CN205048087U - Clamping structure and have this clamping structure's cloud platform - Google Patents

Abstract

The utility model provides a clamping structure, it reaches the switching portion that is connected with this card portion of holding including blocking the portion of holding, and this switching portion is used for connecting this clamping structure in the bearing part. This card portion of holding rotationally links to each other with this switching portion with the angle of adjustment for this switching portion, and this clamping structure is still including setting up the damping piece between this card portion of holding and this switching portion. Rotary resistance when this damping piece provides this card portion of holding for the rotation of this switching portion, when the external force of rotating this card portion of holding disappeared, this rotary resistance can make this card portion of holding keep in the arbitrary angle for this switching portion. The utility model discloses still relate to the cloud platform.

Description

Clamping structure and there is the The Cloud Terrace of this clamping structure

Technical field

The utility model relates to photographic goods field, particularly a kind of clamping structure and have the The Cloud Terrace of this clamping structure.

Background technique

In daily life, handset mounting clamps the both sides of mobile phone mostly, in the case, is just easier to come off from handset mounting when mobile phone is subject to slight vibration.In addition, in clamping equipment, also there is the handset mounting of clamping mobile phone four sides, but need the object operating the connection of this handset mounting, operation inconvenience during the angle of this handset mounting adjustment mobile phone.

Model utility content

In view of this, be necessary a kind of clamping structure of conveniently adjusting angle is provided and there is the The Cloud Terrace of this clamping structure.

A kind of clamping structure, it switching part comprising holding section and be connected with this holding section, this switching part is for being connected to load-bearing member by this clamping structure.This holding section can be connected to adjust the angle relative to this switching part with this switching part rotationally, and this clamping structure also comprises the damping piece be arranged between this holding section and this switching part.This damping piece provides the rotational resistance during rotation of this holding section relative to this switching part, and when the external force of rotating this holding section disappears, it is arbitrarily angled that this rotational resistance can make this holding section remain on relative to this switching part.Further, the second Fastener that this holding section comprises the first Fastener and is rotationally connected with this first Fastener, this second Fastener is connected to this switching part.

Further, this first Fastener comprises drain pan, be connected to the pin-joint part of this drain pan and be connected to the guiding element of this drain pan and this pin-joint part, and this guiding element provides guiding relative to the motion of this pin-joint part for this drain pan.

Further, this first Fastener comprises extension spring, and this guiding element offers guiding groove, and one end of this extension spring is connected to this drain pan, and the other end is connected to this pin-joint part through this guiding groove.

Further, this first Fastener also comprises base plate and retaining member, and this base plate is fixedly connected on this drain pan; What this retaining member can rotate is connected to this base plate, and it is for gripping objects.

Further, this first retaining member also comprises link arm, and what this retaining member can rotate by this link arm is connected to this drain pan.

Further, this base plate offers the first accepting groove, this link arm drive this retaining member relative to this base plate rotate with part be contained in this first accepting groove.

Further, this retaining member offers receiving groove, when this retaining member clamps this object, the corner section of this object be contained in this receiving groove, from this clamping structure landing when avoiding this object to be subject to vibrating.

Further, this first Fastener also comprises the carrier board and the first elastic component that are fixedly connected on this base plate, and this first elastic component is arranged on this carrier board, and it is for cushioning the contact of this object and this carrier board.

Further, this guiding element is provided with limiting stopper, and this base plate is provided with stop block, and this limiting stopper and this stop block offset the movement travel limiting this guiding element.

Further, this switching part also comprises revolving part and is connected to the chuck of this carrier; This second Fastener comprises the first connecting body, and this revolving part is through this damping piece, this first connecting body and this chuck, and this damping piece supports rotational resistance when to provide its rotation relative to this switching part of this holder on this revolving part.

Further, this second Fastener also comprises joint and the second elastic component, and this joint is fixedly connected on this first connecting body; This second elastic component is arranged on this joint and this first connecting body, and it is for gripping objects.

Further, this switching part also comprises back-up ring and nut, and this revolving part is through this nut and this back-up ring, and this back-up ring is between this nut and this first connecting body, and it is for preventing this nut loosening.

Further, this carrier comprises body and is connected to the optical axis of this body, and this optical axis is successively through this damping piece, this first connecting body, this back-up ring and this nut; This back-up ring offers interior annular distance, and this optical axis includes fitting surface, and this fitting surface coordinates to limit the rotation of this back-up ring around this optical axis with this interior annular distance.

Further, this revolving part comprises thread spindle, and this thread spindle is contained in this chuck successively through this optical axis and this body portion.

Further, this chuck comprises card-tight part, and this card-tight part comprises multiple gear teeth, the plurality of gear teeth on an end face of this chuck along the circumferencial direction spread configuration of this chuck.

A kind of The Cloud Terrace, its bag main body.This The Cloud Terrace also comprises clamping structure as above, and this main body is this load-bearing member, and this clamping structure is connected to this main body by this clamping part.

Further, the connection that can rotate of this retaining member and this base plate; This base plate offers the first accepting groove, and when this clamping structure does not use, this retaining member is contained in this first accepting groove by the part relative to the rotation of this base plate.

Further, this clamping structure also comprises the carrier board and the first elastic component that are fixedly connected on this base plate, and this first elastic component is fixed on this carrier board, its support force be subject to for cushioning this object.

Further, this first elastic component protrudes from this carrier.

Further, this retaining member offers receiving groove, during this clamping structure gripping objects, the corner section of this object be contained in this receiving groove, from this clamping structure landing when avoiding this object to be subject to vibrating.

A kind of The Cloud Terrace, this The Cloud Terrace comprises clamping structure as above.

Adopt clamping structure of the present utility model and there is the The Cloud Terrace of this clamping structure, this holding section is connected to adjust the angle relative to this switching part with this switching part rotationally, this clamping structure also comprises the damping piece be arranged between this holding section and this switching part, this damping piece provides the rotational resistance during rotation of this holding section relative to this switching part, when the external force of rotating this holding section disappears, it is arbitrarily angled that this rotational resistance can make this holding section remain on relative to this switching part.The adjustment of the angle of the object of this clamping structure clamping can be realized by the rotation of this clamping structure, simple, convenient.

Accompanying drawing explanation

Fig. 1 is the decomposing schematic representation of the clamping structure of the utility model first mode of execution.

Fig. 2 is the schematic top plan view of the clamping structure in Fig. 1.

Fig. 3 is the generalized section of the clamping structure in Fig. 2 along III-III direction.

Fig. 4 is the structural representation of the The Cloud Terrace that the utility model second mode of execution provides.

Fig. 5 is the schematic diagram that the clamping structure of The Cloud Terrace in Fig. 4 is in using state.

Fig. 6 is the schematic diagram that the clamping structure of The Cloud Terrace in Fig. 4 is in unused state.

Fig. 7 is the decomposing schematic representation of the clamping structure that the utility model the 3rd mode of execution provides.

Fig. 8 is the schematic top plan view of the clamping structure in Fig. 7.

Fig. 9 is the generalized section of the clamping structure in Fig. 8 along IX-IX direction.

Figure 10 is the structural representation of the The Cloud Terrace that the utility model the 4th mode of execution provides.

Primary component symbol description

Clamping structure	100,300
		Holding section	10
First Fastener	10a
		Second Fastener	10b
Drain pan	1
		First end	1a
Second end	1b
		First groove	11
First side	111
		Contiguous block	112
First tapped hole	113
		Second groove	12
First attachment post	13
		Second tapped hole	131
Extension spring	2
		First connecting end	21
Second connecting end	22
		Guiding element	3
Guiding groove	31
		First escape groove	32
3rd tapped hole	33
		Limiting stopper	34
Base plate	4
		First surface	41
First accepting groove	42
		First bottom surface	421
Second attachment post	43
		4th tapped hole	431
5th tapped hole	44
		First through hole	45
First screw	46
		Second screw	47
Stop block	48
		Link arm	5
Second surface	51
		3rd surface	52
Second escape groove	53
		First shoulder hole	54
First axis hole	55
		Coupling shaft	56
Retaining member	6
		Bearing table	61
Second accepting groove	62
		Grip block	63
Second side	631
		Receiving groove	64
First elastic component	7
		First spring sheet	71
Second spring sheet	72
		Carrier board	8
4th surface	81
		3rd accepting groove	82
4th accepting groove	83
		Second through hole	84
6th tapped hole	85
		First groove	86
Damping piece	87
		First pad	88
3rd screw	89
		Pin-joint part	9
3rd side	91
		5th accepting groove	911
Second shoulder hole	92
		First pin-and-hole	93
First pin	94
		Second pin	95
Second pad	96
		3rd pad	97
3rd pin	98
		Switching part	30，40
Joint	301
		Junction surface	3011
Connecting groove	3012
		First attachment hole	3013
Second attachment hole	3014
		First accommodating groove	3015
Accommodation section	3016
		Link	302
Knob	3021
		Thread spindle	3022
Second accommodating groove	3023
		Nut	303
Back-up ring	304
		Interior annular distance	3041
Damping piece	305
		First connecting body	306
Stationary plane	3061
		Matching hole	3062
3rd accommodating groove	3063
		Second elastic component	307
Carrier	308
		Body	3081
Optical axis	3082
		Fitting surface	3083
Third through-hole	3084
		4th accommodating groove	3085
Chuck	309
		Penetration hole	3091
Card-tight part	3092
		Elastomer	401
Jump ring	402
		Supporting piece	403
Accepting hole	4031
		The Cloud Terrace	200,400
Main body	201
		Engagement portion	2011
Actuator	202
		Control system	203
Mode button	2031
		Rotary knob	2032

Following embodiment will further illustrate the utility model in conjunction with above-mentioned accompanying drawing.

Embodiment

Below in conjunction with accompanying drawing, mode of executions more of the present utility model are elaborated.When not conflicting, the feature in following embodiment and embodiment can combine mutually.

Refer to Fig. 1 to Fig. 3, the clamping structure 100 that the utility model first mode of execution provides, it comprises the switching part 30 that holding section 10 is connected with this holding section 10 and the damping piece 305 be arranged between this holding section 10 and this switching part 30.

The second Fastener 10b that this holding section 10 comprises the first Fastener 10a and is rotationally connected with this first Fastener 10a.This first Fastener 10a comprises drain pan 1, extension spring 2, guiding element 3, base plate 4, link arm 5, retaining member 6, first elastic component 7, carrier board 8 and pin-joint part 9.

This drain pan 1 comprises first end 1a and the second end 1b relative with this first end 1a.This drain pan 1 offers the first groove 11, and this first groove 11 includes two the first sides 111 be oppositely arranged.This drain pan 1 also comprises contiguous block 112, and this contiguous block 112 is for being connected with this base plate 4.In present embodiment, the quantity of this contiguous block 112 is two, and two these contiguous blocks 112 are separately fixed at two these the first sides 111 near the position of this first end 1a.This contiguous block 112 each offers the first tapped hole 113, and the central shaft of this first tapped hole 113 is roughly parallel to this first side 111.The bottom surface of this first groove 11 offers the second groove 12, this first groove 11 and this second groove 12 are jointly for accommodating this extension spring 2 of part and this guiding element 3.This drain pan 1 also comprises the first attachment post 13, and this first attachment post 13 is fixed on the bottom surface of this second groove 12 near the position of this second end 1b.This first attachment post 13 offers the second tapped hole 131.

One end of this extension spring 2 is connected to the first attachment post 13 of this drain pan 1, and the other end is connected to this pin-joint part 9.This extension spring 2 comprises the first connecting end 21 and second connecting end 22 relative with this first connecting end 21, and this first connecting end 21 is set on this first attachment post 13, makes this extension spring 2 be connected to this drain pan 1.

This guiding element 3 is connected to this drain pan 1 and this pin-joint part 9, guiding when it is for providing this drain pan 1 to move relative to this pin-joint part 9.This guiding element 3 offers guiding groove 31, and this guiding groove 31, for accommodating this extension spring 2 of part, is the motion guide of this extension spring 2 simultaneously.This guiding element 3 also offers the first escape groove 32 and the 3rd tapped hole 33, and this first escape groove 32 is connected with this guiding groove 31.This guiding element 3 is connected to this pin-joint part 9 by the 3rd tapped hole 33.In present embodiment, the quantity of the 3rd tapped hole 33 is two, and two the 3rd tapped holes 33 lay respectively at the both sides of this first escape groove 32; Be appreciated that in other embodiments, the quantity of the 3rd tapped hole 33 can increase according to actual needs or reduce.This guiding element 3 comprises limiting stopper 34, and this limiting stopper 34 matches with this base plate 4 and carries out spacing to this extension spring 2 and this guiding element 3.In present embodiment, the quantity of this limiting stopper 34 is two, and two these limiting stoppers 34 lay respectively at the both sides of this guiding groove 31; Be appreciated that in other embodiments, the quantity of this limiting stopper 34 can increase according to actual needs or reduce.

This base plate 4 is connected to this drain pan 1 and this carrier board 8, and it is between this drain pan 1 and this carrier board 8.This base plate 4 comprises the first surface 41 being fixedly connected on this carrier board 8.This base plate 4 offers the first accepting groove 42, and this first accepting groove 42 runs through the perpendicular surface of this first surface 41 and this base plate 4 and this first surface 41.This first accepting groove 42 is for accommodating this link arm 5 and this retaining member 6 of part.In present embodiment, the quantity of this first accepting groove 42 is two, and two these the first accepting grooves 42 lay respectively at the relative both sides of this base plate 4.This first accepting groove 42 comprises the first bottom surface 421 paralleled with this first surface 41.This base plate 4 also comprises the second attachment post 43, and this second attachment post 43 matches with this link arm 5 and this base plate 4 is rotationally connected with this link arm 5.This second attachment post 43 offers the 4th tapped hole 431, and this base plate 4 is fixedly connected with this carrier board 8 by the 4th tapped hole 431.

In present embodiment, the quantity of this second attachment post 43 is two, and two these the second attachment posts 43 are separately fixed on the first bottom surface 421 of two these the first accepting grooves 42; Be appreciated that in other embodiments, the quantity of this second attachment post 43 can increase according to actual needs or reduce.This base plate 4 also offers the 5th tapped hole 44 and the first through hole the 45, five tapped hole 44 and this first through hole 45 and all runs through this first surface 41.In present embodiment, the quantity of the 5th tapped hole 44 and the quantity of this first through hole 45 are three.This base plate 4 also comprises the first screw 46, second screw 47 and stop block 48, this stop block 48 be fixed on this base plate 4 and this first surface 41 opposing one on the surface.In present embodiment, the quantity of this first screw 46 is three, and three these the first screws 46 are each passed through the second tapped hole 131 of three these the first through holes 45 and this drain pan 1 and two these the first tapped holes 113 are threaded; The quantity of this second screw 47 is three, and three these the second screws 47 are each passed through this carrier board 8 and are threaded with three the 5th tapped holes 44, make this carrier board 8 be fixedly connected on this base plate 4.In present embodiment, the quantity of this stop block 48 is two, and two these stop blocks 48 offset with two these limiting stoppers 34 movement travel limiting this guiding element 3 respectively.

One end of this link arm 5 is rotating is connected to this base plate 4, and the other end is rotating is connected to this retaining member 6.This link arm 5 comprises second surface 51 and three surface 52 opposing with this second surface 51.This link arm 5 also offers the second escape groove 53, and this second escape groove 53 runs through the 3rd surface 52, and it is for accommodating this retaining member 6 of part.One end of this link arm 5 offers the first shoulder hole 54, and the other end offers the first axis hole 55.Being housed in this first shoulder hole 54 of this second attachment post 43 part, makes this link arm 5 be formed with this base plate 4 and is rotationally connected.This first axis hole 55 is connected with this second escape groove 53.This link arm 5 also comprises coupling shaft 56, this coupling shaft 56 part be contained in this first axis hole 55.In present embodiment, this link arm 5 is rotationally connected with this retaining member 6 by this coupling shaft 56; The quantity of this link arm 5 is two; This link arm 5 is fixed length, is appreciated that in other embodiments, and this link arm 5 can be telescopic rod, makes its length can change to adapt to practical application.

This retaining member 6 is rotating is connected to this link arm 5, and it is concave character type substantially.This retaining member 6 comprises bearing table 61, and this bearing table 61 is for carrying object (not shown).This bearing table 61 offers the second accepting groove 62, and this second accepting groove 62 is for accommodating this link arm 5 of part.This retaining member 6 also comprises grip block 63, and this grip block 63 is fixed on one end of this bearing table 61, and it comprises second side 631 crossing with this bearing table 61.This grip block 63 offers receiving groove 64, and this receiving groove 64 runs through this second side 631, and it is for accommodating a jiao of this object.In present embodiment, the quantity of this retaining member 6 is two, and two these retaining members 6 are rotationally connected with two these link arms 5 respectively; The surface that this second side 631 and this bearing table 61 carry this object is all coated with elasitic layer; Be appreciated that in other embodiments, this retaining member 6 can be made up of elastic material.

This first elastic component 7 is arranged on this carrier board 8, and it is for cushioning the contact of this object and this carrier board 8, prevents this this object of carrier board 8 scratch.This first elastic component 7 comprises the first spring sheet 71 and the second spring sheet 72.In present embodiment, this first spring sheet 71 is separation structure with this second spring sheet 72; Be appreciated that in other embodiments, this first spring sheet 71 can be structure as a whole with this second spring sheet 72.

This carrier board 8 is connected to this base plate 4, and it comprises the 4th surface 81.This carrier board 8 also offers the 3rd accepting groove 82 and the 4th accepting groove the 83, three accepting groove 82 lays respectively at the two ends of this carrier board 8 with the 4th accepting groove 83.3rd accepting groove 82 runs through the 4th surface 81, and it is for accommodating this second spring sheet 72 of part.4th accepting groove 83 runs through the 4th surface 81, and it is for accommodating this first spring sheet 71 of part.This carrier board 8 also offers the second through hole 84 and the 6th tapped hole 85, and this second through hole 84 is for accommodating this first screw 46 of part.6th tapped hole 85 is for accommodating this second screw 47 of part.In present embodiment, the quantity of this second through hole 84 and the quantity of the 6th tapped hole 85 are three, and three these the second through holes 84 and three the 6th tapped holes 85 run through the bottom surface of the 3rd accepting groove 82 and the bottom surface of the 4th accepting groove 83 respectively.This carrier board 8 also offers the first groove 86, and this first groove 86 runs through the bottom surface of the 4th accepting groove 83.This carrier board 8 also includes damping piece 87, first pad 88 and the 3rd screw 89.3rd screw 89 screws in the 4th tapped hole 431 of this base plate 4 through this first pad 88, this damping piece 87 and this first groove 86 successively, makes this carrier board 8 be fixedly connected on this base plate 4.In present embodiment, the quantity of the quantity of this first groove 86, the quantity of this damping piece 87, this first pad 88 and the quantity of the 3rd screw 89 are two.

This pin-joint part 9 comprises the 3rd side 91.This pin-joint part 9 offers the 5th accepting groove the 911, five accepting groove 911 that runs through the 3rd side 91 for accommodating this extension spring 2 of part and this guiding element 3 of part.This pin-joint part 9 offers the second shoulder hole 92, and this second shoulder hole 92 is connected with the 5th accepting groove 911.This pin-joint part 9 also comprises the first pin 94.In present embodiment, the quantity of this first pin 94 and the quantity of this second shoulder hole 92 are three, one in three these the first pins 94 is contained in the second connecting end 22 of this extension spring 2 through corresponding this second shoulder hole 92, in three these the first pins 94, remaining two two these the second shoulder holes 92 being each passed through correspondence are threaded with two the 3rd tapped holes 33 of this guiding element 3, make this pin-joint part 9 be connected to this extension spring 2 and this guiding element 3.

One end opposing with the 5th accepting groove 911 place end, this pin-joint part 9 offers the first pin-and-hole 93.This pin-joint part 9 also comprises the second pin 95, second pad 96, the 3rd pad 97 and the 3rd pin 98, this second pin 95 is through one end being contained in this first pin-and-hole 93 of this second pad 96 part, and the 3rd pin 98 is through the other end being contained in this first pin-and-hole 93 of the 3rd pad 97 part.

This extension spring 2 is through the guiding groove 31 of this guiding element 3, this first connecting end 21 is enclosed within the first attachment post 13 of this drain pan 1, one in three these the first pins 94 is contained in this second connecting end 22 through corresponding this second shoulder hole 92, this extension spring 2 is made to be connected to this drain pan 1 and this pin-joint part 9, in three these the first pins 94, remaining two two these the second shoulder holes 92 being each passed through correspondence are threaded with two the 3rd tapped holes 33, make this guiding element 3 be connected to this pin-joint part 9.

First shoulder hole 54 of two these link arms 5 is set on two these the second attachment posts 43 of this base plate 4 respectively, and what two these link arms 5 were rotated is connected to this base plate 4.The second accepting groove 62, two these link arms 5 that the one end at the first axis hole 55 place of two these link arms 5 is contained in two these retaining members 6 are respectively rotationally connected respectively by two these coupling shafts 56 and two these retaining members 6.Three these the first screws 46 are each passed through three the second through holes 84 of this carrier board 8, the second tapped hole 131 of three the first through holes 45 of this base plate 4 and this drain pan 1 and two these the first tapped holes 113 and are threaded, and this base plate 4 is fixed on this drain pan 1.Two the 3rd screws 89 are each passed through two these the first pads, 88, two these damping pieces 87, two these the first grooves 86 of this carrier board 8 are threaded with two the 4th tapped holes 431 of this base plate 4, three the 5th tapped holes 44 of three the 6th tapped holes 85 and this base plate 4 that three these the second screws 47 are each passed through this carrier board 8 are threaded, and make this carrier board 8 be fixedly connected on this base plate 4.First spring sheet 71 of this first elastic component 7 is arranged on the 4th accepting groove 83, and this second spring sheet 72 is arranged on the 3rd accepting groove 82, and this first spring sheet 71 and this second spring sheet 72 protrude from the 4th surface 81.

This second Fastener 10b comprises joint 301, first connecting body 306 and the second elastic component 307.This joint 301 is rotationally connected with this pin-joint part 9, and it comprises junction surface 3011.This joint 301 offers connecting groove 3012.This connecting groove 3012 runs through this junction surface 3011 and this joint 301 surface vertical with this junction surface 3011, and it is for accommodating this pin-joint part 9 of part.This joint 301 offers the first attachment hole 3013 and the second attachment hole 3014, and the central shaft of this first attachment hole 3013 roughly overlaps with the central shaft of this second attachment hole 3014.In present embodiment, this first attachment hole 3013 and this second attachment hole 3014 are all connected with this connecting groove 3012.

This joint 301 also offers the first accommodating groove 3015, and this first accommodating groove 3015 runs through this junction surface 3011.In present embodiment, this first accommodating groove 3015 is for accommodating this second elastic component 307 of part; The quantity of this first accommodating groove 3015 is two, and two these the first accommodating groove 3015 intervals are arranged.This joint 301 also offers accommodation section 3016, and this accommodation section 3016 is between two these the first accommodating grooves 3015, and it is for accommodating this link 302 of part.

This first connecting body 306 is for jointly clamping this object with two these retaining members 6, and it comprises stationary plane 3061.This first connecting body 306 offers the matching hole 3062 running through this stationary plane 3061, and this matching hole 3062 is for accommodating the thread spindle 3022 of this link 302 of part.This first connecting body 306 offers the 3rd accommodating groove the 3063, three accommodating groove 3063 that runs through this stationary plane 3061 for accommodating this second elastic component 307 of part.

This second pin 95 screws in one end of the first pin-and-hole 93 of this pin-joint part 9 through this second pad 96 and this second attachment hole 3014; 3rd pin 98 screws in the other end of the first pin-and-hole 93 of this pin-joint part 9 through the 3rd pad 97 and this first attachment hole 3013, what this pin-joint part 9 was rotated is connected to this joint 301, and this first Fastener 10a can around the central axis of second attachment hole 3014 of this second Fastener 10b.The connecting groove 3012 being contained in this joint 301 of this pin-joint part 9 part.

This switching part 30 is rotating is connected to load-bearing member (not shown), and it comprises link 302, nut 303, back-up ring 304, carrier 308 and chuck 309.This switching part 30 is connected to this load-bearing member by this link 302, and this link 302 can be connected by the mode of screw thread or engaging with this load-bearing member.

This link 302 is threaded with this load-bearing member, it thread spindle 3022 comprising knob 3021 and be connected to this knob 3021.This knob 3021 offers the second accommodating groove 3023, and this second accommodating groove 3023 is for accommodating this nut 303 of part.One end of this thread spindle 3022 is fixed on the bottom surface of this second accommodating groove 3023, and the other end is threaded with this load-bearing member through this nut 303, this back-up ring 304, this damping piece 305, this first connecting body 306, this carrier 308 and this chuck 309.In present embodiment, this damping piece 305 is damped ring; Be appreciated that in other embodiments, this damping piece 305 can be other forms of damping member.

This back-up ring 304 is between this nut 303 and this damping piece 305, and it loosens for preventing this nut 303.This back-up ring 304 offers interior annular distance 3041, and this interior annular distance 3041 is non-circular hole.Rotational resistance when this damping piece 305 is for providing this holding section 10 to rotate relative to this switching part 30; When the external force of rotating this holding section 10 disappears, this rotational resistance makes this holding section 10 remain on the arbitrary position of this switching part 30 relatively.In present embodiment, the quantity of this damping piece 305 is two, two these damping pieces 305 lay respectively at the both sides of this first connecting body 306, one in two these damping pieces 305 supports on this first connecting body 306 and this carrier 308, another this damping piece 305 is between this back-up ring 304 and this first connecting body 306, and it supports on this first connecting body 306; Be appreciated that in other embodiments, the quantity of this damping piece 305 can increase according to actual needs or reduce.

This carrier 308 is connected to this first connecting body 306, it optical axis 3082 comprising body 3081 and be connected to this body 3081 through this damping piece 305.This optical axis 3082 non-cylinder, it includes fitting surface 3083, and this fitting surface 3083 coordinates to limit the rotation of this back-up ring 304 around this optical axis 3082 with this interior annular distance 3041.

In present embodiment, this fitting surface 3083 is plane; The quantity of this fitting surface 3083 is two, the opposing setting of two these fitting surfaces 3083.This carrier 308 offers third through-hole 3084.This third through-hole 3084 runs through this body 3081 and this optical axis 3082, and it passes for the thread spindle 3022 for this link 302.This carrier 308 also offers the 4th accommodating groove 3085, and this optical axis 3082 is fixed on the bottom surface of the 4th accommodating groove 3085.

This chuck 309 is fixedly connected on this carrier 308, and it offers penetration hole 3091.This penetration hole 3091 passes for the thread spindle 3022 of this link 302.This chuck 309 also comprises card-tight part 3092, and this card-tight part 3092 is connected with this load-bearing member.In present embodiment, this card-tight part 3092 comprises multiple gear teeth (not shown), the plurality of gear teeth on an end face of this chuck 309 along the circumferencial direction spread configuration of this chuck 309; Be appreciated that in other embodiments, this card-tight part 3092 can also be other structures, as this card-tight part 3092 can be made up of multiple spaced projection.

During assembling, this chuck 309 is fixed on this carrier 308.The optical axis 3082 of this carrier 308, successively through this damping piece 305, this first connecting body 306, this damping piece 305, this back-up ring 304 and this nut 303, makes this optical axis 3082 be connected to two these damping pieces 305, this first connecting body 306, this back-up ring 304 and this nut 303.The third through-hole 3084 that the thread spindle 3022 of this link 302 passes this carrier 308 is threaded with this load-bearing member.This nut 303 part be housed in the second accommodating groove 3023 of this link 302, this link 302 is not formed with this nut 303 and is threaded.This back-up ring 304 is supported in the side of this first connecting body 306 by this corresponding damping piece 305.This damping piece 305 of correspondence is supported the opposite side at this first connecting body 306 by this carrier 308.Two these fitting surfaces 3083 coordinate to limit the rotation of this back-up ring 304 around this optical axis 3082 with this interior annular distance 3041, and then prevent this nut 303 from loosening.

This joint 301 is fixed on this first connecting body 306, in the accommodation section 3016 being housed in this joint 301 of knob 3021 part of this link 302.This second elastic component 307 part be housed in two these the first accommodating grooves 3015 and the 3rd accommodating groove 3063, this second elastic component 307 is connected to this joint 301 and this first connecting body 306.The central shaft of this optical axis 3082 is mutually vertical with the central shaft of this second attachment hole 3014.Be appreciated that in other embodiments, this damping piece 305 can be arranged on this holding section 10.

Refer to Fig. 4, the The Cloud Terrace 200 that the utility model second mode of execution provides, it clamping structure as above 100 comprising main body 201 and be connected to this main body 201, this main body 201 is load-bearing member mentioned above.The thread spindle 3022 of the link 302 of this clamping structure 100 is threaded with this main body 201.This main body 201 comprises engagement portion 2011, and this engagement portion 2011 offsets with the card-tight part 3092 of the chuck 309 of this clamping structure 100, makes this chuck 309 be connected to this main body 201.In present embodiment, this engagement portion 2011 is dish tooth.

Refer to Fig. 5, during this The Cloud Terrace 200 gripping objects (not shown), one end of this object supports on the second elastic component 307 of this clamping structure 100.According to this object support one end on this second elastic component 307 and and its opposing the other end between distance, pull this holding section 10 to adjust the distance of this second elastic component 307 and this retaining member 6, there is resiliently deformable in this extension spring 2, this drain pan 1, this extension spring 2, this base plate 4, this link arm 5, this retaining member 6, this first elastic component 7 and this carrier board 8 along the length direction of the guiding groove 31 of this guiding element 3 gradually away from this second elastic component 307; Meanwhile, two these retaining members 6 rotate around two of this base plate 4 the second attachment posts 43 respectively, make two these retaining members 6 and this second elastic component 307 this object of clamping jointly.Two bights of this object one end are contained in the receiving groove 64 of two these retaining members 6 respectively, avoid when this object is subject to vibrating and slide out from this clamping structure 100.

When this object needs to change angle, execute external force to this clamping structure 100 to overcome rotational resistance when two these damping pieces 305 are supplied to the rotation of the optical axis 3082 of this holding section 10 around this carrier 308 relative to this main body 201, make this clamping structure 100 be in rotary state, this holding section 10 can turn to arbitrarily angled relative to this switching part 30 by hook.After this object rotates to the angle of needs, when this external force disappears, this clamping structure 100 is in the lock state, and this rotational resistance keeps arbitrarily angled relative to this main body 201 of this holding section 10.

When this object needs to take off from this clamping structure 100, sliding along the direction away from this main body 201 and make it away from this main body 201 in this holding section 10, is taken out by this object from this clamping structure 100.This holding section 10 returns to origin-location under the elastic force effect of this extension spring 2.

Refer to Fig. 6, when this The Cloud Terrace 200 is in non-working condition, two these retaining members 6 rotate to this drain pan 1 around the second attachment post 43 of this base plate 4, make two first accepting grooves 42 being contained in this drain pan 1 of two these retaining members 6 and two these link arms 5 part respectively.This holding section 10 is rotated to this main body 201 relative to this switching part 30, and make this holding section 10 near this main body 201, this main body 201 is relative with this holding section 10, is easy to depositing of this The Cloud Terrace 200.

Refer to Fig. 7 to Fig. 9, the clamping structure 300 that the utility model the 3rd mode of execution provides, the clamping structure 100 that this clamping structure 300 provides with the utility model first mode of execution is substantially identical, difference is that this clamping structure 300 eliminates two these damping pieces 305, and the switching part 40 of this clamping structure 300 eliminates this nut 303, this back-up ring 304 and this carrier 308.This switching part 40 also comprises elastomer 401, jump ring 402 and supporting piece 403.This supporting piece 403 offers accepting hole 4031.

This holding section 10 is connected to this switching part 40.This elastomer 401 is enclosed within the thread spindle 3022 of this link 302, the thread spindle of this link 302 3022 through the matching hole 3062 of this first connecting body 306, the accepting hole 4031 of this supporting piece 403 and this chuck 309 penetration hole 3091.One end of this elastomer 401 is connected to the bottom surface of the second accommodating groove 3023 of this link 302, and the other end is connected to this supporting piece 403 surface relative with this first connecting body 306.This jump ring 402 is arranged on this thread spindle 3022, and this chuck 309 offsets with this jump ring 402, and this jump ring 402 is for preventing this chuck 309 moving axially along this thread spindle 3022.This joint 301 is fixedly connected on this first connecting body 306, in the accommodation section 3016 being housed in joint 301 of this link 302 part.This second elastic component 307 is connected to this joint 301 and this first connecting body 306.

Refer to Figure 10, the The Cloud Terrace 400 that the utility model the 4th mode of execution provides, the The Cloud Terrace 200 that this The Cloud Terrace 400 provides with the utility model second mode of execution is substantially identical, and difference is that this The Cloud Terrace 400 eliminates this clamping structure 100, and this The Cloud Terrace 400 also comprises clamping structure 300.The thread spindle 3022 of the link 302 of this clamping structure 300 is threaded with this main body 201.This chuck 309 can be fastened in this main body 201 and loosen relative to this main body 201 to limit this switching part 40.The engagement portion 2011 of the main body 201 of this The Cloud Terrace 400 offsets with the card-tight part 3092 of the chuck 309 of this clamping structure 300 or is separated, this clamping structure 300 is in the lock state or rotatable state, realizes the rotation of this clamping structure 300 or limit this clamping structure 300 in arbitrary backstop position.

When the object of this clamping structure 300 clamping needs to change angle, there is resiliently deformable under external force in this elastomer 401, this chuck 309 is in movable state, it slides along the direction away from this main body 201 to depart from this main body 201, this clamping structure 300 is in rotary state, and this clamping structure 300 can this main body 201 rotate to arbitrarily angled relatively.After this object rotates to the angle of needs, when this external force disappears, this elastomer 401 recovers distortion, this chuck 309 returns to origin-location by this supporting piece 403 under the elastic force effect of this elastomer 401, it is in the lock state, the card-tight part 3092 of this chuck 309 supports on the engagement portion 2011 of this main body 201, and what make this clamping structure 300 remain on relative to this main body 201 is arbitrarily angled, and this clamping structure 300 is in the lock state.

The Cloud Terrace provided by the invention also comprises actuator 202.This actuator 202 for carrying shooting device, as camera, vidicon camera.Actuator 202 is rotating is connected with this for this main body 201.This The Cloud Terrace also comprises control system 203, and this control system 203 is arranged in this main body 201.This control system 203 comprises mode button 2031 and rotary knob 2032.This mode button 2031 for control this The Cloud Terrace this actuator 202 residing for pattern, as mode of operation, non-operating mode.When this actuator 202 is in mode of operation, this rotary knob 2032 can control this actuator 202 and drive this shooting device to rotate a predetermined angle relative to this main body 201.In present embodiment, this predetermined angle is 660 °.

Adopt clamping structure of the present utility model and there is the The Cloud Terrace of this clamping structure, this holding section is connected to adjust the angle relative to this switching part with this switching part rotationally, this clamping structure also comprises the damping piece be arranged between this holding section and this switching part, this damping piece provides the rotational resistance during rotation of this holding section relative to this switching part, when the external force of rotating this holding section disappears, it is arbitrarily angled that this rotational resistance can make this holding section remain on relative to this switching part.The adjustment of the angle of the object of this clamping structure clamping can be realized by the rotation of this clamping structure, simple, convenient.

In addition; those skilled in the art will be appreciated that; above mode of execution is only used to illustrate that the utility model and being not used as limits the utility model; as long as within the utility model spirit, the suitable change do above embodiment and change all drop within the claimed scope of the utility model.

Claims (17)

1. a clamping structure, it switching part comprising holding section and be connected with this holding section, this switching part is for being connected to load-bearing member by this clamping structure, it is characterized in that: this holding section can be connected to adjust the angle relative to this switching part with this switching part rotationally, and this clamping structure also comprises the damping piece be arranged between this holding section and this switching part; This damping piece provides the rotational resistance during rotation of this holding section relative to this switching part, and when the external force of rotating this holding section disappears, it is arbitrarily angled that this rotational resistance can make this holding section remain on relative to this switching part.

2. clamping structure as claimed in claim 1, it is characterized in that: the second Fastener that this holding section comprises the first Fastener and is rotationally connected with this first Fastener, this second Fastener is connected to this switching part.

3. clamping structure as claimed in claim 2, it is characterized in that: this first Fastener comprises drain pan, be connected to the pin-joint part of this drain pan and be connected to the guiding element of this drain pan and this pin-joint part, this guiding element provides guiding relative to the motion of this pin-joint part for this drain pan.

4. clamping structure as claimed in claim 3, it is characterized in that: this first Fastener comprises extension spring, and this guiding element offers guiding groove, one end of this extension spring is connected to this drain pan, and the other end is connected to this pin-joint part through this guiding groove.

5. clamping structure as claimed in claim 3, is characterized in that: this first Fastener also comprises base plate and retaining member, and this base plate is fixedly connected on this drain pan; What this retaining member can rotate is connected to this base plate, and it is for gripping objects.

6. clamping structure as claimed in claim 5, it is characterized in that: this first Fastener also comprises link arm, what this retaining member can rotate by this link arm is connected to this drain pan.

7. clamping structure as claimed in claim 6, is characterized in that: this base plate offers the first accepting groove, and this link arm drives this retaining member to rotate relative to this base plate and is contained in this first accepting groove with part.

8. clamping structure as claimed in claim 6, is characterized in that: this retaining member offers receiving groove, when this retaining member clamps this object, the corner section of this object be contained in this receiving groove, from this clamping structure landing when avoiding this object to be subject to vibrating.

9. clamping structure as claimed in claim 5, is characterized in that: this first Fastener also comprises the carrier board and the first elastic component that are fixedly connected on this base plate, and this first elastic component is arranged on this carrier board, and it is for cushioning the contact of this object and this carrier board.

10. clamping structure as claimed in claim 5, it is characterized in that: this guiding element is provided with limiting stopper, this base plate is provided with stop block, and this limiting stopper and this stop block offset the movement travel limiting this guiding element.

11. clamping structures as claimed in claim 2, is characterized in that: this switching part also comprises revolving part and is connected to the chuck of this carrier; This second Fastener comprises the first connecting body, and this revolving part is through this damping piece, this first connecting body and this chuck, and this damping piece supports rotational resistance when to provide its rotation relative to this switching part of this holder on this revolving part.

12. clamping structures as claimed in claim 11, it is characterized in that: this second Fastener also comprises joint and the second elastic component, this joint is fixedly connected on this first connecting body; This second elastic component is arranged on this joint and this first connecting body, and it is for gripping objects.

13. clamping structures as claimed in claim 11, is characterized in that: this switching part also comprises back-up ring and nut, and this revolving part is through this nut and this back-up ring, and this back-up ring is between this nut and this first connecting body, and it is for preventing this nut loosening.

14. clamping structures as claimed in claim 13, is characterized in that: this carrier comprises body and is connected to the optical axis of this body, and this optical axis is successively through this damping piece, this first connecting body, this back-up ring and this nut; This back-up ring offers interior annular distance, and this optical axis includes fitting surface, and this fitting surface coordinates to limit the rotation of this back-up ring around this optical axis with this interior annular distance.

15. clamping structures as claimed in claim 14, is characterized in that: this revolving part comprises thread spindle, and this thread spindle is contained in this chuck successively through this optical axis and this body portion.

16. clamping structures as claimed in claim 11, it is characterized in that: this chuck comprises card-tight part, this card-tight part comprises multiple gear teeth, the plurality of gear teeth on an end face of this chuck along the circumferencial direction spread configuration of this chuck.

17. 1 kinds of The Cloud Terraces, its bag main body, is characterized in that: this The Cloud Terrace also comprises the clamping structure described in any one of claim 1-15, and this main body is this load-bearing member, and this clamping structure is connected to this main body by this clamping part.