CN207262000U - Self-shooting bar - Google Patents

Abstract

The utility model discloses a kind of self-shooting bar, including handle portion, clamping part, telescopic component and telescopic control device.Handle portion is to be used to grip during user's use, and clamping part is to be used to clamp the capture apparatus such as mobile phone, camera；Telescopic component is connected with handle portion and clamping part, and is arranged to switch between elongation state and contraction state；Telescopic control device includes being arranged at the inside of handle portion and telescopic component and the clockwork spring for controlling telescopic component to be extended and shunk.The self-shooting bar of the utility model, controls the flexible of telescopic component by setting clockwork spring, using the superior bending property of clockwork spring, can significantly reduce the volume of handle portion, self-shooting bar overall volume is small, easy to the use of user, particularly convenient for the holding of female user.

Description

Self-shooting bar

Technical field

It the utility model is related to one kind to take pictures ancillary equipment, specifically, the utility model is related to a kind of self-shooting bar.

Background technology

Self-shooting bar is a kind of simple ancillary equipment of taking pictures, and generally includes a handle portion, the telescopic body of rod and setting In rod end and it is used for the clamping part for fixing terminal capable of taking pictures.During using self-shooting bar, user can be by terminal capable of taking pictures Fix on the holder portion, by taking pictures with the controller control terminal of the wired or wireless connection of the terminal to user.

Existing self-shooting bar can be divided into manual telescopic formula and electric-controlled flexible.Though manual telescopic formula self-shooting bar is cheap, But need to carry out extension and contraction control manually when visual angle is taken pictures in adjustment, and do not meet the automation demanding of high-end user.It is automatically controlled Though telescopic self-shooting bar can realize automatic telescopic function, there are the problem of higher price, it is especially prominent the drawbacks of be handle It is too big to locate volume, is not suitable for female user grasping.

In addition, the patent document of Publication No. CN105932824A discloses a kind of electric driver of self-shooting bar, its base Present principles are that rack is wound on rack pinion and is meshed therewith, by the rotation of actuating unit drive rack gear, and leads Draw stretching, extension either stretching or contraction purpose of the contraction so as to fulfill self-shooting bar of rack.The electric driver of this structure is deposited In following defect：

(1) since the inner wall part setting of rack is with teeth, rack is arranged at the phase of rack inner wall part when bending to the limit Adjacent tooth can collide, and limit the minimum coiling diameter of rack；

(2) thickness of rack is thicker, and the rack for being wound in rack collector is wound in a juxtaposed fashion, when using stacked During winding, it can further increase the volume of self-shooting bar handle portion.

Utility model content

The utility model is intended at least solve one of technical problem existing in the prior art.For this reason, the utility model carries For a kind of self-shooting bar, it is therefore an objective to user-friendly.

To achieve these goals, the technical solution that the utility model is taken is：Self-shooting bar, including：

Handle portion；

Clamping part, it is used to clamp capture apparatus；

Telescopic component, it is connected with handle portion and clamping part, and is arranged between elongation state and contraction state Switch over；And

Telescopic control device, it has the inside for being arranged at handle portion and telescopic component and is used to control telescopic component to carry out Elongation and the clockwork spring shunk.

The telescopic control device further include the supporting rack being arranged inside the handle portion and be arranged at supporting rack and For the power supply mechanism for controlling the clockwork spring to be extended and shunk；When clockwork spring is extended, clockwork spring promotes described flexible Component is extended；When clockwork spring is shunk, clockwork spring pulls the telescopic component to be shunk.

The power supply mechanism includes motor, exports power to drive the clockwork spring to carry out flexible power output portion Part and the rotary force for being connected with motor and power output part and producing motor are transferred to the biography of power output part Motivation structure.

The power output part is actively to press roller with what the clockwork spring contacted.

The power output part be using cylinder made of rubber material, the periphery of power output part with it is described The surface contact of clockwork spring.

The power output part include pressing roller body and be arranged at press roller body on and with the clockwork spring The rubber layer of surface contact, rubber layer are made of rubber material.

The transmission mechanism is gear drive.

The transmission mechanism includes the first gear being arranged on the motor, the second tooth engaged with first gear Take turns, be the 3rd gear for being coaxially disposed and rotating synchronously, the 4th gear engaged with the 3rd gear and the 4th tooth with second gear Take turns as the 5th gear for being coaxially disposed and rotating synchronously and the 6th gear engaged with the 5th gear, the power output part with 6th gear is to be coaxially disposed and rotate synchronously.

The first gear, the second gear, the 3rd gear, the 4th gear, the 5th gear and institute It is straight spur gear to state the 6th gear.

The telescopic control device, which is further included, to be oppositely arranged with the power output part and is contacted with the clockwork spring Driven pressing roller, clockwork spring pass through between power output part and driven pressing roller.

The driven pressing roller be using cylinder made of rubber material, the periphery of driven pressing roller with it is described The surface contact of clockwork spring.

It is described it is driven pressing roller include pressing roller body and be arranged at press roller body on and with the clockwork spring The rubber layer of surface contact, rubber layer are made of rubber material.

The telescopic control device further include for it is described it is driven pressing roller provide support force so that the clockwork spring with The power output part and driven pressing roller keep the elastic supporting mechanism of fitting, and driven pressing roller is in floating state.

The elastic supporting mechanism includes the bracket of rotatable setting and makes its rotating active force for applying to bracket Flexible member, it is described it is driven pressing roller be rotatably arranged on bracket and both rotation centerline it is parallel.

The rotation centerline of the bracket is positioned at the driven pressing roller and the tie point of the flexible member and bracket Between.

The flexible member is cylindrically coiled spring and is compression spring, and one end of flexible member contradicts the driven pressing tooth Wheel, the other end contradict support frame as described above.

The bracket includes the first pressure pin being oppositely arranged and the second pressure pin and is connected with the first pressure pin and the second pressure pin Connecting shaft, support frame as described above, which has, allows the axis hole that connecting shaft passes through.

The telescopic control device further includes the ring stand of rotatable setting, after the clockwork spring contraction on ring stand.

The telescopic control device, which further includes, to be arranged between the ring stand and the power output part and for guiding The directing plate of the clockwork spring.

The telescopic control device, which further includes, to be arranged on the outside of the ring stand and for limiting the clockwork spring when shrinking The limiting plate and guide plate of maximum gauge, limiting plate and guide plate are the axle center position of arc-shaped structure and limiting plate and guide plate In on the rotation centerline of ring stand.

The power output part is the first worm screw with helicla flute, and the clockwork spring has what is be meshed with the first worm screw Card slot, when the first worm screw rotates, can drive clockwork spring to be moved.

The power output part is sprocket wheel, and the clockwork spring has the card slot being meshed with sprocket wheel, can be with when sprocket wheel rotates Driving clockwork spring is moved.

The transmission mechanism is gear drive.

The transmission mechanism includes the first gear being arranged on the motor, the second tooth engaged with first gear Take turns, be the 3rd gear for being coaxially disposed and rotating synchronously, the 4th gear engaged with the 3rd gear and the 4th tooth with second gear Take turns for the 5th gear for being coaxially disposed and rotating synchronously, the 6th gear engaged with the 5th gear and with the 6th gear and described The worm gear mechanism of first worm screw connection.

The first gear, the second gear, the 3rd gear, the 4th gear, the 5th gear and institute It is straight spur gear to state the 6th gear.

The telescopic control device, which is further included, to be oppositely arranged with the power output part and is contacted with the clockwork spring First guide wheel, clockwork spring pass through between power output part and the first guide wheel.

The telescopic control device further includes the ring stand of rotatable setting, after the clockwork spring contraction on ring stand.

The telescopic control device, which further includes, to be arranged between the ring stand and the power output part and for guiding The directing plate of the clockwork spring.

The telescopic control device, which further includes, to be arranged on the outside of the ring stand and for limiting the clockwork spring when shrinking The limiting plate and guide plate of maximum gauge, limiting plate and guide plate are the axle center position of arc-shaped structure and limiting plate and guide plate In on the rotation centerline of ring stand.

The telescopic control device further includes rotatable setting and for guiding the clockwork spring to enter the of the directing plate Two guide wheels, the second guide wheel is between first guide wheel and the ring stand.

The telescopic component is to be socketed the scalable rod-like structure formed, the clockwork spring successively by multiple hollow telescopic joints It is arranged at the inside of telescopic joint.

One end of the telescopic joint is equipped with inwardly projecting and is used to play built in position-limiting action the telescopic joint inside insertion Step, the other end of telescopic joint are equipped with built-in step set on the outwardly and telescopic joint for being arranged to outside and are engaged External step.

The telescopic joint sets four altogether.

The clamping part includes：

Clamp bracket, it is rotatable that it, which is disposed relative to the handle portion,；

Turnover panel, it is to be rotatably arranged in clamp bracket, and movable between folding position and expanded position；With And

Turn down upper frame, its to be rotatably arranged in clamp bracket, and it is movable in folding position and expanded position it Between；

Wherein, the turnover panel being in the deployed and the fold upper frame being in the deployed are engaged, and are set for clamping shooting It is standby.

The rotation centerline of the turnover panel is parallel with the rotation centerline of the fold upper frame.

The turnover panel and the fold upper frame are arranged to rotate to the both sides of the clamp bracket, turnover panel and fold upper frame With two expanded positions and two expanded positions are respectively positioned at the side of clamp bracket.

The maximum rotation angle of the turnover panel and the fold upper frame be 180 degree, turnover panel and turns down upper frame towards the folder A folded-out position can be respectively at after holding 90 degree of the same side rotation of stent.

The turnover panel has the first groove and second groove for accommodating capture apparatus, and first groove and second groove are arranged at On turnover panel on two opposite sides.

When the clamp bracket and the turnover panel are in folding position, the first groove or second groove covering In flexible button and/or button of taking pictures set in the handle portion.

The protective layer for being used for contacting with capture apparatus is equipped with the first groove and/or the second groove.

The fold upper frame has the 3rd groove and the 4th groove for accommodating capture apparatus, and the 3rd groove and the 4th groove are set It is placed on fold upper frame on two opposite sides.

The protective layer for being used for contacting with capture apparatus is equipped with 3rd groove and/or the 4th groove.

The clamp bracket has the first storage tank for accommodating the turnover panel in folding position, and the first storage tank is to pass through Wear the straight slot put.

The clamp bracket has the second storage tank for accommodating the fold upper frame in folding position, the second storage tank For through the straight slot of setting.

The clamp bracket includes two branch gripping arms being oppositely arranged, is connected with two branch gripping arms and for the turnover panel The limited block for playing position-limiting action, the mounting blocks that are connected with two branch gripping arms and it is arranged on mounting blocks and is used to adjust the fold The adjusting mechanism of distance between upper frame and turnover panel, adjusting mechanism and fold upper frame rotation connection.

The adjusting mechanism include supporter with the fold upper frame rotation connection and outside the mounting blocks, with The guiding axis and be sheathed on guiding axis and move the direction of supporter towards close mounting blocks for producing that supporter connects Active force second spring, mounting blocks have the pilot hole for accommodating second spring and guiding axis.

The guiding axis sets parallel multiple.

The fold upper frame includes being located at two clamping limbs of the supporter side respectively and is connected with two clamping limbs Connecting rod.

The clamping limb matches with the end shape with the handle portion and is the bending section of arc.

The clamping part further includes the branch sleeve for being connected with the telescopic component and being rotatablely connected with the clamp bracket, The turnover panel is between the fold upper frame and branch sleeve.

The self-shooting bar of the utility model, the flexible of telescopic component is controlled by setting clockwork spring, superior curved using clockwork spring Qu Xingneng, can significantly reduce the volume of handle portion, and self-shooting bar overall volume is small, easy to the use of user, particularly convenient for for women The holding at family.

Brief description of the drawings

This specification includes the following drawings, and shown content is respectively：

Fig. 1 is that the self-shooting bar of the utility model is in the structure diagram under contraction state；

Fig. 2 is that the self-shooting bar of the utility model is in the structure diagram under extended configuration；

Fig. 3 is the self-shooting bar interior layout structure diagram of the first embodiment；

Fig. 4 is the assembling schematic diagram of the telescopic control device and telescopic component and clamping part of the first embodiment；

Fig. 5 is that the telescopic control device of the first embodiment is illustrated with the assembling of telescopic component and another angle of clamping part Figure；

Fig. 6 is the transmission mechanism of the first embodiment and the assembling schematic diagram for actively pressing roller and motor；

Fig. 7 is layout structure schematic diagram of the telescopic control device of the first embodiment inside handle portion；

Fig. 8 is the clockwork spring of the first embodiment and actively presses the structural representation that roller and driven pressing roller match Figure；

Fig. 9 is the structure diagram of the supporting rack of the first embodiment；

Figure 10 is the structure diagram of elastic supporting mechanism；

Figure 11 is the structure diagram that the clockwork spring of the first embodiment and telescopic component match；

Figure 12 is the structure diagram of telescopic joint；

Figure 13 is that the telescopic component of the first embodiment is in the structure diagram under extended configuration；

Figure 14 is the self-shooting bar interior layout structure diagram of second of embodiment；

Figure 15 is the transmission mechanism and the assembling schematic diagram of the first worm screw and motor of second of embodiment；

Figure 16 is layout structure schematic diagram of the telescopic control device of second of embodiment inside handle portion；

Figure 17 is the structure diagram of the supporting rack of second of embodiment；

Figure 18 is the structure diagram that the clockwork spring of second of embodiment matches with guide wheel and the first worm screw；

Figure 19 is the structure diagram of the clockwork spring of second of embodiment；

Figure 20 is the structure diagram of clamping part；

Figure 21 is the structure diagram that clamp bracket matches with branch sleeve；

Figure 22 is the structure diagram that clamp bracket matches with turnover panel, fold upper frame；

It is denoted as in figure：

10th, handle portion；110th, stretch button；120th, take pictures button；130th, battery；140th, handle body；150th, guide plate；

20th, clamping part；

210th, branch sleeve；

220th, clamp bracket；220a, pilot hole；220b, branch gripping arm；220c, limited block；220d, mounting blocks；220e, One storage tank；220f, the second storage tank；

230th, turnover panel；230a, first groove；230b, second groove；

240th, upper frame is turned down；240a, the 3rd groove；240b, clamping limb；240c, connecting rod；

250th, guiding axis；260th, spring；270th, supporter；

30th, telescopic component；310th, head end telescopic joint；320th, intermediate warp section a；330th, intermediate warp section b；340th, afterbody is stretched Casing coupling；350th, built-in step；360th, external step；

40th, supporting rack；410th, the first guide wheel；420th, the second guide wheel；430th, guide channel；440th, directing plate；450、 Limiting plate；460th, positioning shaft hole；470th, movable axis hole；

50th, power supply mechanism；510th, motor；520th, first gear；530th, second gear；540th, the 3rd gear； 550th, the 4th gear；560th, the 5th gear；570th, the 6th gear；580th, power output part；590th, worm gear；5100th, worm screw； 5110th, driven pressing roller；

60th, elastic supporting mechanism；610th, the first pressure pin；620th, the second pressure pin；630th, connecting shaft；640th, flexible member；

70th, ring stand；710th, clockwork spring；720th, bearing；730th, card slot.

Embodiment

Below against attached drawing, by the description of the embodiment, making to specific embodiment of the present utility model further detailed Thin explanation, it is therefore an objective to help design of the those skilled in the art to the utility model, technical solution have it is more complete, accurate and Deep understanding, and contribute to its implementation.

As shown in Fig. 1 to Figure 20, the utility model provides a kind of self-shooting bar, including handle portion 10, clamping part 20, flexible Component 30 and telescopic control device.Handle portion 10 is to be used to grip during user's use；Clamping part 20 is to be used to clamp mobile phone, camera Deng capture apparatus, and it is arranged to switch between folded state and unfolded state；Telescopic component 30 is and handle portion 10 and clamping part 20 connect, between telescopic component 30 is used to support between clamping part 20 and 20 handle portion 10 of adjustable holding portion Away from telescopic component 30 simultaneously is arranged to switch between elongation state and contraction state；Telescopic control device is to set In handle portion 10 and the inside of telescopic component 30, telescopic control device includes being arranged at the inside of handle portion 10 and telescopic component 30 And for controlling the clockwork spring 710 that telescopic component 30 is extended and shunk.

Specifically, as shown in Fig. 7 and Figure 19, clockwork spring 710 has superior bending property, sends out to roll tightly sheet steel bar The thinner thickness of bar 710, clockwork spring 710 can be extended and shunk, can be with when clockwork spring 710 is extended inside telescopic component 30 Telescopic component 30 is promoted to be extended；Clockwork spring 710 can pull telescopic component 30 to be received when the inside of handle portion 10 is flexible Contracting, the clockwork spring 710 after 10 internal contraction of handle portion is in reeling condition.

As shown in Figure 1 to Figure 3, handle portion 10 mainly includes handle body 140, is arranged at stretching on handle body 140 Button 110 and the components such as button 120 and the circuit board that is arranged at handle body 140 inside of taking pictures, flexible button 110 is for controlling Telescopic component 30 processed stretches, and button 120 of taking pictures is used to control capture apparatus to take pictures.Handle body 140 is in inside Empty string configuration, the telescopic component 30 in folded state is the inside for being accommodated in handle body 140, in unfolded state Telescopic component 30 be the outside that handle body 140 is extend out to along the length direction of handle body 140.Flexible button 110 and bat According to button 120 on handle body 140 for be arranged side by side and stretch button 110 and button 120 of taking pictures in and handle body 140 The perpendicular same straight line of length direction on, a part for flexible button 110 and button 120 of taking pictures is located at handle body 140 Inside, another part of flexible button 110 and button 120 of taking pictures extend out to the outside of handle body 140, pressed easy to user The action principle of pressure, flexible button 110 and button 120 of taking pictures is as well known in the skilled person.When user pushes away , it can be achieved that the stretching, extension of telescopic component 30 when the length direction of dynamic flexible button 110 along handle body 140 travels forward；Work as user , it can be achieved that the retraction of telescopic component 30 when promoting the length direction of flexible button 110 along handle body 140 to move backward.This reality The double-button structure used with new self-shooting bar, releases the space of a button so that overall structure is more beautiful.

Telescopic component 30 is to be socketed the scalable rod-like structure formed successively by multiple hollow telescopic joints, two of socket Telescopic joint can relatively move along its length.In multiple hollow telescopic joints, be inserted in handle body 140 with handle portion 10 The hollow telescopic joint of connection is afterbody telescopic joint, and the hollow telescopic joint being connected with clamping part 20 is head end telescopic joint, is arranged at tail Hollow telescopic joint between portion's telescopic joint and head end telescopic joint is intermediate warp section, and afterbody telescopic joint and head end telescopic joint are set respectively One is put, intermediate warp section at least sets one.

As shown in Fig. 4, Figure 11 and Figure 13, in the present embodiment, telescopic joint sets four altogether, and intermediate warp section sets two A, telescopic component 30 includes the afterbody telescopic joint 340 being connected with handle portion 10, the head end telescopic joint 310 being connected with clamping part 20 And it is arranged at intermediate warp section a320, intermediate warp section b330 between afterbody telescopic joint 340 and head end telescopic joint 310, tail For portion's telescopic joint 340 with handle portion 10 to be fixedly connected, intermediate warp section a320 is socketed on the outside of head end telescopic joint 310, middle Telescopic joint b330 is socketed on the outside of intermediate warp section a320, and afterbody telescopic joint 340 is socketed on the outside of intermediate warp section b330.

As shown in figure 12, telescopic joint is both ends open, the cylindrical member of inner hollow, and one end of telescopic joint is equipped with inwardly Portion is protruded and for the built-in step to another telescopic joint position-limiting action inside insertion, the other end of telescopic joint is equipped with outside Protrusion and the set matched external step of built-in step on another telescopic joint to outside socket.In telescopic component 30 During being extended, built-in step is engaged with external step, and position-limiting action is played to two telescopic joints to socket-connect, when After external step set by the end of internally positioned telescopic joint is contacted with the built-in step set by the end of exterior telescopic joint, Two telescopic joints to socket-connect stop relative movement.

As shown in Figure 12 and Figure 13, the head end (one away from handle portion 10 of intermediate warp section a320, intermediate warp section b330 End) built-in step 350 to contract is provided with, intermediate warp section a320, the afterbody of intermediate warp section b330 are (close to handle portion 10 one end) it is provided with outwardly external step 360, the head end (one end away from handle portion 10) of afterbody telescopic joint 340 The built-in step 350 to contract should be provided with, the afterbody of head end telescopic joint 310 should be provided with (close to one end of handle portion 10) Outwardly external step 360, i.e., the afterbody outside diameter of previous section telescopic joint are (previous more than the head end internal diameter of later section telescopic joint Save telescopic joint " described with " later section telescopic joint " for relative position, i.e., " previous section telescopic joint " is two neighboring telescopic joint middle-range The telescopic joint nearer from clamping part 20, " later section telescopic joint " are apart from farther out flexible of clamping part 20 in two neighboring telescopic joint Section), thus form position limiting structure；The afterbody of afterbody telescopic joint 340 can also be provided with outwardly external step 360, profit With the inner cavity for being arranged at the external step 360 of 340 afterbody of afterbody telescopic joint by afterbody telescopic joint 340 and being arranged in handle body 140 In, the end (i.e. the head end of handle portion 10) of handle body 140, which is equipped with, allows the avoid holes that afterbody telescopic joint 340 passes through, the avoidance The diameter in hole is less than the overall diameter of the external step 360 on afterbody telescopic joint 340 so that external on afterbody telescopic joint 340 Rank 360 in the inner cavity in handle body 140, avoids telescopic component 30 from departing from after extending with handle portion 10 all the time.

As shown in Figure 20 to Figure 22, clamping part 20 mainly includes branch sleeve 210, clamp bracket 220, turnover panel 230 and turns over Roll over upper frame 240.Branch sleeve 210, which is fixedly connected with the head end telescopic joint 310 of telescopic component 30 and is rotated with clamp bracket 220, to be connected Connect, turnover panel 230 is between fold upper frame 240 and branch sleeve 210.Clamp bracket 220 is disposed relative to handle portion 10 It is rotatable.Turnover panel 230 is to be rotatably arranged in clamp bracket 220, and movable between folding position and expanded position. Fold upper frame 240 is to be rotatably arranged in clamp bracket 220, and movable between folding position and expanded position. After clamping part 20 is in unfolded state, turnover panel 230 and fold upper frame 240 are in expanded position, the turnover panel being in the deployed 230 are engaged with the fold upper frame 240 being in the deployed, for clamping capture apparatus.

As shown in figure 20, one end of clamp bracket 220 is rotatablely connected with branch sleeve 210, fold upper frame 240 and clamping branch The other end rotation connection of frame 220, the rotation centerline of turnover panel 230, the rotation centerline and clamp bracket for turning down upper frame 240 220 rotation centerline is parallel, and perpendicular with the length direction of handle portion 10 and telescopic component 30.Clamp bracket 220 It is parallel with the central axis of telescopic component 30 to overturn track, be additionally provided with branch sleeve 210 for by clamp bracket 220 and The locking knob that 210 phase of branch sleeve is fixed, by turn locking knob, can make clamp bracket 220 loosen or be locked.Rotation After loose locking knob, clamp bracket 220 can be rotated relative to branch sleeve 210.

As shown in Figure 20 to Figure 22, clamp bracket 220 includes two branch gripping arm 220b being oppositely arranged and two branch gripping arms 220b connections and limited block 220c, the mounting blocks being connected with two branch gripping arm 220b for playing position-limiting action to turnover panel 230 220d and it is arranged on mounting blocks 220d and for adjusting the adjusting mechanism of distance between fold upper frame 240 and turnover panel 230, adjusts Mechanism is rotation connection with fold upper frame 240.Branch gripping arm 220b is elongated member, the length direction and turnover panel of branch gripping arm 220b 230 rotation centerline is perpendicular, and two branch gripping arm 220b are parallel and are spaced a distance between the two, turnover panel 230 It is rotatablely connected between two branch gripping arm 220b and with two branch gripping arm 220b, branch sleeve 210 also is located at two branch gripping arms It is rotatablely connected between 220b and with the end of two branch gripping arm 220b, mounting blocks 220d and the other end of two branch gripping arm 220b are consolidated Fixed connection, mounting blocks 220d are located at two branch gripping arm 220b positions in the middle and form integral knot with two branch gripping arm 220b Structure.Limited block 220c is between two branch gripping arm 220b, and turnover panel 230 is between limited block 220c and mounting blocks 220d, limit Position block 220c plays position-limiting action, for limiting the rotational angle of turnover panel 230 by being in contact with turnover panel 230 to turnover panel 230. When turnover panel 230 is rotated towards any side of clamp bracket 220, connect when turnover panel 230 is turned to the limited block 220c of lower section After touch, turnover panel 230 cannot be rotated further, and turnover panel 230 turns to expanded position at this time.

As preference, turnover panel 230 and fold upper frame 240 are arranged to rotate to the both sides of clamp bracket 220, turnover panel 230 are located at the side of clamp bracket 220 with fold upper frame 240 respectively with two expanded positions and two expanded positions.Turnover panel 230 and maximum rotation angle of the fold upper frame 240 when being rotated relative to clamp bracket 220 be 180 degree, turnover panel 230 and turn down top Frame 240 can be respectively at a folded-out position after rotating 90 degree towards the same side of clamp bracket 220.Turnover panel 230, fold upper frame 240 extreme direction maximum angle can turn over and turn 90 degrees backward, and turnover panel 230, fold upper frame 240 extreme direction maximum angle can also be overturn forward 90 degree, the preceding extreme direction for holding the head end of telescopic joint to be directed toward headed by preceding extreme direction herein, rear extreme direction is towards the side of handle portion 10 To.Turnover panel 230 and fold upper frame 240 are so set, the posture that capture apparatus is in face user can be caused to be clamped, make bat Take the photograph equipment to be in above clamp bracket 220 to the side of user to carry out self-timer, or capture apparatus is in back to user Posture be clamped, capture apparatus is in the opposite side of clamp bracket 220, user can be facilitated to be shot in special occasions.

As shown in Figure 20 to Figure 22, clamp bracket 220 is accommodating equipped with accommodate the turnover panel 230 in folding position first Groove 220e, the first storage tank 220e be along 220 thickness direction of clamp bracket through the straight slot set, the first storage tank 220e be by Two branch gripping arm 220b, limited block 220c and mounting blocks 220d surround the rectangular channel to be formed, the overall generally rectangular shaped knot of turnover panel 230 Structure.The the second storage tank 220f for accommodating the fold upper frame 240 in folding position is additionally provided with clamp bracket 220, second is accommodating Groove 220f is to set two and two second through the straight slot set, the second storage tank 220f along 220 thickness direction of clamp bracket Storage tank 220f is located at the side of mounting blocks 220d respectively.The group as shown in Figure 1, self-shooting bar under contraction state, stretches Into handle portion 10, clamping part 20 is in folded state and rotates to the closest position of handle portion 10 storage completely of part 30 Place, turnover panel 230 are rotated into the first storage tank 220e, and fold upper frame 240 is rotated into the second storage tank 220f, turns down upper frame 240th, mounting blocks 220d, turnover panel 230 and limited block 220c are in the same plane parallel with the length direction of handle portion 10.Together When, the turnover panel 230 in folding position can cover flexible button 110 set in handle portion 10 and button 120 of taking pictures, and plays guarantor Shield acts on, and avoids button from being touched by mistake.

Adjusting mechanism makes the distance between the turnover panel 230 being in the deployed and the fold upper frame 240 being in the deployed It is adjustable, by appropriate adjustment turnover panel 230 and fold the distance between upper frame 240, so as to adapt to various sizes of camera, The clamping of the capture apparatus such as mobile phone, while adjusting mechanism provides the clamping force for clamping capture apparatus.As shown in Figure 20 to Figure 22, adjust Section mechanism includes being rotatablely connected with fold upper frame 240 and the supporter 270 outside mounting blocks 220d and supporter 270 are solid Surely the guiding axis 250 that connects and it is sheathed on guiding axis 250 and makes supporter 270 towards close to mounting blocks 220d's for producing The spring 260 of the active force of direction movement, mounting blocks 220d's is internally provided with the pilot hole for accommodating spring 260 and guiding axis 250 The axis of 220a, pilot hole 220a and the rotation centerline for turning down upper frame 240 are perpendicular.Spring 260 is to be sheathed on guiding axis 250 On cylindrically coiled spring, one end of spring 260 contradicts the limit set inside pilot hole 220a at the position of supporter 270 Position step, the other end of spring 260 contradict the limited step set by one end of the remote supporter 270 of guiding axis 250, spring 260 pairs of guiding axis 250 apply the thrust for making it towards the movement of 230 direction of turnover panel, and then also make supporter 270 and fold upper frame 240 move towards 230 direction of turnover panel, it is ensured that can clamp capture apparatus all the time.

As preference, guiding axis 250 is engaged with pilot hole 220a, for playing the guiding role, guiding axis 250 sets phase Parallel is multiple, and supporter 270 is located on the outside of the end of mounting blocks 220d and is fixedly connected with multiple guiding axis 250, corresponding peace Multiple pilot hole 220a are also provided with dress block 220d, each pilot hole 220a is respectively implanted a guiding axis 250 and a spring 260.Multiple guiding axis 250 and spring 260 are set, improve stability and reliability, it is ensured that be capable of providing enough clamping forces. In the present embodiment, as shown in Figure 20 to Figure 22, guiding axis 250 sets parallel two, is covered respectively on each guiding axis 250 If a spring 260, it is to be symmetrical arranged that pilot hole 220a, which is also provided with two and two pilot hole 220a inside mounting blocks 220d,.

As shown in Figure 20 to Figure 22, fold upper frame 240 includes two clamping limb 240b for being located at 270 side of supporter respectively And the connecting rod 240c being fixedly connected between two clamping limb 240b and with two clamping limb 240b, the length of connecting rod 240c It is parallel with the length direction of limited block 220c to spend direction, supporter 270 and two clamping limb 240b are rotatablely connected, two clampings Arm 240b is to be used to be engaged clamping capture apparatus with turnover panel 230.Mounting blocks 220d between turnover panel 230 and supporter 270, Supporter 270 plays position-limiting action by being in contact with connecting rod 240c, to fold upper frame 240, and upper frame 240 is turned down for limiting Rotational angle.After fold upper frame 240 rotates and connecting rod 240c is rotated to any side of supporter 270, supporter 270 side is contacted with the surface of connecting rod 240c, and fold upper frame 240 cannot be rotated further, and is turned down upper frame 240 at this time and is turned to Expanded position.Supporter 270 is similar with the effect of limited block 220c so that turns down upper frame 240 and turnover panel 230 towards clamp bracket 220 any side stops operating after turning to parallel state, it is ensured that can clamp capture apparatus.

As shown in figure 22, two the second storage tank 220f set in clamp bracket 220 are to be used to accommodate fold upper frame 240 Two clamping limb 240b.As shown in Figure 1, self-shooting bar under contraction state, turns down two clamping limbs of upper frame 240 240b is rotated into the second storage tank 220f, and two clamping limb 240b are on same straight line with a branch gripping arm 220b respectively, The length direction of clamping limb 240b is parallel with the length direction of handle portion 10 at this time.

Since turnover panel 230 and fold upper frame 240 can be rotated towards the both sides of clamp bracket 220, in order to ensure reliable folder Capture apparatus is held, as shown in Figure 20 and Figure 22, turnover panel 230 has the first groove 230a for allowing capture apparatus to be embedded in and second groove 230b, first groove 230a and second groove 230b are arranged on turnover panel 230 on two opposite sides, and first groove 230a It is to the groove of 230 internal recess of turnover panel formation on the side of turnover panel 230, so as to capture apparatus with second groove 230b Play position-limiting action.Fold upper frame 240 has the 3rd groove 240a and the 4th groove for allowing capture apparatus to be embedded in, the 3rd groove 240a It is arranged at the 4th groove (not shown) on fold upper frame 240 on two opposite sides, and the 3rd groove 240a and the Four grooves are the groove formed on the side of fold upper frame 240 to fold 240 internal recess of upper frame, so as to capture apparatus Play position-limiting action.Since clamping limb 240b is the part that clamping capture apparatus is engaged with turnover panel 230 on fold upper frame 240, Therefore the 3rd groove 240a and the 4th groove are arranged on two opposite sides on clamping limb 240b.

As shown in Figure 20 and Figure 22, clamping part 20 is in unfolded state, and turnover panel 230 and fold upper frame 240 are rotated to being in The folded-out position of 220 the same side of clamp bracket, at this time first groove 230a be in the fold upper frame 240 of face on turnover panel 230 On side, second groove 230b is on the side of opposite side opposite with the side on turnover panel 230, i.e. face branch sleeve On 210 side, two sides are parallel with the rotation centerline of turnover panel 230；3rd groove 240a is in fold upper frame 240 On the side of upper face turnover panel 230, the 4th groove is on the side of opposite side opposite with the side on fold upper frame 240, The side of the opposite side is the face turnover panel 230 when turning down upper frame 240 and rotating to the folded-out position of 220 opposite side of clamp bracket Side, two sides with turn down upper frame 240 rotation centerline it is parallel.

As preference, after self-shooting bar is in contraction state, clamp bracket 220 and turnover panel 230 are in folding position, turnover panel First groove 230a or second groove 230b on 230 can be covered in flexible button 110 set in handle portion 10 and take pictures and press Button 120, i.e., flexible button 110 and button 120 of taking pictures stretch into first groove 230a or second groove 230b set on turnover panel 230 In, it so both can by mistake be touched to avoid flexible button 110 and button 120 of taking pictures, the flexible button of the touching of turnover panel 230 can also be avoided 110 and take pictures button 120.

It is used for what is contacted with capture apparatus as preference, being filled with first groove 230a and/or second groove 230b The protective layer for being contacted with capture apparatus is also filled with protective layer, the 3rd groove 240a and/or the 4th groove, protective layer is adopted It is made of rubber material, when clamping is contacted by protective layer with capture apparatus, avoids causing the clamping force that capture apparatus applies The abrasion on capture apparatus surface.

As shown in Fig. 1 and Figure 20, two ends of the length direction of handle portion 10 are arc-shaped structure, branch gripping arm 220b Match with the end shape with handle portion 10 and for the bending section of arc, branch sleeve 210 and two branch gripping arm 220b's Bending section is rotatablely connected.When self-shooting bar is in contraction state, the curved end of the bending section covering handle portion 10 of branch gripping arm 220b, The volume of self-shooting bar in a contracted state can so be reduced.

The self-shooting bar of the utility model using can the clockwork spring 710 of multi-lay winding carry out extension and contraction control, under normal conditions, by In the bendability of itself of clockwork spring 710 of the prior art, cause clockwork spring 710 can not be used as support member, but In the utility model, formed since telescopic component 30 is socketed successively by multiple hollow telescopic joints, clockwork spring 710 is in the flexible group of jacking When the head end telescopic joint of part 30 is protruding, because the stop of telescopic joint inner wall limits, cause clockwork spring 710 during outside jacking Local bending can occur, and then telescopic component 30 can be promoted outwards to be extended, and utilize 710 superior bending of clockwork spring Performance, can significantly reduce the volume of handle portion 10.

As shown in Fig. 4, Fig. 5 and Figure 14, telescopic control device further include the supporting rack 40 that is arranged inside handle portion 10 with And it is arranged at supporting rack 40 and the power supply mechanism 50 for controlling clockwork spring 710 to be extended and shunk；Clockwork spring 710 is stretched When long, clockwork spring 710 promotes telescopic component 30 to be extended；When clockwork spring 710 is shunk, clockwork spring 710 pull telescopic component 30 into Row is shunk.Power supply mechanism 50 includes motor 510, exports power to drive clockwork spring 710 to carry out flexible power output portion Part 580 and it is transferred to power with the rotary force that motor 510 and power output part 580 are connected and produce motor 510 The transmission mechanism of output block 580, supporting rack 40 are to be fixedly installed on the inside of handle body 140, power supply mechanism 50 The inside of handle body 140 is arranged at, motor 510 is is fixedly installed on supporting rack 40, transmission mechanism and power output portion Part 580 is arranged on supporting rack 40, the length direction of the rotation centerline of power output part 580 and handle body 140 (namely The length direction of handle portion 10) it is perpendicular.The battery 130 being internally provided with for powering for motor 510 of handle body 140, Battery 130 is to be electrically connected with motor 510.Battery 130 is flat structure, and size is smaller.

(first embodiment)

As shown in Figures 3 to 8, power output part 580 actively presses roller for what is contacted with clockwork spring 710, actively presses Roller is cylinder, and power output part 580 is rotatably mounted on supporting rack 40, the axis of power output part 580 ( That is the rotation centerline of power output part 580), the width and power of clockwork spring 710 parallel with the axis of motor 510 The axis of output block 580 is parallel, the periphery of power output part 580 with it is perpendicular with thickness direction on clockwork spring 710 A side surface be in contact.On the length direction of handle portion 10, power output part 580 is located at motor 510 and flexible group Between part 30, the position of motor 510 is located at the tail end (namely tail end of handle portion 10) of handle body 140.

As preference, power output part 580 is using cylinder made of rubber material, power output part 580 Periphery contacted with the surface of clockwork spring 710.Power output part 580 is rubber wheel, rubber material actively press roller with The surface of clockwork spring 710 is in contact, and can increase the frictional force during transmission clockwork spring 710, avoids producing skidding.

As variant embodiment, power output part 580 includes pressing roller body and is arranged at pressing roller body Rubber layer that is upper and being contacted with the surface of clockwork spring 710, rubber layer are made of rubber material.Pressing roller body is cylinder, Rubber layer is arranged on the whole periphery of pressing roller body.Actively press rubber layer and clockwork spring 710 of the roller by top layer Surface be in contact, can increase transmission clockwork spring 710 during frictional force, avoid produce skidding.

In present embodiment, transmission mechanism is gear drive, transmission mechanism and power output part 580 and motor 510 are connected, and play the role of deceleration, lifting torsion during transmission.As shown in fig. 6, transmission mechanism includes being arranged at First gear 520 on motor 510, the second gear 530 engaged with first gear 520, set with second gear 530 to be coaxial The 3rd gear 540 putting and rotate synchronously, the 4th gear 550 engaged with the 3rd gear 540, with the 4th gear 550 be coaxial Set and the 5th gear 560 rotated synchronously and the 6th gear 570 that engage with the 5th gear 560, power output part 580 and 6th gear 570 is to be coaxially disposed and rotate synchronously.First gear 520 is fixedly mounted on the motor shaft of motor 510, and second 530 and the 3rd gear 540 of gear is arranged on supporting rack 40 by same gear shaft, and the 4th gear 550 and the 5th gear 560 are logical Cross same gear shaft to be arranged on supporting rack 40, the 6th gear 570 and power output part 580 are arranged at by same gear shaft On supporting rack 40.

As preference, as shown in fig. 6, first gear 520, second gear 530, the 3rd gear 540, the 4th gear 550, 5th gear 560 and the 6th gear 570 are straight spur gear.The diameter of first gear 520 is less than the straight of second gear 530 Footpath, the diameter of the 3rd gear 540 are less than the diameter of the 4th gear 550, and the diameter of the 5th gear 560 is less than the 6th gear 570 Diameter.First gear 520, second gear 530, the 5th gear 560 and the 6th gear 570 are in the length direction with handle portion 10 On parallel same straight line, the 3rd gear 540 and the 4th gear 550 are in parallel with the length direction of handle portion 10 another On one straight line.

As shown in Fig. 5, Fig. 7 and Fig. 8, telescopic control device further include with power output part 580 for be oppositely arranged and with Driven pressing roller 5110 that clockwork spring 710 contacts, for provide support force to driven pressing roller 5110 so that clockwork spring 710 with it is dynamic Power output block 580 and driven pressing roller 5110 keep the elastic supporting mechanism 60 of fitting, and elastic supporting mechanism 60 makes driven It is in floating state in the inside of handle portion 10 to press roller 5110, clockwork spring 710 is from power output part 580 and driven pressing roller Passed through between 5110, the periphery and the opposite side table perpendicular with thickness direction on clockwork spring 710 of driven pressing roller 5110 Face is in contact.Driven pressing roller 5110 is rotatable setting, and the rotation centerline and power of driven pressing roller 5110 are defeated It is parallel to go out the rotation centerline of component 580, driven pressing roller 5110 and power output part 580 are engaged clamping clockwork spring 710, both side surface on 710 thickness direction of clockwork spring driven the pressing roller 5110 and power output part 580 with both sides respectively Fit closely.When motor 510 operates the power for providing stretching, extension, by the transmission of transmission mechanism, power output part 580 obtains Power is obtained, due to producing larger frictional force between power output part 580, clockwork spring 710, driven pressing roller 5110, power is defeated Going out component 580 can drive driven pressing roller 5110 to rotate round about, and at the same time, clockwork spring 710 obtains the flexible group of jacking The kinetic energy of the head end telescopic joint of part 30, realizes the stretching, extension of telescopic component 30；Similarly, provide what is shunk when motor 510 operates During power, by the transmission of transmission mechanism, power output part 580 obtains power, and traction clockwork spring 710 bounces back and promotes ring stand 70 Around own axis, realize that clockwork spring 710 is smooth and be wound in ring stand 70.

As preference, driven pressing roller 5110 is using cylinder made of rubber material, driven pressing roller 5110 periphery is contacted with the surface of clockwork spring 710.Driven pressing roller 5110 is rubber wheel, the driven roller stitcher of rubber material Wheel 5110 is in contact with the surface of clockwork spring 710, can increase the frictional force during transmission clockwork spring 710, avoids producing skidding.

As variant embodiment, driven pressing roller 5110 includes pressing roller body and is arranged at pressing roller body Rubber layer that is upper and being contacted with the surface of clockwork spring 710, rubber layer are made of rubber material.Pressing roller body is cylinder, Rubber layer is arranged on the whole periphery of pressing roller body.Driven pressing rubber layer and clockwork spring of the roller 5110 by top layer 710 surface is in contact, and can increase the frictional force during transmission clockwork spring 710, avoids producing skidding.

As shown in Fig. 5, Fig. 8 and Figure 10, elastic supporting mechanism 60 includes the bracket of rotatable setting and for being applied to bracket Adding makes the flexible member 640 of its rotating active force, it is driven pressing roller 5110 for be rotatably arranged on bracket and both Rotation centerline it is parallel, the rotation centerline of bracket is positioned at driven pressing roller 5110 and flexible member 640 and bracket Between tie point.

As shown in Fig. 5, Fig. 8 and Figure 10, bracket include the first pressure pin 610 for being oppositely arranged and the second pressure pin 620 and with First pressure pin 610 and the connecting shaft 630 of the second pressure pin 620 connection, supporting rack 40, which has, allows the axis hole that connecting shaft 630 passes through, the One pressure pin 610 and the second pressure pin 620 are located at the side of the axis hole respectively.First pressure pin 610 and the second pressure pin 620 are respectively driven Driven pressing roller 5110 is held in one end of pressing roller 5110, and one end on the length direction of the first pressure pin 610, which is equipped with, to be accommodated The axis hole of driven pressing roller 5110, one end on the length direction of the second pressure pin 620 also is provided with accommodating driven pressing roller 5110 axis hole, the middle position of one end of connecting shaft 630 on the length direction of the first pressure pin 610 and the first pressure pin 610 It is fixedly connected, the other end of connecting shaft 630 is fixedly connected with the other end on the length direction of the second pressure pin 620, connecting shaft 630 Axis it is parallel with the rotation centerline of driven pressing roller 5110, the other end on the length direction of the first pressure pin 610 with Flexible member 640 connects.This bracket forms the structure similar to lever, in the effect for the elastic force that flexible member 640 applies Under, bracket can be rotated around the axis of connecting shaft 630 so that driven pressing roller 5110 is in floating state, promotes from dynamic pressure Close roller 5110 to move towards 580 direction of power output part, it is ensured that driven pressing roller 5110 is at and 710 phase of clockwork spring The state of fitting, and be engaged with power output part 580 and clamp clockwork spring 710.

As preference, flexible member 640 is cylindrically coiled spring and is compression spring, one end of flexible member 640 contradict from Gear is closed in dynamic pressure, and the other end contradicts supporting rack 40.As shown in Fig. 5 and Figure 10, one end of flexible member 640 contradicts the first pressure pin End on 610 length direction, the other end of flexible member 640 contradict supporting rack 40, flexible member 640 to the first pressure pin 610 elastic acting forces applied make bracket promote driven pressing roller 5110 to be moved upwardly toward 580 direction of power output part.

As shown in Fig. 3, Fig. 4, Fig. 7 and Fig. 8, telescopic control device further includes the ring stand 70 of rotatable setting, and clockwork spring 710 is received After contracting on ring stand 70.Ring stand 70 is cylinder, and ring stand 70 and motor 510 are installed on the afterbody of supporting rack 40, and The motor shaft of motor 510 is set with ring stand 70 in coaxial line.Clockwork spring 710,580 He of power output part are wound with ring stand 70 Driven pressing roller 5110 is engaged traction clockwork spring 710 and bounces back and promote ring stand 70 to realize that clockwork spring 710 is flat around own axis Whole is wound on ring stand 70.Behind region of the end of clockwork spring 710 from after the extraction of ring stand 70 through a pair of of pressing roller, with The head end portion of the head end telescopic joint of telescopic component 30 is connected with clamping part 20.

As shown in Figure 7 to 9, telescopic control device further include be arranged between ring stand 70 and power output part 580 and For guiding the directing plate 440 of clockwork spring 710.Directing plate 440 is is fixedly installed on supporting rack 40, and directing plate 440 is in supporting rack There is angle to be obliquely installed on 40, between the length direction of directing plate 440 and the length direction of handle portion 10 and the angle is Acute angle, directing plate 440 are located at the same side of clockwork spring 710 with power output part 580.

As shown in Figure 7 to 9, telescopic control device, which further includes, is arranged at the outside of ring stand 70 and exists for limiting clockwork spring 710 The limiting plate 450 and guide plate 150 of maximum gauge during contraction, limiting plate 450 and guide plate 150 are arc-shaped structure and limit The axle center of position plate 450 and guide plate 150 is located on the rotation centerline of ring stand 70.The opening court of the limiting plate 450 of arcuate structure To the tail end of handle portion 10, towards the head end of handle portion 10, ring stand 70 is installed on spacing the opening of the guide plate 150 of arcuate structure Region between plate 450 and guide plate 150.When power output part 580 and driven pressing roller 5110 are engaged traction clockwork spring During 710 contraction, limiting plate 450 can limit maximum gauge of the clockwork spring 710 in winding process with guide plate 150, and utilize clockwork spring 710 thrusts transmitted realize the rotation of ring stand 70, you can realize the orderly winding of clockwork spring 710, avoid scattering for clockwork spring 710.Limit Position plate 450 is fixedly installed on supporting rack 40, and between driven pressing gear and ring stand 70, limiting plate 450 and from dynamic pressure Close the same side that gear is in clockwork spring 710.Guide plate 150 is fixedly installed on supporting rack 40, or is fixedly installed on handle portion It is fixedly connected inside 10 tail end and with handle body.

Further, the both ends in the axial direction of ring stand 70 are additionally provided with the baffle for about 710 position of Hair filler, clockwork spring 710 between two side shields, play position-limiting action to clockwork spring 710 in the axial direction using baffle, can assist the orderly of clockwork spring 710 Winding.

As shown in Figure 7 to 9, the afterbody of supporting rack 40 is provided with mounting post, and the outside of mounting post is socketed with bearing 720, Ring stand 70 is connected with the outer ring of bearing 720.

As shown in Figure 7 to 9, be additionally provided with supporting rack 40 on the central axis extended line of telescopic component 30 and The guide channel 430 to match with clockwork spring 710, guide channel 430 are arranged with telescopic component 30 for coaxial line；Clockwork spring 710 is from ring The region between roller is pressed by a pair after the extraction of frame 70, and the head end of head end telescopic joint is connected to through guide channel 430 Portion is connected to clamping part 20；Using guide channel 430 position-limiting action, it can be achieved that clockwork spring 710 stretch out after with telescopic component 30 coaxial lines are arranged, clockwork spring 710 can also be avoided to be pressed by a pair in roller pushing course sidesway occurs；Preferably, it is oriented to logical Pressure region of the extended line in road 430 between a pair of of pressing roller.

As preference, the surface of clockwork spring 710 can carry out increase frictional force processing, such as carried out by the way of sour corrosion The surface of clockwork spring 710 is handled, and in reciprocal transmission 710 motion process of clockwork spring certain table can occur for a pair of pressing roller Surface wear, and to reduce the production cost of self-shooting bar configuration aspects, a pair of pressing roller is directly coordinated using shaft member with axis hole Mode be attached, accordingly allow the positioning shaft hole that the shaft member actively pressed on roller passes through equipped with one on supporting rack 40 460 and the movable axis hole 470 that passes through of shaft member allowed on driven pressing roller 5110, and positioning shaft hole 460 is round hole, Movable axis hole 470 is kidney slot, eliminates the bearing in the shaft member for actively pressing roller and driven pressing roller 5110, A degree of loss can also occur for shaft member and the high-speed friction of axis hole herein, be provided for this using elastic supporting mechanism 60 Support force may be such that a pair of of pressing roller obtains relatively stable clamping force, ensure that clockwork spring 710 is normally completed stretching, extension or received Contracting act, avoid also frictional force deficiency cause scrapping for self-shooting bar, improve the service life of self-shooting bar.

(second embodiment)

As shown in Figure 14 to Figure 19, the difference of present embodiments and first embodiment essentially consists in extension and contraction control dress The power output part 580 and the difference of the structure type of transmission mechanism put, the telescopic control device of present embodiment do not have The component such as elastic supporting mechanism and driven pressing roller.

As shown in Figure 15 and Figure 18, in the present embodiment mode, power output part 580 is the first snail with helicla flute Bar, clockwork spring 710 have the card slot 730 that is meshed with the first worm screw, card slot 730 be on clockwork spring 710 through-thickness through setting The rectangular channel put, when the first worm screw rotates, can drive clockwork spring 710 to be moved.First worm screw is equipped with helicla flute for outer surface Cylinder, the rotation centerline (i.e. the axis of the first worm screw) of the first worm screw is parallel with the length direction of handle portion 10, On spiral shell rib insertion clockwork spring 710 on one worm screw in set card slot 730, realization is engaged with clockwork spring 710, and card slot 730 is in clockwork spring It is to be equally spaced on clockwork spring 710 to set multiple and multiple card slots 730 along the length direction of clockwork spring 710 on 710.Work as motor When 510 operatings provide the power of stretching, extension, by the transmission of transmission mechanism, the first worm screw rotates and drives matched clockwork spring 710 obtain the power to advance, realize the stretching, extension of telescopic component 30；Similarly, when motor 510 operates the power for providing and shrinking When, by the transmission of transmission mechanism, the first worm screw rotates towards opposite direction, and draws clockwork spring 710 and retract and promote clockwork spring 710 It is wound on ring stand 70, realizes that clockwork spring 710 is smooth and be wound on ring stand 70.By the way of the first worm drive clockwork spring 710, The moment of torsion of transmission is larger, and the first worm screw 580 and the Contact Transmission of card slot 730 can provide stable transferring kinetic energy, with reference to more tight It is close and opposite skidding will not be produced

In present embodiment, transmission mechanism is gear drive, transmission mechanism and power output part 580 and motor 510 are connected, and play the role of deceleration, lifting torsion during transmission.As shown in figure 15, transmission mechanism includes being arranged at First gear 520 on motor 510, the second gear 530 engaged with first gear 520, set with second gear 530 to be coaxial The 3rd gear 540 putting and rotate synchronously, the 4th gear 550 engaged with the 3rd gear 540, with the 4th gear 550 be coaxial Set and the 5th gear 560 rotated synchronously, the 6th gear 570 that is engaged with the 5th gear 560 and with the 6th gear 570 and The worm gear mechanism of first worm screw connection.First gear 520 is fixedly mounted on the motor shaft of motor 510, second gear 530 and the 3rd gear 540 be arranged at by same gear shaft on supporting rack 40, the 4th gear 550 and the 5th gear 560 are by same One gear shaft is arranged on supporting rack 40.Worm gear mechanism includes the second worm screw 5100 and the worm gear 590 being meshed, the second snail 5100 and the 6th gear 570 of bar is arranged on supporting rack 40 by same gear shaft, and power output part 580 and worm gear 590 are It is coaxially disposed and rotates synchronously, power output part 580 is arranged on supporting rack 40 with worm gear 590 by same gear shaft.

As preference, as shown in figure 15, first gear 520, second gear 530, the 3rd gear 540, the 4th gear 550th, the 5th gear 560 and the 6th gear 570 are straight spur gear.The diameter of first gear 520 is less than second gear 530 Diameter, the diameter of the 3rd gear 540 is less than the diameter of the 4th gear 550, and the diameter of the 5th gear 560 is less than the 6th gear 570 diameter.First gear 520, second gear 530, the 5th gear 560 and the 6th gear 570 are in the length with handle portion 10 Spend on the parallel same straight line in direction, the 3rd gear 540 and the 4th gear 550 are in equal with the length direction of handle portion 10 On capable another straight line.

As shown in fig. 16 and 18, telescopic control device further include with power output part 580 for be oppositely arranged and with hair The first guide wheel 410 that bar 710 contacts, clockwork spring 710 are passed through between 580 and first guide wheel 410 of power output part.First Guide wheel 410 is is rotatably arranged on supporting rack 40, and the first guide wheel 410 is cylinder, the rotation of the first guide wheel 410 Center line is parallel with the axis of the motor shaft of motor 510, the periphery of the first guide wheel 410 with clockwork spring 710 with thickness The perpendicular side surface in degree direction is in contact.Clockwork spring 710 between the first guide wheel 410 and the first worm screw through when, the One guide wheel 410 plays guiding function to clockwork spring 710, clockwork spring 710 is in stretching tight state, and clockwork spring 710 can be prevented because certainly Body elastic force and with the first worm screw depart from, so as to improve the stability and reliability of transmission.

As shown in Figure 16 to Figure 18, telescopic control device, which further includes, to be arranged between ring stand 70 and power output part 580 And for guiding the directing plate 440 of clockwork spring 710 and rotatable setting and for guiding clockwork spring 710 to enter the of directing plate 440 Two guide wheels 420, on the length direction of handle portion 10, the second guide wheel 420 positioned at the first guide wheel 410 and ring stand 70 it Between.Directing plate 440 is is fixedly installed on supporting rack 40, and directing plate 440 is to be obliquely installed on supporting rack 40, directing plate 440 Length direction and handle portion 10 length direction between there is angle and the angle to be acute angle.Second guide wheel 420 is to revolve What is turned is arranged on supporting rack 40, periphery and the side perpendicular with thickness direction on clockwork spring 710 of the second guide wheel 420 Surface is in contact, and clockwork spring 710 is passed through between 440 and second guide wheel 420 of directing plate, 440 and first guide wheel 410 of directing plate Positioned at the same side of clockwork spring 710, the second guide wheel 420 and power output part 580 are located at the opposite side of clockwork spring 710.Second draws Guide wheel 420 guides clockwork spring 710 to enter in the region between 440 and second guide wheel 420 of directing plate, and the second guide wheel 420 guides Clockwork spring 710 is arranged along the central axial direction of telescopic component 30.It is additionally provided with supporting rack 40 positioned at the center of telescopic component 30 The guide channel 430 to match on axis extended line and with clockwork spring 710, guide channel 430 and telescopic component 30 are coaxial line Arrangement；Clockwork spring 710 from ring stand 70 extraction after by the second guide wheel 420, directing plate 440, the first guide wheel 410 and with the first snail Bar coordinate, and through guide channel 430 be connected to telescopic component 30 head end telescopic joint head end portion or be connected to clamping part 20；Using guide channel 430 position-limiting action, it can be achieved that clockwork spring 710 stretch out after arrange with 30 coaxial line of telescopic component, can be with Avoid clockwork spring 710 that sidesway is occurred in first worm screw pushing course；Preferably, the extended line of guide channel 430 and the first guiding It is tangent to take turns 410.

As shown in figure 18, the middle on the periphery of the first guide wheel 410 is provided with the annular recess being recessed inwardly, should Annular recess is recessed along whole circumferentially extending groove, the ring-type of the first guide wheel 410 on the periphery of the first guide wheel 410 Slot part is not in contact with the card slot 730 of clockwork spring 710, and at this time, the first worm screw and the position of engagement of clockwork spring 710 can be drawn positioned at first The bottom of guide wheel 410, can reduce the interval between the first guide wheel 410 and guide channel 430.

As shown in FIG. 15 to 18, the first worm screw and the mesh regional of clockwork spring 710 are logical with being oriented to positioned at the first guide wheel 410 Region between road 430, due to the guiding function of the first guide wheel 410 and the limit function of guide channel 430, may be such that position Clockwork spring 710 between the first guide wheel 410 and guide channel 430 is in stretching tight state, and clockwork spring 710 can be prevented because of itself Elastic force and with the first worm screw occur disengaging, so as to improve the stability and reliability of transmission.

As shown in Figure 16 to Figure 18, telescopic control device further includes the ring stand 70 of rotatable setting and is arranged at ring stand 70 Outside and limiting plate 450 and guide plate 150 for limiting maximum gauge of the clockwork spring 710 when shrinking, are rolled up after the contraction of clockwork spring 710 It is wound on ring stand 70.Ring stand 70, the structure of limiting plate 450 and guide plate 150, position and mutual relation and effect with Identical in first embodiment, ring stand 70 is cylinder, and ring stand 70 and motor 510 are installed on the afterbody of supporting rack 40, and And the motor shaft of motor 510 is set with ring stand 70 in coaxial line.Clockwork spring 710, power output part 580 are wound with ring stand 70 Traction clockwork spring 710 is engaged with driven pressing roller to bounce back and promote ring stand 70 to realize that clockwork spring 710 is smooth around own axis Be wound on ring stand 70.The end of clockwork spring 710 is from after the extraction of ring stand 70 through the first worm screw and the first guide wheel 410 Behind region, it is connected with the head end portion of the head end telescopic joint of telescopic component 30 or with clamping part 20.Limiting plate 450 and guide plate 150 be arc-shaped structure and the axle center of limiting plate 450 and guide plate 150 is located on the rotation centerline of ring stand 70, arc knot The opening of the limiting plate 450 of structure is towards the tail end of handle portion 10, and the opening of the guide plate 150 of arcuate structure is towards handle portion 10 Head end, ring stand 70 are installed on the region between limiting plate 450 and guide plate 150.When the first worm drive clockwork spring 710 is shunk, Limiting plate 450 can limit maximum gauge of the clockwork spring 710 in winding process with guide plate 150, and be pushed away using what clockwork spring 710 transmitted Power realizes the rotation of ring stand 70, you can realizes the orderly winding of clockwork spring 710, avoids scattering for clockwork spring 710.Limiting plate 450 is fixed It is arranged on supporting rack 40, and between driven pressing gear and ring stand 70, limiting plate 450 and driven pressing gear are in hair The same side of bar 710.Guide plate 150 is fixedly installed on supporting rack 40, or is fixedly installed on inside the tail end of handle portion 10 And it is fixedly connected with handle body.

Further, the both ends in the axial direction of ring stand 70 are additionally provided with the baffle for about 710 position of Hair filler, clockwork spring 710 between two side shields, play position-limiting action to clockwork spring 710 in the axial direction using baffle, can assist the orderly of clockwork spring 710 Winding.

As shown in Figure 16 to Figure 18, the afterbody of supporting rack 40 is provided with mounting post, and the outside of mounting post is socketed with bearing 720, ring stand 70 is connected with the outer ring of bearing 720.

(the 3rd embodiment)

The difference of present embodiment and second embodiment essentially consist in telescopic control device power output part and The difference of the structure type of transmission mechanism, remainder all same.Present embodiment is to rely on second of embodiment to carry out Improve.

In the present embodiment, power output part is sprocket wheel, and clockwork spring 710 has the card slot 730 being meshed with sprocket wheel, card Groove 730 is that through-thickness through the rectangular channel set, when sprocket wheel rotates, can drive clockwork spring 710 to be moved on clockwork spring 710 It is dynamic.Sprocket wheel is the cylindrical component equipped with equally distributed multiple double wedges, rotation centerline (i.e. the axis of sprocket wheel) and the electricity of sprocket wheel The axis of the motor shaft of motivation is parallel, on the double wedge insertion clockwork spring 710 on sprocket wheel in set card slot 730, realization and clockwork spring 710 engagement, sprocket wheel and the first guide wheel are located at the side of clockwork spring 710 respectively.As shown in figure 17, card slot 730 is on clockwork spring 710 It is to be equally spaced on clockwork spring 710 to set multiple and multiple card slots 730 along the length direction of clockwork spring 710.When motor operation carries For stretching, extension power when, by the transmission of transmission mechanism, sprocket wheel rotate and drive matched clockwork spring 710 obtain advance it is dynamic Power, realizes the stretching, extension of telescopic component；Similarly, when motor operation provides the power shunk, by the transmission of transmission mechanism, Sprocket wheel is rotated towards opposite direction, and is drawn clockwork spring 710 and retracted and promote clockwork spring 710 to be wound on ring stand, realizes that clockwork spring 710 is flat Whole is wound on ring stand.

In present embodiment by the way of chain wheel drive clockwork spring 710, relative to actively pressing roller and driven roller stitcher The friction-type drive of wheel, can realize stretching, extension by chain wheel drive clockwork spring 710, shrink and more stablize, and will not produce opposite beat It is sliding.

In present embodiment, transmission mechanism is gear drive, transmission mechanism and power output part and motor phase Connection, plays the role of deceleration, lifting torsion during transmission.Transmission mechanism includes the first tooth being arranged on motor Wheel, the second gear engaged with first gear and second gear are the 3rd gear and the 3rd tooth for being coaxially disposed and rotating synchronously The for taking turns the 4th gear of engagement, being the 5th gear that is coaxially disposed and rotates synchronously with the 4th gear and being engaged with the 5th gear Six gears, power output part are to be coaxially disposed and rotate synchronously with the 6th gear.First gear is fixedly mounted on motor On motor shaft, second gear and the 3rd gear are arranged on supporting rack by same gear shaft, and the 4th gear and the 5th gear lead to Cross same gear shaft to be arranged on supporting rack, the 6th gear and power output part are arranged at supporting rack by same gear shaft On.

As preference, first gear, second gear, the 3rd gear, the 4th gear, the 5th gear and the 6th gear are Straight spur gear.The diameter of first gear is less than the diameter of second gear, and the diameter of the 3rd gear is less than the straight of the 4th gear Footpath, the diameter of the 5th gear are less than the diameter of the 6th gear.First gear, second gear, the 5th gear and the 6th gear are in On the same straight line parallel with the length direction of handle portion, the 3rd gear and the 4th gear are in the length direction with handle portion On parallel another straight line.

The utility model is exemplarily described above in association with attached drawing.Obviously, the utility model implements not Limited by aforesaid way.As long as employ the various unsubstantialities that the methodology of the utility model and technical solution carry out Improvement；Or it is not improved, above-mentioned design and technical solution by the utility model directly apply to other occasions, at this Within the protection domain of utility model.

Claims (50)

1. self-shooting bar, it is characterised in that including：

Handle portion；

Clamping part, it is used to clamp capture apparatus；

Telescopic component, it is connected with handle portion and clamping part, and is arranged to carry out between elongation state and contraction state Switching；And

Telescopic control device, it has the inside for being arranged at handle portion and telescopic component and is used to control telescopic component to be extended With the clockwork spring of contraction.

2. self-shooting bar according to claim 1, it is characterised in that the telescopic control device, which further includes, is arranged at the hand Supporting rack inside shank and it is arranged at supporting rack and the power supply machine for controlling the clockwork spring to be extended and shunk Structure；When clockwork spring is extended, clockwork spring promotes the telescopic component to be extended；When clockwork spring is shunk, stretched described in clockwork spring pulling Contracting component is shunk.

3. self-shooting bar according to claim 2, it is characterised in that the power supply mechanism includes motor, output is moved Power is to drive the clockwork spring to carry out flexible power output part and be connected with motor and power output part and will be electronic The rotary force that machine produces is transferred to the transmission mechanism of power output part.

4. self-shooting bar according to claim 3, it is characterised in that the power output part is what is contacted with the clockwork spring Actively press roller.

5. self-shooting bar according to claim 4, it is characterised in that the power output part of rubber material by being made Cylinder, the periphery of power output part contacts with the surface of the clockwork spring.

6. self-shooting bar according to claim 4, it is characterised in that the power output part include pressing roller body and The rubber layer contacted in pressing roller body and with the surface of the clockwork spring is arranged at, rubber layer is made of rubber material.

7. self-shooting bar according to claim 4, it is characterised in that the transmission mechanism is gear drive.

8. self-shooting bar according to claim 7, it is characterised in that the transmission mechanism includes being arranged on the motor First gear（520a）With first gear（520a）The second gear of engagement（530a）With second gear（530a）To be coaxial The 3rd gear for setting and rotating synchronously（540a）And the 3rd gear（540a）4th gear of engagement（550a）And the 4th tooth Wheel（550a）For the 5th gear for being coaxially disposed and rotating synchronously（560a）With with the 5th gear（560a）6th gear of engagement （570a）, the power output part and the 6th gear（570a）To be coaxially disposed and rotating synchronously.

9. self-shooting bar according to claim 8, it is characterised in that the first gear, the second gear, the described 3rd Gear, the 4th gear, the 5th gear and the 6th gear are straight spur gear.

10. self-shooting bar according to claim 4, it is characterised in that the telescopic control device further includes and the power Output block is the driven pressing roller for being oppositely arranged and being contacted with the clockwork spring, and clockwork spring is from power output part and driven pressing Passed through between roller.

11. self-shooting bar according to claim 10, it is characterised in that the driven pressing roller is using rubber material system Into cylinder, it is driven pressing roller periphery contacted with the surface of the clockwork spring.

12. self-shooting bar according to claim 10, it is characterised in that the driven pressing roller includes pressing roller body Be arranged in pressing roller body and the rubber layer that is contacted with the surface of the clockwork spring, rubber layer are made of rubber material.

13. self-shooting bar according to claim 10, it is characterised in that the telescopic control device is further included for described Driven pressing roller provides support force so that the clockwork spring keeps what is be bonded with the power output part and driven pressing roller Elastic supporting mechanism, driven pressing roller are in floating state.

14. self-shooting bar according to claim 13, it is characterised in that the elastic supporting mechanism includes rotatable setting Bracket and the flexible member for making its rotating active force for applying to bracket, the driven pressing roller is rotatable setting In on bracket and both rotation centerline it is parallel.

15. self-shooting bar according to claim 14, it is characterised in that the rotation centerline of the bracket is positioned at described driven Press between roller and the flexible member and the tie point of bracket.

16. self-shooting bar according to claim 15, it is characterised in that the flexible member is cylindrically coiled spring and is pressure Spring, one end of flexible member contradict the driven pressing roller, and the other end contradicts support frame as described above.

17. self-shooting bar according to claim 15, it is characterised in that the bracket include the first pressure pin for being oppositely arranged and Second pressure pin and the connecting shaft being connected with the first pressure pin and the second pressure pin, support frame as described above, which has, allows the axis that connecting shaft passes through Hole.

18. according to any self-shooting bar of claim 3 to 17, it is characterised in that the telescopic control device further includes can The ring stand of rotary setting, after the clockwork spring contraction on ring stand.

19. self-shooting bar according to claim 18, it is characterised in that the telescopic control device further include be arranged at it is described Between ring stand and the power output part and for guiding the directing plate of the clockwork spring.

20. self-shooting bar according to claim 19, it is characterised in that the telescopic control device further include be arranged at it is described On the outside of ring stand and it is used for the limiting plate and guide plate for limiting maximum gauge of the clockwork spring when shrinking, limiting plate and guide plate are equal It is located at for the axle center of arc-shaped structure and limiting plate and guide plate on the rotation centerline of ring stand.

21. self-shooting bar according to claim 3, it is characterised in that the power output part is the with helicla flute One worm screw, the clockwork spring have the card slot being meshed with the first worm screw, when the first worm screw rotates, clockwork spring can be driven to be moved It is dynamic.

22. self-shooting bar according to claim 3, it is characterised in that the power output part is sprocket wheel, the clockwork spring tool There is the card slot being meshed with sprocket wheel, when sprocket wheel rotates, clockwork spring can be driven to be moved.

23. the self-shooting bar according to claim 21 or 22, it is characterised in that the transmission mechanism is gear drive.

24. self-shooting bar according to claim 21, it is characterised in that the transmission mechanism includes being arranged at the motor On first gear, engaged with first gear second gear, with second gear be the 3rd tooth for being coaxially disposed and rotating synchronously Wheel, the 4th gear engaged with the 3rd gear and the 4th gear are the 5th gear and the 5th tooth for being coaxially disposed and rotating synchronously The worm gear mechanism taken turns the 6th gear of engagement and be connected with the 6th gear and first worm screw.

25. self-shooting bar according to claim 24, it is characterised in that the first gear, the second gear, described Three gears, the 4th gear, the 5th gear and the 6th gear are straight spur gear.

26. the self-shooting bar according to claim 21 or 22, it is characterised in that the telescopic control device further include with it is described Power output part is the first guide wheel for being oppositely arranged and being contacted with the clockwork spring, and clockwork spring draws from power output part and first Passed through between guide wheel.

27. self-shooting bar according to claim 26, it is characterised in that the telescopic control device further includes rotatable setting Ring stand, the clockwork spring shrink after on ring stand.

28. self-shooting bar according to claim 27, it is characterised in that the telescopic control device further include be arranged at it is described Between ring stand and the power output part and for guiding the directing plate of the clockwork spring.

29. self-shooting bar according to claim 28, it is characterised in that the telescopic control device further include be arranged at it is described On the outside of ring stand and it is used for the limiting plate and guide plate for limiting maximum gauge of the clockwork spring when shrinking, limiting plate and guide plate are equal It is located at for the axle center of arc-shaped structure and limiting plate and guide plate on the rotation centerline of ring stand.

30. self-shooting bar according to claim 28, it is characterised in that the telescopic control device further includes rotatable setting And for guiding the clockwork spring to enter the second guide wheel of the directing plate, the second guide wheel is located at first guide wheel and institute State between ring stand.

31. self-shooting bar according to claim 1, it is characterised in that the telescopic component is by multiple hollow telescopic joints The scalable rod-like structure of composition is socketed successively, and the clockwork spring is arranged at the inside of telescopic joint.

32. self-shooting bar according to claim 31, it is characterised in that one end of the telescopic joint is equipped with inwardly projecting and uses The built-in step of position-limiting action in the telescopic joint inside being inserted into, the other end of telescopic joint are equipped with outwardly and are used for external The set matched external step of built-in step on the telescopic joint that portion is arranged.

33. self-shooting bar according to claim 31, it is characterised in that the telescopic joint sets four altogether.

34. self-shooting bar according to claim 1, it is characterised in that the clamping part includes：

Clamp bracket, it is rotatable that it, which is disposed relative to the handle portion,；

Turnover panel, it is to be rotatably arranged in clamp bracket, and movable between folding position and expanded position；And

Upper frame is turned down, it is to be rotatably arranged in clamp bracket, and movable between folding position and expanded position；

Wherein, the turnover panel being in the deployed and the fold upper frame being in the deployed are engaged, for clamping capture apparatus.

35. self-shooting bar according to claim 34, it is characterised in that the rotation centerline of the turnover panel is pushed up with the fold The rotation centerline of frame is parallel.

36. self-shooting bar according to claim 34, it is characterised in that the turnover panel and the fold upper frame are arranged to can be to The both sides rotation of the clamp bracket, turnover panel and fold upper frame have two expanded positions and two expanded positions are respectively positioned at folder Hold the side of stent.

37. self-shooting bar according to claim 36, it is characterised in that the maximum rotation of the turnover panel and the fold upper frame Angle is 180 degree, and turnover panel and fold upper frame can be respectively at an expansion after rotating 90 degree towards the same side of the clamp bracket At position.

38. the self-shooting bar according to claim 36 or 37, it is characterised in that the turnover panel has accommodate capture apparatus the One groove and second groove, first groove and second groove are arranged on turnover panel on two opposite sides.

39. the self-shooting bar according to claim 38, it is characterised in that be in and fold in the clamp bracket and the turnover panel During position, the first groove or the second groove are covered in flexible button set in the handle portion and/or take pictures and press Button.

40. the self-shooting bar according to claim 38, it is characterised in that in the first groove and/or the second groove Equipped with the protective layer for being contacted with capture apparatus.

41. the self-shooting bar according to claim 38, it is characterised in that the fold upper frame has accommodate capture apparatus the Three grooves and the 4th groove, the 3rd groove and the 4th groove are arranged on fold upper frame on two opposite sides.

42. self-shooting bar according to claim 41, it is characterised in that in the 3rd groove and/or the 4th groove Equipped with the protective layer for being contacted with capture apparatus.

43. self-shooting bar according to claim 34, it is characterised in that the clamp bracket, which has to accommodate, is in folding position The turnover panel the first storage tank, the first storage tank be through setting straight slot.

44. the self-shooting bar according to claim 34 or 43, it is characterised in that the clamp bracket, which has, to be accommodated in folding Second storage tank of the fold upper frame of position, the second storage tank are the straight slot through setting.

45. self-shooting bar according to claim 34, it is characterised in that the clamp bracket includes two branch being oppositely arranged Gripping arm, be connected with two branch gripping arms and be used to play the turnover panel limited block of position-limiting action, the peace being connected with two branch gripping arms Dress block and be arranged on mounting blocks and for adjusting the adjusting mechanism of distance between the fold upper frame and turnover panel, adjusting mechanism with Turn down upper frame rotation connection.

46. self-shooting bar according to claim 45, it is characterised in that the adjusting mechanism includes turning with the fold upper frame Move the supporter for connecting and being located at outside the mounting blocks, the guiding axis being connected with supporter and be sheathed on guiding axis and be used for The second spring for making supporter towards the active force moved close to the direction of mounting blocks is produced, mounting blocks, which have, accommodates second spring With the pilot hole of guiding axis.

47. self-shooting bar according to claim 46, it is characterised in that the guiding axis sets parallel multiple.

48. self-shooting bar according to claim 46, it is characterised in that the fold upper frame includes being located at the support respectively Two clamping limbs of body side and the connecting rod being connected with two clamping limbs.

49. self-shooting bar according to claim 48, it is characterised in that the clamping limb has the end with the handle portion Shape matches and is the bending section of arc.

50. self-shooting bar according to claim 34, it is characterised in that the clamping part is further included to be connected with the telescopic component Connect and turned down with the branch sleeve of clamp bracket rotation connection, the turnover panel positioned at described between upper frame and branch sleeve.