CN211599165U - Double-locking structure of camera suite - Google Patents

Abstract

The utility model discloses a double-locking structure of a camera external member, which comprises an installation shell, a first locking component, a linkage piece and a second locking component which is fixedly connected with an external connection hole site during locking; the first locking assembly, the second locking assembly and the linkage piece are movably arranged in the mounting shell, and the first locking assembly is connected with the second locking assembly through the linkage piece; the first locking assembly and the second locking assembly are used for locking the external connecting hole positions together. The utility model discloses in, simple structure, connected mode is simple, can realize dual locking, improves this locking structure and outside camera external member's stability of being connected, improves the security performance.

Description

Double-locking structure of camera suite

Technical Field

The utility model belongs to the camera field, in particular to locking structure of camera external member.

Background

The camera external member is one kind and installs on the camera, and the equipment of supplementary camera work, and it can be used for firm camera usually, makes the camera satisfy many angles, the multi-scene shooting such as bowing and facing upward the bat, and the essential extension equipment of making a video recording such as mountable monitor can be to shooting in-process, and the heat conduction that the machine produced comes out, extension shooting time.

The existing camera kit C generally includes a frame 01, a connection hole 02 for installing a locking structure is formed on the frame 01, a lock hole 03 is formed on the connection hole 02, and a guide post 04 is further fixedly disposed on the connection hole 02. The locking structure is required to be installed on the connecting hole position and locked with the lock hole on the connecting hole position. However, the locking structure in the prior art is usually locked by only one locking mechanism, and when the camera suite is in violent movement, the locking structure is easy to loosen, and the safety performance is insufficient; in addition, although some locking structures can meet the requirement of safety performance of the camera suite during violent movement, the structure is complex.

Disclosure of Invention

In order to solve the above problem, the utility model provides a double-locking structure of camera external member, its simple structure, connected mode is simple, can realize dual locking, improves this locking structure and outside camera external member's stability of being connected, improves the security performance.

Another object of the present invention is to provide a dual-locking structure of a camera external member, in which the outer camera external member is protected by the buffering and damping of the silicone pad, so as to avoid the damage caused by rigid impact, and the outer side wall of the structure can be tightly attached to the inner side wall of the external connection hole site during assembly; in addition, the difficulty of assembling the locking structure on the external camera suite is reduced, and the assembling time of assembling the locking structure on the external camera suite can be saved.

In order to achieve the above purpose, the technical scheme of the utility model is as follows:

a double-locking structure of a camera suite comprises an installation shell, a first locking assembly, a linkage piece and a second locking assembly, wherein the second locking assembly is fixedly connected with an external connection hole position during locking; the first locking assembly, the second locking assembly and the linkage piece are movably arranged in the mounting shell, and the first locking assembly is connected with the second locking assembly through the linkage piece; the first locking assembly and the second locking assembly are used for locking the external connecting hole positions together.

In the utility model, the locking structure comprises an installation shell, a first locking component, a linkage piece and a second locking component, the structure is simple, and the connection mode is simple; when the lock is unlocked, the linkage piece drives the second locking assembly to move in the direction extending into the mounting shell in the mounting shell, and simultaneously, the linkage piece moves on the first locking assembly and drives the first locking assembly to move in the direction extending into the mounting shell in the mounting shell; when locking, second locking Assembly stretches out from the installation casing internal toward the forward motion, and drive the linkage and remove on first locking Assembly, and simultaneously, the linkage drives first locking Assembly and removes left toward the direction that stretches out the installation casing, unblank or shutting are accomplished simultaneously to first locking Assembly and second locking Assembly, in fact, first locking Assembly can remove about can, second locking Assembly can the back-and-forth movement, control respectively and the ascending locking of fore-and-aft direction, realize dual locking, improve this locking structure and outside camera external member's stability of being connected, the security performance is improved.

The second locking assembly comprises a locking spring and a locking pin fixedly connected with the external lock hole during locking; the locking spring and the locking pin are both arranged in the mounting shell, one end of the locking pin is fixedly connected with the locking spring, and the other end of the locking pin extends out of the mounting shell when being locked; the locking pin is connected with the first locking component through a linkage piece; the locking pin is positioned above the first locking assembly; when the lock is unlocked, the linkage piece drives the locking pin to move towards the direction close to the locking spring to extrude the locking spring; when the locking mechanism is locked, the locking spring acts against the locking pin, and the locking spring elastically pushes the locking pin and drives the linkage piece to move on the first locking assembly. The second locking assembly comprises a locking spring and a locking pin, and the structure is simple.

Specifically, the first locking assembly comprises a locking slide block and a locking inclined hole, and the locking inclined hole is formed in the locking slide block; the locking sliding block is movably arranged in the mounting shell and is positioned below the locking pin; the top end of the linkage piece is fixedly connected with the locking pin, the other end of the linkage piece sequentially penetrates through the locking inclined hole and the mounting shell to extend outwards, and the linkage piece moves in the locking inclined hole and pushes the locking slide block to move left and right; the locking pin is positioned above the locking slide block. No matter it is unblank or shutting, the linkage all is in locking inclined hole within range activity to move toward the single direction, the linkage promotes the locking slider and moves toward stretching into the direction in the installation casing when unblanking, and when shutting, the linkage promotes the locking slider and moves toward the direction of stretching out the installation casing.

Specifically, a spring mounting groove, a slider mounting groove and a locking pin through hole are formed in the mounting shell, the spring mounting groove and the locking pin through hole are communicated with the slider mounting groove, the locking spring is mounted in the spring mounting groove, and the spring mounting groove, the slider mounting groove and the locking pin through hole form a channel for accommodating the locking pin to move back and forth; the bottom of the sliding block mounting groove is provided with a linkage piece through hole, the bottom end of the linkage piece extends out of the linkage piece through hole, and the bottom end of the linkage piece moves in the range of the linkage piece through hole; the lateral wall of slider mounting groove is opened there is the slider activity hole, and locking slider movable mounting is in the slider mounting groove, and locking slider stretches out in the slider activity hole when locking. The structural design of the installation shell facilitates installation of the first locking assembly, the second locking assembly and the linkage piece.

Specifically, the locking pin comprises a fixing part, a connecting part and a locking part, wherein the fixing part and the connecting part are integrally connected, and the locking part is fixedly connected with the external lock hole during locking; the fixing part and the locking part are respectively positioned at two sides of the connecting part, the fixing part is fixedly connected with the locking spring, and the locking part extends out of the locking pin through hole during locking; the connecting part is provided with a linkage piece fixing hole, and the top of the linkage piece is fixedly arranged in the linkage piece fixing hole. The integrated forming connection mode is beneficial to reducing the processing procedures.

Specifically, the connecting portion integrally extends downwards to form a limiting bump, and the limiting bump is flush with the top of the locking pin through hole when being locked. When the lock is unlocked, the locking pin can move towards the direction close to the locking spring, and in order to ensure that the locking pin does not extrude the locking spring, a limiting convex block can be designed, so that the limiting convex block can be abutted against the side wall of the locking slide block, and the locking pin is limited to move forward continuously.

The linkage piece comprises an installation part, a linkage part and a hand-dialing part which are integrally formed and connected, wherein the installation part and the hand-dialing part are respectively positioned above and below the linkage part; the mounting part is fixedly arranged in the linkage part fixing hole, the linkage part is movably arranged in the locking inclined hole, and the linkage part pushes the locking slide block to move left and right; the bottom of the linkage part extends out of the linkage part through hole and is fixed with the hand-pulling part. Generally, the external diameter of installation department and linkage portion is the same, stirs hand dial portion when unblanking, makes the bottom of linkage portion move backward in linkage spare cross-bore to drive the fitting pin and move towards the locking spring direction.

The mounting shell is provided with a first silica gel pad mounting hole on two side walls, and the first silica gel pad is fixedly mounted in the first silica gel pad mounting hole; the upper surface of the mounting shell is provided with a second silica gel pad mounting hole, and a second silica gel pad is fixedly mounted in the second silica gel pad mounting hole. The buffering shock attenuation that utilizes the silica gel pad is protected outside camera external member, avoids the damage that the rigidity strikeed and causes, makes the lateral wall of this structure when the assembly all can hug closely the inside wall of external connection hole site.

Specifically, the end of the mounting shell is provided with a guide pillar mounting groove which is matched with the outer guide pillar and rotates around the outer guide pillar, and the guide pillar mounting groove and the first locking component are respectively arranged on two sides of the mounting shell. When the assembly, can install the guide pillar mounting groove on the guide pillar earlier, rotate to suitable position again, make the fitting pin just to outside lockhole, then the linkage is dialled to the hand, make the fitting pin toward the motion of locking spring direction, loosen again, utilize locking spring's reaction force to promote the fitting pin card and advance outside lockhole, the locking slider stretches out in the follow slider movable hole under the promotion of linkage simultaneously, accomplish the locking, the degree of difficulty of assembly has been reduced, can save the assemble duration of this locking structure assembly on the camera external member of portion.

The utility model has the advantages that:

compared with the prior art, the utility model discloses a double-locking structure of camera external member, its simple structure, connected mode is simple, can realize dual locking, improves this locking structure and outside camera external member's stability of being connected, improves the security performance.

In the structure, the outer camera suite is protected by using the buffering and damping of the silica gel pad, so that the damage caused by rigid impact is avoided, and the outer side wall of the structure can be tightly attached to the inner side wall of the external connection hole site during assembly; in addition, the difficulty of assembling the locking structure on the external camera suite is reduced, and the assembling time of assembling the locking structure on the external camera suite can be saved.

Drawings

Fig. 1 is a schematic diagram of an external camera assembly in a dual-locking structure of a camera assembly in accordance with the present invention.

Fig. 2 is a schematic view of an angle in a dual-locking structure of a camera kit according to the present invention.

Fig. 3 is a schematic structural view of another angle of the dual-locking structure of the camera kit implemented in the present invention.

Fig. 4 is a schematic sectional view of the dual lock structure of the camera kit according to the present invention when the camera is unlocked.

Fig. 5 is a schematic cross-sectional view of a dual-locking structure of a camera kit according to the present invention in a locked state.

Fig. 6 is a partial structural diagram of a dual locking structure of a camera kit according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The technical scheme of the utility model as follows:

as shown in fig. 1-6, the dual-locking structure of a camera kit implemented by the present invention comprises a mounting housing 1, a first locking component 2, a linkage component 3, and a second locking component 4 fixedly connected to an external connection hole 02 during locking; the first locking assembly 2, the second locking assembly 4 and the linkage piece 3 are movably arranged in the mounting shell 1, and the first locking assembly 2 is connected with the second locking assembly 4 through the linkage piece 3; the first locking assembly 2 and the second locking assembly 4 together lock the external connection hole 02.

In the utility model, the locking structure comprises a mounting shell 1, a first locking component 2, a linkage component 3 and a second locking component 4, the structure is simple, and the connection mode is simple; during unlocking, the linkage piece 3 drives the second locking component 4 to move in the installation shell 1 in the direction extending into the installation shell 1, meanwhile, the linkage piece 3 moves on the first locking component 2, and the linkage piece 3 also drives the first locking component 2 to move in the installation shell 1 in the direction extending into the installation shell 1; when locking, second locking Assembly 4 stretches out from installation casing 1 in the forward motion, and drive linkage 3 and remove on first locking Assembly 2, and simultaneously, linkage 3 drives first locking Assembly 2 and removes left towards the direction of stretching out installation casing 1, unblank or shutting are accomplished simultaneously to first locking Assembly 2 and second locking Assembly 4, in fact, first locking Assembly 2 can be controlled and removed, second locking Assembly 4 can the back-and-forth movement, control and the ascending locking of fore-and-aft direction respectively, realize dual locking, improve this locking structure and outside camera external member C's stability of being connected, and the security performance is improved.

In this embodiment, the second locking assembly 4 includes a locking spring 41, a locking pin 42 fixedly connected with the external locking hole 03 when locked; the locking spring 41 and the locking pin 42 are both arranged in the mounting shell 1, one end of the locking pin 42 is fixedly connected with the locking spring 41, and the other end of the locking pin 42 extends out of the mounting shell 1 during locking; the locking pin 42 is connected with the first locking assembly 2 through the linkage 3; the locking pin 42 is located above the first locking assembly 2; when unlocking, the linkage piece 3 drives the locking pin 42 to move towards the direction close to the locking spring 41 to extrude the locking spring 41; when locking, the locking spring 41 acts against the locking pin 42, and the locking spring 41 elastically pushes the locking pin 42 and drives the link 3 to move on the first locking assembly 2. The second locking assembly 4 comprises a locking spring 41 and a locking pin 42, and the structure is simple.

In the present embodiment, the first locking assembly 2 includes a locking slider 21 and a locking inclined hole 22, and the locking inclined hole 22 is opened on the locking slider 21; the locking slide block 21 is movably arranged in the installation shell 1, and the locking slide block 21 is positioned below the locking pin 42; the top end of the linkage piece 3 is fixedly connected with the locking pin 42, the other end of the linkage piece sequentially penetrates through the locking inclined hole 22 and the mounting shell 1 to extend outwards, and the linkage piece 3 moves in the locking inclined hole 22 and pushes the locking slide block 21 to move left and right; the locking pin 42 is located above the locking slide 21. No matter whether unlocking or locking, the linkage piece 3 moves in the range of the locking inclined hole 22 and moves towards a single direction, the linkage piece 3 pushes the locking slide block 21 to move towards the direction extending into the mounting shell 1 when unlocking, and the linkage piece 3 pushes the locking slide block 21 to move towards the direction extending out of the mounting shell 1 when locking.

In the embodiment, a spring installation groove 11, a slider installation groove 12 and a locking pin through hole 13 are formed in the installation shell 1, the spring installation groove 11 and the locking pin through hole 13 are communicated with the slider installation groove 12, the locking spring 41 is installed in the spring installation groove 11, and the spring installation groove 11, the slider installation groove 12 and the locking pin through hole 13 form a channel for allowing the locking pin 42 to move back and forth; a linkage piece through hole 14 is formed in the bottom of the sliding block mounting groove 11, the bottom end of the linkage piece 3 extends out of the linkage piece through hole 14, and the bottom end of the linkage piece 3 moves in the range of the linkage piece through hole 14; the lateral wall of slider mounting groove 12 is opened there is slider activity hole 15, and locking slider 21 movable mounting is in slider mounting groove 12, and locking slider 21 stretches out in slider activity hole 15 when locking. The structural design of the installation shell 1 facilitates installation of the first locking component 2, the second locking component 4 and the linkage component 3.

In the present embodiment, the locking pin 42 includes a fixing portion 421, a connecting portion 422, and a locking portion 423 fixedly connected to the external locking hole 03 at the time of locking; the fixing part 421 and the locking part 423 are respectively located at two sides of the connecting part 422, the fixing part 421 is fixedly connected with the locking spring 41, and the locking part 423 extends out of the locking pin through hole 13 when locking; the connecting portion 422 is provided with a linkage fixing hole 424, and the top of the linkage 3 is fixedly installed in the linkage fixing hole 424. The integrated forming connection mode is beneficial to reducing the processing procedures.

In this embodiment, the connecting portion 422 integrally extends downward to form a limiting protrusion 425, and the limiting protrusion 425 is flush with the top of the locking pin through hole 13 when being locked. During unlocking, the locking pin 42 will move towards the direction close to the locking spring 41, and in order to make the locking pin 42 not press the locking spring 41 too much, a limit bump 425 can be designed, so that the limit bump 425 can be abutted against the side wall of the locking slider 21 to limit the locking pin 42 to move forward continuously.

In the embodiment, the linkage member 3 comprises an installation part 31, a linkage part 32 and a hand-pulling part 33 which are integrally connected, wherein the installation part 31 and the hand-pulling part 33 are respectively positioned above and below the linkage part 32; the mounting part 31 is fixedly arranged in the linkage fixing hole 424, the linkage part 32 is movably arranged in the locking inclined hole 22, and the linkage part 32 pushes the locking slide block 21 to move left and right; the bottom of the linkage part 32 extends out of the linkage part through hole 14 and is fixed with the hand-pulling part 33. Generally, the mounting portion 31 and the linking portion 32 have the same outer diameter, and when the lock is unlocked, the hand-pulling portion 33 is pulled by hand, so that the bottom of the linking portion 32 moves backward in the linking member through hole 14, thereby driving the locking pin 42 to move toward the locking spring 41.

Wherein, two side walls of the mounting shell 1 are provided with first silica gel pad mounting holes 16, and a first silica gel pad 5 is fixedly mounted in the first silica gel pad mounting holes 16; the upper surface of the mounting shell 1 is provided with a second silica gel pad mounting hole 17, and a second silica gel pad 6 is fixedly mounted in the second silica gel pad mounting hole 17. The buffering and damping of the silica gel pad is utilized to protect the external camera external member C, the damage caused by rigid impact is avoided, and the outer side wall of the structure can be tightly attached to the inner side wall of the external connection hole site 03 during assembly.

In the present embodiment, the end of the mounting housing 1 is opened with a guide post mounting groove 18 adapted to the outer guide post 04 and rotating around the outer guide post 04, and the guide post mounting groove 18 and the first locking member 2 are respectively disposed at both sides of the mounting housing 1.

During the assembly, can install guide pillar mounting groove 18 on guide pillar 04 earlier, rotate to suitable position again, make fitting pin 42 just to outside lockhole 03, then the hand dials linkage 3, make fitting pin 42 toward the motion of locking spring 41 direction, loosen again, utilize locking spring 41's reaction force to promote fitting pin 42 card and advance outside lockhole 03, locking slider 21 stretches out from slider activity hole 15 under linkage 3's promotion simultaneously, accomplish the locking, the degree of difficulty of assembly has been reduced, can save the assemble duration of time of this locking structure assembly on outside camera external member C.

Wherein the external camera assembly C can be a macro OSMO machine cage.

The utility model has the advantages that:

compared with the prior art, the utility model discloses the double-locking structure of camera external member that implements, its simple structure, connected mode is simple, can realize dual locking, improves this locking structure and outside camera external member C's stability of being connected, improves the security performance.

In the structure, the external camera suite C is protected by using the buffering and damping of the silica gel pad, so that the damage caused by rigid impact is avoided, and the outer side wall of the structure can be tightly attached to the inner side wall of the external connection hole 02 during assembly; in addition, the difficulty of assembling the locking structure to the external camera kit C is reduced, and the assembling time of assembling the locking structure to the external camera kit C can be saved.

The above description is intended to be illustrative of the present invention and is not intended to be limiting, and all such modifications, equivalents and improvements as fall within the spirit and scope of the invention are intended to be included therein.

Claims (10)

1. A double-locking structure of a camera suite is characterized by comprising an installation shell, a first locking component, a linkage component and a second locking component, wherein the second locking component is fixedly connected with an external connection hole site during locking; the first locking assembly, the second locking assembly and the linkage piece are movably arranged in the mounting shell, and the first locking assembly is connected with the second locking assembly through the linkage piece; the first locking assembly and the second locking assembly are used for locking the external connecting hole positions together; when locking, the second locking subassembly stretches out from the installation casing in the forward motion to drive the linkage piece and remove on first locking subassembly, simultaneously, the linkage piece drives first locking subassembly and removes toward the direction of stretching out the installation casing.

2. The dual-locking structure of a camera kit as claimed in claim 1, wherein the second locking assembly includes a locking spring, a locking pin fixedly coupled with the external locking hole when locked; the locking spring and the locking pin are both arranged in the mounting shell, one end of the locking pin is fixedly connected with the locking spring, and the other end of the locking pin extends out of the mounting shell when being locked; the locking pin is connected with the first locking assembly through the linkage piece; the locking pin is positioned above the first locking component;

when the lock is unlocked, the linkage piece drives the locking pin to move to extrude the locking spring; when the locking mechanism is locked, the locking spring elastically pushes the locking pin and drives the linkage piece to move on the first locking assembly.

3. The dual-locking structure of a camera kit as claimed in claim 2, wherein the first locking assembly includes a locking slider and a locking inclined hole, and the locking inclined hole is provided on the locking slider; the locking sliding block is movably arranged in the mounting shell and is positioned below the locking pin; the top end of the linkage piece is fixedly connected with the locking pin, the other end of the linkage piece sequentially penetrates through the locking inclined hole and the mounting shell to extend outwards, and the linkage piece moves in the locking inclined hole and pushes the locking slide block to move left and right; the locking pin is located above the locking slide block.

4. The dual-locking structure of a camera kit as claimed in claim 3, wherein a spring installation groove, a slider installation groove and a locking pin through hole are opened in the installation housing, the spring installation groove and the locking pin through hole are communicated with the slider installation groove, the locking spring is installed in the spring installation groove, and the spring installation groove, the slider installation groove and the locking pin through hole form a passage for allowing the locking pin to move forward and backward;

a linkage piece through hole is formed in the bottom of the sliding block mounting groove, and the bottom end of the linkage piece extends out of the linkage piece through hole; the lateral wall of slider mounting groove is opened there is the slider activity hole, locking slider movable mounting be in the slider mounting groove, and locking slider stretches out in the slider activity hole from the slider when locking.

5. The double-locking structure of a camera kit according to claim 4, wherein the locking pin comprises a fixing portion, a connecting portion and a locking portion fixedly connected with the external locking hole when locked, which are integrally connected; the fixing part and the locking part are respectively positioned at two sides of the connecting part, the fixing part is fixedly connected with the locking spring, the locking part extends out of the locking pin through hole during locking, and the bottom end of the linkage part moves in the linkage part through hole range; the connecting part is provided with a linkage piece fixing hole, and the top of the linkage piece is fixedly arranged in the linkage piece fixing hole.

6. The dual-locking structure of a camera kit as claimed in claim 5, wherein the connecting portion integrally extends downward to form a limiting protrusion, and the limiting protrusion is flush with the top of the locking pin through hole when locking.

7. The dual-locking structure of a camera kit as claimed in claim 4, wherein the linkage member includes a mounting portion, a linkage portion and a hand-pulling portion integrally connected, the mounting portion and the hand-pulling portion being located above and below the linkage portion, respectively; the mounting part is fixedly arranged in the linkage piece fixing hole, the linkage part is movably arranged in the locking inclined hole, and the linkage part pushes the locking slide block to move left and right; the bottom of the linkage part extends out of the linkage part through hole and is fixed with the hand-pulling part.

8. The dual-locking structure of a camera kit as claimed in claim 1, wherein the two side walls of the mounting housing are opened with first silicone pad mounting holes, and the first silicone pad is fixedly mounted in the first silicone pad mounting holes.

9. The dual-locking structure of a camera kit as claimed in claim 1, wherein the upper surface of the mounting housing is provided with a second silicone pad mounting hole, and a second silicone pad is fixedly mounted in the second silicone pad mounting hole.

10. The dual-locking structure of a camera kit as claimed in claim 1, wherein the end of the mounting housing is opened with a guide post mounting groove adapted to the outer guide post and rotating around the outer guide post, and the guide post mounting groove and the first locking member are separately provided at both sides of the mounting housing.

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