CN206055157U - Automatic telescopic filming apparatus - Google Patents

Abstract

The utility model discloses a kind of automatic telescopic filming apparatus, including：Elastic telescoping loop bar；Bearing support, located at the one end of the elastic telescoping loop bar；Manipulation component, located at the other end of the elastic telescoping loop bar；Drive component, is electrically connected with the manipulation component and is connected with the elastic telescoping loop bar, so that the elastic telescoping loop bar elastic elongation or shortening are driven when the manipulation component starts.The elongation of automatic telescopic filming apparatus just can control by manipulation component and shorten, it is easy to operate, laborsaving, realize singlehanded control.Achievable lightweight, assembling link is few.This structure provides the condition that line is crossed in pipe for some functions for doing on bearing support, is that some additional functions done on support are powered and give good solution.

Description

Automatic telescopic shooting device

Technical Field

The utility model belongs to shoot the instrument field, more specifically relates to an automatic flexible shooting device.

Background

The telescopic rod is formed by sleeving a plurality of rod pieces, has the characteristics of small contraction volume so as to be convenient to carry and store, and can meet the requirement of use length after being expanded, thereby having wide application in daily life of people. Produced from rapping bar in the existing market, for manual type, it is relatively troublesome to open and retrieve all to need manual operation, and can not follow desire control length at will, needs artificial elongation, draws short the back and just can shoot, can not singlehanded control from the elongation of rapping bar, shrink. If meet the pedestrian in the use, need will withdraw from rapping bar manual, cause the cell-phone to fall off easily on the device, easily brought serious loss for the user.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an automatic flexible shooting device, an automatic flexible shooting device that can single-hand control extension, shorten.

In order to achieve the above object, the utility model adopts the following technical scheme:

an automatic telescopic shooting device, comprising:

an elastic telescopic sleeve rod;

the bearing bracket is arranged at one end part of the elastic telescopic sleeve rod;

the control assembly is arranged at the other end of the elastic telescopic sleeve rod;

and the driving component is electrically connected with the control component and is connected with the elastic telescopic sleeve rod so as to drive the elastic telescopic sleeve rod to elastically extend and/or contract when the control component is started.

The automatic telescopic shooting device can be controlled to extend and shorten by a single hand, and is very convenient to use.

Further, the elastic force telescopic sleeve rod comprises:

the first sleeve is connected with the control assembly;

the second sleeve is arranged between the first sleeve and the bearing bracket and is sleeved on the first sleeve;

and the spring is elastically connected with the first sleeve and the second sleeve.

The elastic telescopic loop bar can be extended and shortened, support is provided for the telescopic function of the automatic telescopic shooting device, the elastic telescopic loop bar is supported by the spring to be extended, and the structure is simple and the assembly is convenient.

Further, the drive assembly includes:

the winding roller is arranged in the control assembly;

one end of the inner rope is connected with the winding roller, and the other end of the inner rope is fixed at the tail end of the second sleeve or the bearing bracket;

a roller driving member driving the winding roller to rotate forward/backward to wind or unwind the winding roller, thereby elastically extending and/or contracting the spring.

The driving assembly controls the extension and the shortening of the automatic telescopic shooting device by controlling the winding and the releasing of the inner rope.

Further, the automatic telescopic shooting device further comprises:

the first propping piece is arranged at the front end of the first sleeve or is the control assembly;

the second propping piece is arranged at the front end of the second sleeve; wherein,

one end of the spring is abutted against the first abutting piece, and the other end of the spring is abutted against the second abutting piece or the bearing support.

One end of the automatic telescopic shooting device, which is close to the operation assembly, is a front end, one end of the automatic telescopic shooting device, which is close to the bearing support, is a tail end, and the first abutting piece and the second abutting piece are used for limiting the position of the spring and transmitting elastic potential energy.

Furthermore, a plurality of second sleeves are sequentially sleeved, correspondingly, a plurality of second abutting pieces are arranged, the tail end of the second sleeve at the tail end is connected with the bearing support, one or more springs are arranged, when the springs are arranged, one end of each spring abuts against the corresponding second abutting piece, and the other end abuts against the adjacent second abutting piece.

There can be multiple stage sleeves and the automatic telescopic shooting device can be shortened to be shorter.

Furthermore, the second abutting piece is an inner pipe rubber plug which is provided with a wire passing hole.

The inner tube rubber plug plays a role of a plugging spring and the inner rope can penetrate through the inner tube rubber plug.

Further, automatic flexible shooting device still includes limit structure, and limit structure includes:

the clamping part is arranged on the outer wall of the front end of the second sleeve; and/or the presence of a gas in the gas,

and the limiting parts are arranged at the tail end of the first sleeve and the tail end of the second sleeve.

The limiting structure prevents the separation between the sleeves.

Furthermore, the clamping part is an anti-abrasion rubber pad, and the limiting part is a limiting part or a contracted end part.

The anti-abrasion rubber pad guides one end of the thin sleeve to slide in the thick sleeve inserted into the thin sleeve, so that the thin sleeve is prevented from scraping the inner wall of the sleeve.

Further, control the subassembly and include main part and control switch, main part and bottom sheathed tube bottom fixed connection, main part cavity, in kinking gyro wheel and the main part was located to the roller drive spare, control switch connected in the main part outer wall, control switch passes through the wire with the roller drive spare and is connected.

The control assembly can control winding and releasing of the inner rope so as to control the length of the elastic telescopic loop bar.

Furthermore, the roller driving part further comprises a power supply, a circuit board and a servo motor, wherein a rotating shaft of the servo motor is connected with the winding roller, and the circuit board is connected with the control switch, the power supply and the servo motor.

The roller driving piece can control the winding roller to rotate forwards/backwards. The electric drive is adopted, and the use is more convenient.

After adopting above-mentioned technical scheme, its beneficial effect is: the extension and the shortening of the automatic telescopic shooting device can be controlled through the button, the operation is convenient and labor-saving, and the length of the automatic telescopic shooting device can be controlled by one hand. There is not rope, the axle of peripheral hardware, can not produce unnecessary and scrape, and the thickness of inner tube can be accomplished extremely thin to realize from rapping bar's light in weight. During assembly, the spring and the inner tube rubber plug are assembled, so that the assembly links are reduced, and the production benefit is improved. In addition, the structure provides a condition for passing wires in the pipe for some functions on the bearing support, and provides a good solution for supplying power for some additional functions on the support.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

fig. 2 is a schematic view of the internal structure of the embodiment of fig. 1.

The objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1 and 2, a detailed implementation of an embodiment of the present invention is provided.

The utility model discloses an automatic flexible shooting device can be from shooting apparatus such as rapping bar, camera frame, it includes: an elastic telescopic sleeve rod 2; the bearing support 3 is arranged at one end of the elastic telescopic sleeve rod 2, and the bearing support 3 is used for bearing equipment with photographing and photographing functions, such as a mobile phone, a tablet personal computer or a camera; the control assembly is arranged at the other end of the elastic telescopic sleeve rod 2; and the driving component is electrically connected with the control component and is connected with the elastic telescopic loop bar 2 so as to drive the elastic telescopic loop bar 2 to elastically extend or contract when the control component is started. The automatic telescopic shooting device can be controlled by a single hand to extend and shorten from the racket, and is very convenient to use.

In general, the end near the operating handle is considered to be the front end, and the end near the carrying bracket 3 is considered to be the tail end.

The elastic telescopic sleeve rod 2 comprises: a first sleeve 21 connected with the manipulation assembly; the second sleeve 22 is sleeved on the first sleeve 21 and connected with the bearing bracket 3; and a spring 25 elastically connecting the first sleeve 21 and the second sleeve 22. The elastic telescopic loop bar 2 can be extended and shortened, support is provided for the telescopic function of the automatic telescopic shooting device, the elastic telescopic loop bar 2 is supported by one spring 25 to be extended, and the structure is simple and the assembly is convenient.

The drive assembly includes: a winding roller 16 arranged in the control assembly; one end of the inner rope 4 is connected with the winding roller 16, and the other end of the inner rope 4 is fixed at the tail end of the second sleeve 22 or the bearing bracket 3; a roller driving member for rotating the winding roller 16 forward/backward to wind or unwind the winding roller 16, thereby elastically extending and/or contracting the spring 25. The driving assembly controls the extension and contraction of the automatic telescopic photographing device by controlling the winding and releasing of the inner rope 4.

The automatic telescopic shooting device further comprises: the first abutting piece is arranged at the front end of the first sleeve 21 or is the control assembly; the second abutting piece is arranged at the front end of the second sleeve 22; one end of the spring 25 abuts against the first abutting piece, and the other end abuts against the second abutting piece or the bearing bracket 3. The first abutting piece and the second abutting piece are used for limiting the position of the spring 25 and transmitting elastic potential energy.

The second sleeves 22 are sleeved in sequence, correspondingly, the second abutting pieces are multiple, the tail end of the second sleeve 22 at the tail end is connected with the bearing support 3, wherein the number of the springs 25 is one or multiple, when the number of the springs 25 is multiple, one end of each of the springs 25 abuts against the corresponding second abutting piece, and the other end abuts against the adjacent second abutting piece.

In the case of a plurality of springs 25, the corresponding sleeves are also multiple, and in one embodiment, the springs 25 are correspondingly arranged inside the second sleeve 22 except for the last second sleeve 22 and the first sleeve 21; one end of the spring 25 in the first sleeve 21 abuts against the first abutting part, and the other end abuts against the second abutting part on the adjacent second sleeve 22; one end of the spring 25 in the second sleeve 22 abuts against the second abutting member in the second sleeve 22, and the other end abuts against the second abutting member of the adjacent thinner second sleeve 22.

The second abutting piece is an inner pipe rubber plug 24, and a wire passing hole is formed in the inner pipe rubber plug 24. The inner tube rubber plug 24 acts as a blocking spring 25 and the inner rope 4 can pass through the inner tube rubber plug 24.

The automatic telescopic shooting device further comprises a limiting structure, and the limiting structure comprises: a retaining portion provided on the outer wall of the front end of the second sleeve 22; and/or, a restriction provided at the distal end of the first sleeve 21 and the distal end of the second sleeve 22. The limiting structure prevents the separation between the sleeves.

The position-limiting part is sometimes an anti-wear rubber pad 23, and the limiting part is a limiting part or a contracted end part. The anti-abrasion rubber pad 23 guides one end of the thin sleeve to slide in the inserted thick sleeve, so as to prevent the sleeve end from scratching the inner wall of the sleeve, and can also be matched with the limiting part to prevent the second sleeve 22 from sliding out.

Control the subassembly and include main part 12 and control switch 11, main part 12 and bottom sheathed tube bottom fixed connection, main part 12 cavity, in main part 12 was located to kinking gyro wheel 16 and roller drive spare, control switch 11 is connected in main part 12 outer wall, and control switch 11 passes through the wire with roller drive spare and is connected. The control component can control the winding and the releasing of the inner rope 4 so as to control the length of the elastic telescopic loop bar 2.

The roller driving piece further comprises a power supply, a circuit board and a servo motor, wherein a rotating shaft of the servo motor is connected with the winding roller 16, and the circuit board is connected with the control switch 11, the power supply and the servo motor. The roller driving piece can control the winding roller to rotate forwards/backwards. The electric drive is adopted, and the use is more convenient.

The principle and effect of the embodiment described in fig. 1 and 2: for convenient carrying, generally will transfer to the shortest state from the rapping bar, control switch 11 closes servo motor 15 static this moment, interior rope 4 twines on kinking gyro wheel 16, interior rope 4 pulls and bears support 3 through hanging rope device, interior rope 4 connects the rope connecting hole 31 on bearing support 3 in this embodiment, bearing support 3 is along the end of the last second sleeve 22 of the flexible loop bar 2 axial extrusion of elasticity, the spring 25 of second sleeve 22 extrusion bottom, the inner tube plug 24 in the sleeve is extrudeed again to spring 25, the sleeve pipe that is connected with it is given to inner tube plug 24 conduction pressure, this sleeve pipe is given next spring 25 again conduction pressure, spring 25 is given next inner tube plug 24 again with pressure conduction, analogize and so on, receive the effect of the tensile force of interior rope 4 and bear support 3 compression to the shortest with flexible loop bar 2. Similarly, the inner rope 4 is lengthened, and the elastic telescopic loop bar 2 extends under the action of the restoring force of each spring 25 until the limit length limited by the limit structure 26. The anti-wear rubber pad 23 plays a role in guiding sliding to prevent the bottom of the sleeve from shaking in the process of extension and contraction.

If the automatic telescopic shooting device is required to be extended, a button representing 'extension' of the control switch 11 is pressed, the servo motor 15 is driven by power to rotate positively, the winding roller 16 is driven to rotate positively to release the wound inner rope 4, the elastic telescopic loop bar 2 automatically extends along with the increase of the length of the released inner rope 4 under the action of the restoring force of the spring 25, and the whole automatic telescopic shooting device is extended. Pressing the button representing 'shortening', the servo motor 15 reversely rotates to drive the winding roller 16 to reversely rotate to release the wound inner rope 4, the inner rope 4 drives the bearing support 3 to extrude the elastic telescopic loop bar 2 to shorten, and the whole automatic telescopic shooting device shortens.

When the automatic telescopic shooting device is at the longest and shortest and a representative 'extending' or 'shortening' button of the control switch 14 is not pressed, the circuit board 14 controls the control switch 11 to be closed, and the length of the automatic telescopic shooting device is fixed.

After adopting above-mentioned technical scheme, its beneficial effect is: the extension and the shortening of the automatic telescopic shooting device can be controlled through the button, the operation is convenient and labor-saving, and the length of the automatic telescopic shooting device can be controlled by one hand. There is not rope, the axle of peripheral hardware, can not produce unnecessary and scrape, and the thickness of inner tube can be accomplished extremely thin to realize from rapping bar's light in weight. During assembly, the spring 25 and the inner tube rubber plug 24 are assembled, so that the assembly links are reduced, and the production benefit is improved. In addition, the structure provides a condition for passing wires in the pipe for some functions on the bearing bracket 3, and provides a good solution for supplying power for some additional functions on the bracket.

The above only is the preferred embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent flow changes made by the contents of the specification and the drawings, or directly or indirectly applied to other related technical fields, are included in the same way in the protection scope of the present invention.

Claims (10)

1. An automatic flexible shooting device, its characterized in that includes:

an elastic telescopic sleeve rod;

the bearing bracket is arranged at one end part of the elastic telescopic sleeve rod;

the control assembly is arranged at the other end of the elastic telescopic sleeve rod;

and the driving component is electrically connected with the control component and is connected with the elastic telescopic sleeve rod so as to drive the elastic telescopic sleeve rod to elastically extend and contract when the control component is started.

2. The automatic telescopic photographing apparatus of claim 1, wherein the elastic telescopic rod comprises:

the first sleeve is connected with the control assembly;

the second sleeve is arranged between the first sleeve and the bearing bracket and is sleeved on the first sleeve;

and the spring is elastically connected with the first sleeve and the second sleeve.

3. The automatic telescopic camera according to claim 2, wherein said driving assembly comprises:

the winding roller is arranged in the control assembly;

one end of the inner rope is connected with the winding roller, and the other end of the inner rope is fixed at the tail end of the second sleeve or the bearing bracket;

a roller driving member driving the winding roller to rotate forward/backward to wind or unwind the winding roller, thereby elastically extending and/or contracting the spring.

4. The automatic telescopic camera according to claim 3, further comprising:

the first propping piece is arranged at the front end of the first sleeve or the control assembly;

the second propping piece is arranged at the front end of the second sleeve; wherein,

one end of the spring abuts against the first abutting piece, and the other end of the spring abuts against the second abutting piece or the bearing support.

5. The automatic telescopic shooting device of claim 4, wherein the second sleeves are sleeved in sequence, and correspondingly, the second abutting pieces are multiple, wherein the number of the springs is one or multiple, when the number of the springs is multiple, one end of each of the springs abuts against the corresponding second abutting piece, and the other end of each of the springs abuts against the adjacent second abutting piece.

6. The automatic telescopic shooting device according to claim 4, wherein the second abutting member is an inner tube rubber plug, and a wire passing hole is formed in the inner tube rubber plug.

7. The automatic telescopic camera device according to claim 6, further comprising a limiting structure, the limiting structure comprising:

the clamping part is arranged on the outer wall of the front end of the second sleeve; and/or the presence of a gas in the gas,

and the limiting parts are arranged at the tail end of the first sleeve and the tail end of the second sleeve.

8. The automatic telescopic camera device of claim 7, wherein the positioning portion is an anti-wear rubber pad, and the limiting portion is a limiting member or a retracted port.

9. The automatic telescopic shooting device of any one of claims 3-8, wherein the control assembly comprises a main body and a control switch, the main body is fixedly connected with the first sleeve, the main body is hollow, the winding roller and the roller driving member are arranged in the main body, the control switch is connected to the outer wall of the main body, and the control switch is connected with the roller driving member through a lead.

10. The automatic telescopic camera device as claimed in claim 9, wherein the roller driving member further comprises a power supply, a circuit board and a servo motor, the spool of the servo motor is connected to the winding roller, and the circuit board is connected to the control switch, the power supply and the servo motor.