes: a tightening sleeve 411 and a first locking knob 412. The abutment sleeve 411 is fitted through the sub-handle mount 8 to the gripping arm 18. The first locking knob 412 is screw-fitted with the connector 39 through the abutment sleeve 411 and the clamp arm 18. The first locking knob 412 is used to drive the abutting sleeve 411 away from or close to the clamp arm 18, thereby achieving locking or unlocking between the clamp arm 18 and the connecting head 39.

Specifically, as shown in fig. 9 to 11, a second angle scale 413 is disposed on a side of the abutting sleeve 411 away from the clamping arm 18, and a pointer block 47 for aligning scales on the second angle scale 413 is disposed on the sub-handle mounting bracket 8. An angle line 48 is provided on the sub-handle mounting bracket 8, and a pointer line 49 for aligning the angle line 48 is provided on the grip arm 18.

As shown in fig. 9-11, secondary handle lock assembly 42 includes: a first bearing 421, a second locking knob 422, and a second bearing 423. The first bearing 421 is disposed between the holding arm 18 and the connecting head 39. The first bearing 421 serves to reduce the frictional force of rotation between the clamp arm 18 and the connection head 39. The second locking knob 422 is threaded onto the connector 39 after passing through the sub-handle mount 8 and the gripping arm 18. The second locking knob 422 is used for driving the sub-handle mounting bracket 8 to abut against the clamping arm 18, so as to adjust the friction force between the sub-handle mounting bracket 8 and the clamping arm 18, and meanwhile, the second locking knob 422 is used for locking or unlocking the sub-handle mounting bracket 8 and the clamping arm 18. The second bearing 423 is provided between the second locking knob 422 and the sub-handle mount 8, the second bearing 423 is configured to reduce friction between the sub-handle mount 8 and the second locking knob 422, and the second bearing 423 presses the sub-handle mount 8 toward the clamp arm 18 under driving of the second locking knob 422.

The working principle of the present embodiment is roughly as follows: when a selfie stick is used for handheld shooting, firstly, the first locking knob 412 and the second locking knob 422 are rotated, so that the clamping arm 18 and the auxiliary handle mounting rack 8 can rotate around the connector 39, after the clamping arm 18 is adjusted to a proper position, the clamping arm 18 is fixed at the adjusted position by rotating the first locking knob 412, then the light filling lamp body 201 is turned over for 180 degrees, then the irradiation direction and the light intensity of the light filling lamp body 201 are adjusted, and the adjustment of the clamping device 3 is completed; secondly, the second locking knob 422 is rotated to adjust the friction force between the sub-handle mounting bracket 8 and the clamping arm 18, thereby facilitating the hand-held shooting of the user. When shooting after using the selfie stick for supporting, similarly, the position of the clamping device 3 is adjusted, and the supporting leg 5 is rotated after the position of the clamping device 3 is adjusted, so that the supporting leg 5 is in a supporting state; then, the bracket body 1 is placed on a supporting surface, and the position of the bracket body 1 is adjusted through the level meter 43, so that the stability of the bracket body 1 during placement is ensured; finally, the remote controller 15 is detached from the storage groove 16 of the sub-handle body 9 through the ejection groove 17, and the shooting device is remotely controlled by the remote controller 15 to shoot. The multi-functional selfie stick that sets up like this not only can avoid influencing the problem of shooting the effect owing to the arm shake when the user is handheld to shoot, effectively guarantees to shoot the quality, can independently support on the holding surface moreover to avoid holding for a long time and lift the problem that the posture caused the harm to the human body, it is effectual to have the shooting, and it is simple to shoot, simple structure, design benefit can independently support the shooting, and folding convenient to accomodate, convenient to carry, the pleasing to the eye advantage of appearance.

Example 2: the present embodiment differs from embodiment 1 mainly in that, as shown in fig. 12 and 13, in the present embodiment, a mounting groove 24 is provided on the fixture 19, and the fill-in light assembly 20 includes: the hinge 26 and the fill-in light body 201.

The hinge 26 is disposed in the mounting groove 24 and rotatably assembled with the inner wall of the mounting groove 24 by a rotating shaft 50, and a mounting head 27 is protrudingly disposed on the hinge 26. The fill light body 201 is sleeved outside the mounting body 27 and can rotate relative to the axis direction of the mounting head 27 to adjust the light range.

Specifically, the jig is provided with a fixing hole 51, and the fixing hole 51 communicates with the mounting groove 24. The joint 26 is provided with a mounting hole 52. When the light supplement lamp body 201 is installed, the fixing hole 51 is in butt joint with the installation hole 52, and the rotating shaft 50 penetrates through the fixing hole 51 and the installation hole 52, so that the light supplement lamp body 201 and the inner wall of the installation groove 24 are rotatably assembled. The light filling lamp assembly 20 that sets up like this can be at the light irradiation scope of its rotation range class arbitrary adjustment light filling lamp body 201 to the use of light filling lamp body 201 has been richened, has guaranteed the light filling effect of light filling lamp body 201.

The above description is only for the purpose of illustrating the technical solutions of the present invention and not for the purpose of limiting the same, and other modifications or equivalent substitutions made by those skilled in the art to the technical solutions of the present invention should be covered by the claims of the present invention without departing from the spirit and scope of the technical solutions of the present invention.