CN206594432U - Head load mounting assembly, head and capture apparatus - Google Patents

Abstract

A kind of head loads mounting assembly, and it is used to slidably be installed on head support to adjust the center of gravity for the load being installed in the head load mounting assembly.The second pedestal and fastener that the head load mounting assembly includes the first pedestal, slidably can be connected with first pedestal.First pedestal is used to be connected and slide in the first direction with the head support.Second pedestal is provided with mounting structure, and the mounting structure is used to load being connected to second pedestal.Second pedestal can in a second direction be slided on first pedestal.The fastener is connected to first pedestal and can be while locking installation site of the First body phase for the installation site relative to the head support and second pedestal relative to first pedestal.The utility model further relates to a kind of with head load mounting assembly head and capture apparatus.

Description

Head load mounting assembly, head and capture apparatus

Technical field

The utility model is related to shooting field, more particularly to a kind of head loads mounting assembly and negative with the head Carry the head and capture apparatus of mounting assembly.

Background technology

When the device of the acquisition external information such as camera, video camera or sensor and information is mounted on head, head energy Enough stablize these loads, by taking camera as an example, head can make camera realize steady shot and adjustment shooting angle.The head The camera motion can be driven at least one rotation direction, the head has the motor in the rotation direction. When being connected to head, the center of gravity of the camera will fall in the rotating shaft of the rotation direction, to avoid the motor from holding By unexpected torsion, the shooting experience of influence user and the service life of head.It is therefore desirable to be able to which adjustment is described in real time The center of gravity of camera, meanwhile, the relative position of the camera how is quickly and easily fixed after adjustment center of gravity, is also to need solution badly Certainly the problem of.

Utility model content

In view of this, it is necessary to provide a kind of head for avoiding above mentioned problem load mounting assembly, it is negative with the head Carry the head and capture apparatus of mounting assembly.

A kind of head loads mounting assembly, and it is used to slidably be installed on head support is installed in the cloud to adjust The center of gravity of load in platform load mounting assembly.Head load mounting assembly include the first pedestal, can slidably with institute State the second pedestal and fastener of the first pedestal connection.First pedestal is used to be connected with the head support and along the Slide in one direction.Second pedestal is provided with mounting structure, and the mounting structure is used to load being connected to described second Body.Second pedestal can in a second direction be slided on first pedestal.The fastener is connected to the First Body simultaneously can lock the First body phase simultaneously for the installation site relative to the head support and described second Installation site of the pedestal relative to first pedestal.

Further, the fastener includes the first abutting part, the second abutting part and actuator, and described first pushes against Part and the second abutting part can actively be arranged at the first pedestal, the actuator abut described first push against part and Described second pushes against part, and the actuator can drive described first to push against part simultaneously and push against the head support and described second Push against part and push against second pedestal, to lock the First body phase for the peace relative to the head support simultaneously The installation site of holding position and second pedestal relative to first pedestal.

Further, the actuator can drive described first to push against part and second abutting in different directions Part.

Further, first pedestal offers adaptation groove and accepting groove, and the adaptation groove has towards the cloud The opening of platform support, the accepting groove has the opening towards second pedestal, and the first abutting part can be received actively The adaptation groove is dissolved in, the second abutting part can actively be contained in the accepting groove, and the actuator can drive institute The opening that the first abutting part stretches out the adaptation groove is stated, so that described first pushes against the part abutting head support, and can be driven Dynamic described second pushes against the opening that part stretches out the accepting groove, so that described second pushes against part abutting second pedestal.

Further, the actuator includes stud section, the linkage section being fixedly connected with stud section, positioned at the spiral shell Pressure section and briquetting between shell of column and the linkage section, the stud section are threadedly coupled and passed through with the described second abutting part Screw-driven mode drives described second to push against part motion, and the linkage section rotationally through the briquetting and can make described support Splenium presses on the briquetting, and the briquetting is abutted with the described first abutting part, and the pressure section passes through the screw-driven The briquetting motion is oppressed in reaction, and then drives described first to push against part motion.

Further, the first abutting part passes through inclined-plane cooperation with the briquetting and is driven so that described first pushes against part The direction of motion it is different from the direction of motion of the briquetting.

Further, described first push against part and include the first bearing surface and relative to first bearing surface inclined the One inclined-plane, the briquetting includes the second inclined-plane corresponding to first inclined-plane, and the first abutting face can push against the cloud Platform support, the second inclined-plane of the briquetting is connected to first inclined-plane.

Further, the first abutting part offers relief portion, and the relief portion runs through first inclined-plane, described to keep away Portion is allowed to enable to the first abutting part to avoid the linkage section and coordinate with the briquetting.

Further, the briquetting is provided with depression and perforates, and the depression is supported positioned at the briquetting towards described second One side surface of tight part, the perforation runs through the briquetting towards the described second side table for pushing against part from the bottom of the depression Face, the linkage section can rotationally pass through the perforation, and the pressure section presses on the bottom of the depression.

Further, the actuator also includes handle, and the handle passes through the end of the briquetting with the linkage section Rotation stop is connected, and the handle can be operable to rotate the stud section.

Further, the handle include cap portion, sleeved part and the shank being connected with the sleeved part, the cap portion and Rotation stop connection is formed between the linkage section, the sleeved part is sheathed on the cap portion and is connected with cap portion rotation stop.

Further, the outer peripheral face in the cap portion is formed with fin, and the inner surface of the sleeved part is formed with described in correspondence The groove of fin, the groove and the fin, which coordinate, to be made to form rotation stop connection between the shank and the cap portion.

Further, first pedestal includes door, and the door is covered on first pedestal and and described first There is gap, the sleeved part is located at the door, and the shank stretches out the door from the gap between pedestal.

Further, first pedestal has the first guidance part, and second pedestal has leads corresponding to described first Draw second guidance part in portion, first pedestal passes through first guidance part and second guidance part with second pedestal Mutual cooperation can be slidably connected.

Further, the first guiding position is formed at the strip bulge of two reverse sides of first pedestal, institute It is the strip groove for being formed at the opposed inner walls of the second pedestal two to state the second guidance part.

Further, second guidance part is dovetail groove.

Further, in addition to the first regulating part and the second regulating part, first regulation is arranged at the First One in body and the head support upper and can drive another in first pedestal and the head support Motion, to adjust relative position of the First body phase for the head support；Second regulating part connection described the One pedestal and second pedestal simultaneously can drive second pedestal to be moved relative to second pedestal.

Further, second regulating part drives second pedestal relative to institute by the way of threaded screw rod transmission State the motion of the first pedestal.

Further, the operating position of first regulating part and second regulating part loads in the head and installed The same side of component.

Further, the first direction and the second direction are in predetermined angle.

Further, the first direction is vertical with second direction.

A kind of head, including support, drive the electric machine assembly of the holder pivots, and above-mentioned head load installation group Part.The head load mounting assembly is installed on the support.

A kind of capture apparatus, including head and the picture shooting assembly for being installed on the head.The head include support with And above-mentioned head load mounting assembly.

Relative to prior art, head load mounting assembly locks described the simultaneously using same fastener Peace of one pedestal relative to the installation site relative to the support and second pedestal relative to first pedestal Holding position, it is simple and quick.

Brief description of the drawings

Fig. 1 is the stereogram of the capture apparatus of the utility model embodiment.

Fig. 2 is that the support of Fig. 1 capture apparatus is connected with the stereogram of capture apparatus.

Fig. 3 is the stereogram of another angle of the mounting assembly of Fig. 1 capture apparatus.

Fig. 4 is the exploded view of Fig. 3 mounting assembly.

Fig. 5 is another angular views of Fig. 4 mounting assembly.

Main element symbol description

Capture apparatus 100

Head 10

Support 11

First crossbearer 111

Lead segment 1111

Groove 1112

Retaining wall 1113

Rack 1114

Second crossbearer 112

Vertical frame 113

Mounting assembly 12

First pedestal 12a

First split portion 121

First groove 121a

First installation portion 1211

Second installation portion 1212

First perforating 1214

First adaptation groove 1215

Second perforating 1216

Second adaptation groove 1217

Cooperating recesses 1218

Second split portion 122

Second groove 122a

Accepting groove 122b

Pilot hole 122c

Top surface 1221

Bottom surface 1222

First side 1223

Second side 1224

First end face 1225

Second end face 1226

First guidance part 1227

Fin 1228

Second pedestal 12b

Movable part 123

Recess 123a

Top surface 1231

Bottom surface 1232

First end face 1233

Second end face 1234

Second guidance part 1235

Supporting part 1236

Axis hole 1236a

First mounting structure 1237

Connecting hole 1237a

Second mounting structure 1238

First assembly hole 1238a

Shaft-jointed hole 1238b

Groove 1238c

Fixing hole 1238d

Alignment pin 1238e

Connecting portion 124

Fixture 1241

Second assembly hole 1241a

Positioning hole 1241b

Guiding block 1241c

Block 1241d

Perforating 1241e

House depression 1241f

Snapin part 1241g

Sliding part 1242

Engage groove 1242a

Attachment structure 1242b

Locking piece 1243

Sliding part 1243a

Drive division 1243b

Bottom plate 1243c

Clamping block 1243d

First side 1243e

Second side 1243f

End wall 1243g

Be open 1243h

Snapin part 1243i

Support depression 1243j

Rotating disk 1243k

Cam 1243l

Operating portion 1243m

Rotating shaft 1243n

First regulating part 12c

First knob 1251

First drive division 1252

Rotating shaft 1253

Pin-and-hole 1253a

Bearing part 1254

Axis hole 1254a

Fastener 12d

First pushes against part 1261

First bearing surface 1261a

First inclined-plane 1261b

Bottom surface 1261c

Relief portion 1261d

Actuator 1262

Stud section 1262a

Linkage section 1262b

Pressure section 1262c

Briquetting 1262d

First surface 1262e

Second surface 1262f

Second inclined-plane 1262g

Be recessed 1262h

Perforate 1262i

Handle 1263

Sleeved part 1263a

Shank 1263b

Cap portion 1263c

Fin 1263d

Groove 1263e

Second pushes against part 1264

Second bearing surface 1264a

Mating surface 1264b

Mating holes 1264c

Second regulating part 12e

Second knob 1271

Second drive division 1272

First connection end 1272a

Second connection end 1272b

Door 129

Motor 13

Load 20

Hand held structures 30

Balance weight assembly 40

Following embodiment will further illustrate the utility model with reference to above-mentioned accompanying drawing.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is carried out Clearly and completely describe, it is clear that described embodiment is only a part of embodiment of the utility model, rather than whole Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not under the premise of creative work is made The every other embodiment obtained, belongs to the scope of the utility model protection.

It should be noted that when component is referred to as " being fixed on " another component, it can be directly on another component Or can also have component placed in the middle.When a component is considered as " connection " another component, it can be directly connected to To another component or it may be simultaneously present component placed in the middle.When a component is considered as " being arranged at " another component, it Can be set directly on another component or may be simultaneously present component placed in the middle.Term as used herein is " vertical ", " level ", "left", "right" and similar statement for illustrative purposes only.

Unless otherwise defined, all of technologies and scientific terms used here by the article is led with belonging to technology of the present utility model The implication that the technical staff in domain is generally understood that is identical.It is herein to be in term used in the description of the present utility model The purpose of description specific embodiment, it is not intended that in limitation the utility model.Term as used herein " and/or " include The arbitrary and all combination of one or more related Listed Items.

Fig. 1 and Fig. 2 is referred to, the capture apparatus 100 of the utility model embodiment includes head 10 and is arranged at institute State the load 20 on head 10.The head 10 is used to stablize the load 20 and can change the direction of the load 20, angle Degree.In present embodiment, the load 20 is camera, and it can shoot video and/or image, specifically, and the camera can be with It is slr camera, video camera, card camera, monitoring camera or electronic equipment with shoot function (for example, mobile phone, flat Plate computer etc.).

The head 10 can be three axle heads, two axle The Cloud Terraces or single shaft head, in present embodiment, the head 10 For three axle heads, the head 10 includes support and the motor for driving the holder pivots, and the support can be carried The load 20 simultaneously can drive the load 20 around the axial rotation of the head 10 under the driving of the motor, according to described The quantity of the difference of the rotating shaft of head, the motor and the support can be repeated no more with different, and following emphasis is directed to Support 11 provided with mounting assembly 12 is described in detail and illustrated.In present embodiment, the support 11 can pass through the peace Arrangement 12 carries the load 20 and can be under the driving of corresponding motor 13 around an axis of rotation, specifically to diagram In embodiment, the support 11 can be rotated around axle r1, specifically, and the axle r1 is the pitching (pitch) of the head 10 Axle.It is appreciated that the head 10 can include rotating around other axles (such as roll axles, yaw axles) of the head 10 Support (not shown) and motor for driving the holder pivots, no longer specifically describe.

In embodiment illustrated, the head 10 is connected with hand held structures 30, and the capture apparatus 100 is clapped for hand-held Take the photograph equipment.It is appreciated that the head 10 can also be connected with loose impediment (for example, unmanned plane, unmanned vehicle etc.), and then structure Into removable capture apparatus (for example, equipment of taking photo by plane, ground moving capture apparatus).

In embodiment illustrated, the substantially rectangular frame-shaped of the support 11, including the first crossbearer 111, the second crossbearer 112 and two vertical frames 113.First crossbearer 111 substantially be arranged in parallel with second crossbearer 112, two vertical frames 113 are substantially parallel to each other setting, and first crossbearer 111, second crossbearer 112 are substantially vertical with the vertical frame 113 to be set.

When the capture apparatus 100 is normally placed, first crossbearer 111 is located at lower section (direction close to ground), Second crossbearer 112 is (direction away from ground) above.

First crossbearer 111 is substantially in be provided with lead segment 1111 on strip row, first crossbearer 111, described to lead Draw section 1111 and can match somebody with somebody to merge with the mounting assembly 12 and guide the stroke of the mounting assembly 12.First crossbearer 111 in The lower section of the lead segment 1111 sets fluted 1112, and first crossbearer 111 distinguishes shape in the two ends of the groove 1112 Into there is retaining wall 1113, the retaining wall 1113 is used to limit motion bit of the mounting assembly 12 relative to first crossbearer 111 Put.

In present embodiment, the lead segment 1111 is provided with rack 1114, the length direction of the rack 1114 and institute The length direction for stating lead segment 1111 is almost parallel.More specifically, the teeth of the rack 1114 and the length of rack 1114 Direction is obliquely installed.The rack 1114 can be integrally formed with the lead segment 1111 can also it is separately formed after be fixedly connected In the lead segment 1111.

The mounting assembly 12 include the first pedestal 12a, the second pedestal 12b, the first regulating part 12c, fastener 12d and Second regulating part 12e.The first pedestal 12a is arranged on first crossbearer 111 and can existed along first crossbearer 111 First direction d1 is slided, and the second pedestal 12b is arranged on the first pedestal 12a and can be along the first pedestal 12a Slided on second direction d2.The first direction d1 is different from the second direction d2 and is mutually in predetermined angle, this implementation In mode, the first direction d1 is substantially vertical with the second direction d2, specific in embodiment illustrated, and described first Direction d1 is roughly parallel to the pitch axles of the head, roll axles of the second direction d2 parallel to the head.It is described First regulating part 12c and the fastener 12d are arranged at the first pedestal 12a.The first regulating part 12c can drive The first pedestal 12a is moved along the first direction d1.It is relative that the fastener 12d can lock the first pedestal 12a In the position of first crossbearer 111 and the second pedestal 12b relative to the first pedestal 12a relative positions, make institute State that the first pedestal 12a can not be moved relative to first crossbearer 111 and the second pedestal 12b can not be relative to described first Pedestal 12a is moved.The second regulating part 12e is arranged at the second pedestal 12b, and the second regulating part 12e can drive The second pedestal 12b is moved along the second direction d2.

Also referring to Fig. 3-5, it is illustrated that embodiment in, the first pedestal 12a is sheathed on first crossbearer 111 On.Specifically, the first pedestal 12a includes the first split portion 121 and the second split portion 122, first split portion 121 And the mutual split of second split portion 122 constitutes the first pedestal 12a.First split portion 121 is recessed with first Groove 121a, second split portion 122 has the second groove 122a, in first split portion 121 and second split portion During 122 mutual split, the first groove 121a and the second groove 122a collectively forms overall confession first crossbearer 111 perforation passed through.

First split portion 121 includes the first installation portion 1211 and be connected with first installation portion 1211 second Installation portion 1212, first installation portion 1211 is used to install the first regulating part 12c, and second installation portion 1212 is used for The fastener 12d is installed.In present embodiment, first installation portion 1211 is integrated into second installation portion 1212 Type.First installation portion 1211 is general " l " shape, and first installation portion 1211 encloses jointly with second installation portion 1212 Into the first groove 121a.

First split portion 121 offer the first perforating 1214 that can be passed through for the first regulating part 12c with And first adaptation groove 1215.First perforating 1214 is opened in first installation portion with first adaptation groove 1215 In 1211, first perforating 1214 is connected with first adaptation groove 1215, and first perforating 1214 runs through institute The side surface that the first installation portion 1211 deviates from second installation portion 1212 is stated, first adaptation groove 1215 is through described the One groove 121a bottom surface.First perforating 1214 allows the first regulating part 12c relative to first split portion 121 rotate.First adaptation groove 1215 substantially part-cylindrical groove, first adaptation groove 1215 is recessed in described first Groove 121a bottom surface is formed with opening, and the opening allows the part-structure of the first regulating part 12c to protrude from described first Installation portion 1211 is towards the surface of first installation portion 1211 so that the first regulating part 12c can be with the lead segment 1111 move with driving the first pedestal 12a is merged along the first direction d1.It is appreciated that in other embodiments In, first adaptation groove 1215 can be other shapes, as long as not influenceing the first regulating part 12c drivings described first Pedestal 12a motion, will not be described here.

First split portion 121 is further opened with cooperating recesses 1218, and the cooperating recesses 1218 are worn positioned at described first Apertured 1214 is connected away from one end of first adaptation groove 1215 and with first perforating 1214.In present embodiment, The cooperating recesses 1218 are recessed from the lateral surface of first installation portion 1211, and first perforating 1214 coordinates from described The position that the bottom surface extension of recess 1218 is connected as first adaptation groove 1215.The cooperating recesses 1218 can with it is described First regulating part 12c part-structure coordinates, to lift assembling and performance accuracy.

First split portion 121 offers the second perforating 1216 that can be passed through for the fastener 12d and Two adaptation grooves 1217.Second perforating 1216 is opened in second installation portion 1212 with second adaptation groove 1217 Interior, second perforating 1216 is connected with second adaptation groove 1217, and second perforating 1216 is through described the Two installation portions 1212 deviate from a side surface of second split portion 122, present embodiment, second perforating 1216 Bearing of trend is approximately perpendicular to the length direction of the lead segment 1111, and second adaptation groove 1217 is installed through described second Portion 1212 is towards a side surface of second split portion 122, in addition, second adaptation groove 1217 also extends through second peace Dress portion 1212 is connected towards a side surface of first installation portion 1211 with the first groove 121a.Described second wears Apertured 1216 allows the part-structure of the fastener 12d to pass through and can be rotated relative to first split portion 121.It is described The substantially rectangular groove of second adaptation groove 1217, second adaptation groove 1217 allows the part-structure direction of the fastener 12d The first groove 121a protrudes from second installation portion 1212 so that it is horizontal that the fastener 12d can push against described first Frame 111, to lock relative positions of the first pedestal 12a relative to first crossbearer 111.Second adaptation groove 1217 Also allow the part-structure of the fastener 12d close or moved away from second split portion 122.In present embodiment, The cross sectional dimensions of second adaptation groove 1217 is more than the cross sectional dimensions of second perforating 1216 so that the fastening Part 12d part-structure can be moved in second adaptation groove 1217, but will not be deviate from from second perforating 1216.

It is appreciated that in other implementations, second adaptation groove 1217 can be other shapes, as long as can Above-mentioned functions are realized, be will not be described here.

The generally rectangular shaped bulk of second split portion 122, it include top surface 1221, bottom surface 1222, first side 1223, Second side 1224, first end face 1225 and second end face 1226.The top surface 1221 is disposed opposite to each other with the bottom surface 1222, The first side 1223 is disposed opposite to each other with the second side 1224, the first end face 1225 and the second end face 1226 are disposed opposite to each other.The bottom surface 1222 is towards first split portion 121, and the top surface 1221 is towards second pedestal 12b.The second groove 122a is recessed formation from the bottom surface 1222 to the top surface 1221.

Second split portion 122, which is further opened with accepting groove 122b, the accepting groove 122b, can house the fastener 12d part-structure, and allow the part-structure close relative to second split portion 122 or remote described second Body 12b movement slips so that the part-structure of the fastener 12d pushes against the second pedestal 12b, to lock described second Relative positions of the body 12b relative to the first pedestal 12a.In embodiment illustrated, the accepting groove 122b is substantially in square Shape channel-shaped, the accepting groove 122b is recessed from the top surface 1221 of second split portion 122 towards the bottom surface 1222 and formed.This In embodiment, the accepting groove 122b and the second groove 122a is mutual along the direction for being roughly parallel to the top surface 1221 Stagger, and do not connect mutually, more specifically, the second groove 122a is set close to the first end face 1225, it is described to house Groove 122b is set close to the second end face 1226.

Second split portion 122 offers pilot hole 122c, and the pilot hole 122c is passed through from the first end face 1225 Wear to the second end face 1226.In present embodiment, the pilot hole 122c is the female screwed hole of tool, the assembling Hole 122c bearing of trend is roughly parallel to the second direction d2.

Second split portion 122 includes the first guidance part 1227, and first guidance part 1227 can be with described second Pedestal 12b coordinates the guiding directions of motion of the second pedestal 12b relative to the first pedestal 12a.In present embodiment, institute State the first guidance part 1227 and be respectively formed in the first side 1223 and the strip of the second side 1224 is convex for two Rise, two projections are arranged in parallel and are roughly parallel to the second direction.Each described projection is substantially wedge shaped Projection, two raised first guidance parts 1227 for constituting substantially swallow-tail form.It is appreciated that in other embodiments In, the shape of first guidance part 1227 and position can do other suitable changes according to what is specifically needed, for example, each The projection of side can with cross section can be semicircle, ellipse, triangle, rectangle etc., in addition, the projection per side There can be multiple discontinuous projections to be formed along second direction d2 arrangements.

Fin 1228 is also formed with second split portion 122, the fin 1228 is substantially elongated and corresponds to institute State pilot hole 122c protrusions to be formed on the top surface 1221, the one side of fin 1228 can strengthen the pilot hole 122c Structural strength at position, prevents second split portion 122 from making to damage at the pilot hole 122c positions because stress is excessive, On the other hand it can also coordinate with the second pedestal 12b and be transported as the second pedestal 12b relative to the first pedestal 12a Dynamic guiding structural, to form the auxiliary guidance part in addition to first guidance part 1227.

The second pedestal 12b is used to install the load 20, and can drive the load 20 along relative to described the One pedestal 12a is moved along the second direction.In embodiment illustrated, the second pedestal 12b include movable part 123 and Connecting portion 124.The movable part 123 can actively be connected with the first pedestal 12a, to adjust the installation of the load 20 The load 20 can be connected to the second pedestal 12b by position, the connecting portion 124.

The movable part 123 substantially be in strip, including top surface 1231, the bottom surface 1232 opposite with the top surface 1231, First end face 1233 and the second end face 1234 opposite with the first end face 1233.The bottom surface 1232 is towards described first Pedestal 12a, the direction of the first end face 1233 is identical with the direction of the first end face 1225 of second split portion 122, institute The direction for stating second end face 1234 is identical with the direction of the second end face 1226 of second split portion 122.The top surface 1231 It can connect, the connecting portion 124 is installed.The movable part 123 includes correspondence leads with the second of first guidance part 1227 Draw portion 1235, second guidance part 1235 can coordinate guiding the first pedestal 12a phases with first guidance part 1227 For the direction of motion of the second pedestal 12b.In present embodiment, second guidance part 1235 is to be formed at the activity Two guide grooves in portion 123, specifically, it is big that the bottom surface 1232 of the movable part 123 is formed with recess 123a, the recess 123a Cause as rectangular recess, the guide groove is the strip groove for two opposite inner faces for being opened in the recess 123a respectively.Each The rough wedge channel-shaped of guide groove, second guidance part 1235 of two guide groove formation substantially dove-tail.Can be with Understand, the shape and set location of second guidance part 1235 can make any appropriate change according to specific demand Change, for example, corresponding to the different set locations and shape of cross section of first guidance part 1227, second guidance part 1235 set location and shape of cross section can be with different, and here is omitted.

The movable part 123 includes two supporting parts 1236 being oppositely arranged, and the supporting part 1236 is used to carry described Second regulating part 12e simultaneously allows the second regulating part 12e to be rotated relative to the second pedestal 12b.In present embodiment, institute State supporting part 1236 and be arranged at the movable part 123 respectively close to the first end face 1233 and the second end face 1234 Bottom.Specifically, the supporting part 1236 is the projection of the bottom surface relative to the recess 123a, the supporting part 1236 and institute State bottom surface 1232 substantially concordant.

Each described supporting part 1236 offers axis hole a 1236a, the axis hole 1236a and can adjusted with described second Section part 12e is rotatably engaged, and at least one described axis hole 1236a limits the second regulating part 12e along the second party Moved to d2.It is through hole close to the axis hole 1236a of the first end face 1233, close to described second in present embodiment The axis hole 1236a of end face 1234 is blind hole.

It is appreciated that the supporting part 1236 can be integrally formed with the movable part 123, after can also being molded respectively It is connected with each other using connector.

The movable part 123 includes the first mounting structure 1237 and the second mounting structure for being formed at the top surface 1231 1238, first mounting structure 1237 is set close to the first end face 1233, and second mounting structure 1238 is close to institute Second end face 1234 is stated to set.First mounting structure 1237 is used to install balance weight assembly 40 (referring to Fig. 1), this embodiment party In formula, first mounting structure 1237 is strip projection, and it offers multiple connecting hole 1237a, multiple connecting holes 1237a along direction arrangement substantially parallel with the second direction d2, the connecting hole 1237a can position, it is fixed described in match somebody with somebody The installation site of part 40 is recombinated, the balance weight assembly 40 optionally can be connected with any connecting hole 1237a, so that described match somebody with somebody Restructuring part 40 can match the purpose that gravity balance is reached in different loads 20.In present embodiment, the connecting hole 1237a is Screwed hole.

Second mounting structure 1238 is used to install the connecting portion 124.In embodiment illustrated, second peace Assembling structure 1238 includes the first assembly hole 1238a and shaft-jointed hole 1238b.The first assembly hole 1238a is used to be fixedly connected The part-structure of the connecting portion 124, the shaft-jointed hole 1238b can rotationally connect the part-structure of the connecting portion 124. In present embodiment, the first assembly hole 1238a is screwed hole.The shaft-jointed hole 1238b, which is located on the top surface 1231, to be had There is the groove 1238c of lateral openings bottom, the groove 1238c is capable of the rotational structure of connecting portion 124 described in partial receipt, The lateral openings allow the rotational structure of the connecting portion 124 to rotate predetermined angle.Second mounting structure 1238 Fixing hole 1238d and alignment pin 1238e, the fixing hole 1238d including being opened in top surface 1231 deviate the shaft-jointed hole 1238b is located at the groove 1238c sides, and the alignment pin 1238e, which can be fixed, to be contained in the fixing hole 1238d, and Part protrudes from the fixing hole 1238d, and the alignment pin 1238e can position the connecting portion 124 in the movable part 123 On installation site and can prevent the connecting portion 124 anti-dress.

The connecting portion 124 includes fixture 1241, sliding part 1242 and locking piece 1243.The fixture 1241 is consolidated Surely the movable part 123 is connected to, the sliding part 1242 can be slidably connected to the fixture 1241, the locking piece 1243 be arranged at the fixture 1241 and can be moved relative to the fixture 1241 with lock the sliding part 1242 or Person releases the locking to the sliding part 1242.

The fixture 1241 is generally rectangular shaped, and the fixture 1241 is formed with corresponding to first assembly hole 1238a the second assembly hole 1241a, when the fixture 1241 is installed on the movable part 123, second assembly hole 1241a is aligned with the corresponding first assembly hole 1238a respectively.The fixture 1241 also includes corresponding to the alignment pin 1238e positioning hole 1241b, the positioning hole 1241b can be engaged the positioning fixture with the alignment pin 1238e 1241 installation site.

The fixture 1241 includes guiding block 1241c and block 1241d, the guiding block 1241c and the gear Block 1241d protrude from the fixture 1241 away from the movable part 123 a side surface set, the guiding block 1241c with And the block 1241d is in substantially strip, and length direction is roughly parallel to the first direction d1.The guiding block 1241c one end away from the fixture 1241, which slopes inwardly, to be extended, to form snapin part 1241g, the snapin part 1241g The sliding part 1242 can be caught in and the glide direction of the sliding part 1242 can be guided.It is described to lead in present embodiment It is two spaced projections to draw block 1241c, it will be understood that the projection that the guiding block 1241c can also be integral.

The block 1241d is used to keep out the locking piece 1243 so that the locking piece 1243 can be slided with described Part 1242 coordinates.The fixture 1241 offers perforating 1241e at the position of the block 1241d, described to wear Hole 1241e allows the part-structure of the locking piece 1243 to pass through and coordinate with the sliding part 1242.In present embodiment, institute Perforating 1241e is stated for rectangular opening, and length direction is substantially parallel with the first direction d1, width is approximately perpendicular to institute State first direction d1.

The fixture 1241 is towards opening up collecting depression 1241f, the collecting depression on the surface of the movable part 123 The 1241f and perforating 1241e, the fixture 1241 is connected to after the movable part 123, described to house depression 1241f The part-structure of the sliding part 1242 can be housed, and allows the sliding part 1242 to house sliding in depression 1241f described It is dynamic.It is described to house the depression substantially rectangular channel-shaped of 1241f in present embodiment, it will be understood that the collecting depression 1241f Can be other shapes, if can above-mentioned functions, the utility model is not restricted to this.

The sliding part 1242 is used to connect the load 20 and can adjust the load 20 in the mounting assembly 12 On installation site.In present embodiment, the substantially square bulk of the sliding part 1242, the sliding part 1242 includes two Engage the two opposite sides that groove 1242a, the engaging groove 1242a are located at the sliding part 1242 respectively, each institute Engaging groove 1242a substantially strips are stated, the length direction of the engaging groove 1242a is roughly parallel to the first direction d1.In this implementation embodiment, two engaging groove 1242a substantially constitute the structure for dove-tail.The sliding part It is additionally provided with 1242 in the attachment structure 1242b for connecting, installing the load 20, present embodiment, the attachment structure 1242b is the groove for being formed at the sliding part 1242 in the side surface of fixture 1,241 1, the attachment structure 1242b is the groove of substantially kidney-shaped.

The locking piece 1243 includes sliding part 1243a and can drive the drive division of the sliding part 1243a motions 1243b.The sliding part 1243a includes bottom plate 1243c and is convexly equipped in the clamping block 1243d of the bottom plate 1243c, described Clamping block 1243d protrudes from the bottom plate 1243c away from a side surface of the movable part 123 and close to the bottom plate 1243c Side set, i.e., described sliding part 1243a and the general " l " shape connections of the bottom plate 1243c.The sliding part 1243a energy It is enough to house depression 1241f with described with merging and house slip in the 1241f that is recessed, present embodiment described, the sliding part 1243a is generally rectangular shaped frame-shaped, including first side 1243e, second side 1243f and end wall 1243g, the first side 1243e, the second side 1243f, the end wall 1243g and the clamping block 1243d surround opening 1243h, institute jointly State the end wall 1243g and clamping block 1243d to be oppositely arranged, the first side 1243e is relative with the second side 1243f Set and almost parallel.The clamping block 1243d slopes inwardly away from one end of the bottom plate 1243c to be extended, and is caught in being formed Portion 1243i, the snapin part 1243i can be adapted with an engaging groove 1242a.The court of the clamping block 1243d It is formed with to a side surface of the block 1241d and supports depression 1243j, the depression 1243j that supports is for elastic component (to be schemed Do not show) it is held between the locking piece 1243 and the fixture 1241.

The drive division 1243b includes rotating disk 1243k, cam 1243l and operating portion 1243m, described cam 1243l Deviate from a side surface of the movable part 123 in the rotating disk 1243k, the operating portion 1243m is connected to the rotating disk 1243k Outer peripheral face and away from the rotating disk 1243k center extension preset distance.The center position of the rotating disk 1243k is formed There are rotating shaft 1243n, the rotating shaft 1243n to protrude from the rotating disk 1243k towards a side surface of the movable part 123 and can It is rotatably engaged with the shaft-jointed hole 1238b.It is appreciated that in other implementations, the rotating disk 1243k can also Omit, and the cam 1243l and the operating portion 1243m are directly connected to the rotating shaft 1243n.

The first regulating part 12c can drive the first pedestal 12a to be moved relative to first crossbearer 111, with Adjust installation sites of the first pedestal 12a relative to first crossbearer 111.In present embodiment, first regulation Part 12c includes the first knob 1251 and the first drive division 1252, and first knob 1251 can drive described first Drive division 1252 is rotated.First drive division 1252 is fixedly linked with a rotating shaft 1253, the two ends protrusion of the rotating shaft 1253 In the both sides of first drive division 1252, first knob 1251 can be sheathed in the rotating shaft 1253 and with it is described Rotating shaft 1253 forms rotation stop connection.Specifically, one end of the direction of the rotating shaft 1,253 first knob 1251 is offered Pin-and-hole 1253a, can be connected between the rotating shaft 1253 and first knob 1251 by the mutual rotation stop of pin (not shown). It is appreciated that can also be connected between the rotating shaft 1253 and first knob 1251 using form fit formation rotation stop, For example, one end of the direction of the rotating shaft 1,253 first drive division 1252 is polygon cylinder, first knob 1251 offer the polygonal socket being adapted with the polygon cylinder, in addition, the rotating shaft 1253 can also be using ellipse The regularly or irregularly shape such as shape, quincunx, " one " font, " ten " font.In present embodiment, first drive division 1252 be gear, and it can be meshed with the rack 1114 on first crossbearer 111, in present embodiment, described One drive division 1252 is helical gear, i.e., axes of rotation skew predetermined angle of the length direction relative to the gear of the teeth of described gear Degree, first drive division 1252 is engaged using the helical gear structure with the helical teeth tooth of the rack 1114, can be increased The area of engagement, reduces fit clearance, increases the stability and reliability of transmission.

The first regulating part 12c also includes bearing part 1254, and the bearing part 1254 offers axis hole 1254a, described Axis hole 1254a can rotationally coordinate with the rotating shaft 1253.The first regulating part 12c can be with first split Portion 121 is fixedly connected, and the bearing part 1254 can be using modes and described first such as threaded connection, bonding, welding or engagings Split portion 121 is fixedly connected.In present embodiment, the first axle bearing member 1254 can be fixedly connected on first adaptation groove 1215 towards on the side inwall of the first regulating part 12c.

It is appreciated that in other embodiments, the bearing part 1254 can with the one of the second split portion 122 into Type；Or, the bearing part 1254 can be omitted, and directly open up axis hole in second split portion 122.

The fastener 12d is used to the first pedestal 12a being locked in first crossbearer 111, with fixed described the One pedestal 12a and first crossbearer 111 relative position；And can be by the second pedestal 12b relative to the First Body 12a relative positions.The fastener 12d includes first and pushes against the abutting of part 1261, second part 1264, actuator 1262 and hand Handle 1263.The first abutting part 1261 can push against first crossbearer 111 under the driving of the actuator 1262, described Second abutting part 1264 can push against the second pedestal 12b under the driving of the actuator 1262, and the handle 1263 is permitted Perhaps user's manipulation actuator 1262 drives the first abutting part 1261 and the second abutting part 1264 to move.Institute The first abutting part 1261 is stated substantially in triangular prism shape, including the first bearing surface 1261a, the first inclined-plane 1261b and bottom surface 1261c, the first bearing surface 1261a shape can be adapted with the side surface shape of first crossbearer 111, to increase With the contact area of first crossbearer 111, fixed stability is lifted.The first inclined-plane 1261b can be with the driving Part 1262 is slidably matched.The first abutting part 1261 is offered in relief portion 1261d, present embodiment, the relief portion 1261d runs through the first inclined-plane 1261b and bottom surface 1261c, and the relief portion 1261d enables to described first to support Tight part 1261 coordinates with the actuator 1262 and can moved towards first crossbearer 111.

In present embodiment, described second pushes against the generally rectangular shaped bulk of part 1264, and it is included towards second pedestal 12b the second bearing surface 1264a and mating surface 1264b opposite with the second bearing surface 1264a, second bearing surface 1264a can push against the second pedestal 12b.The mating surface 1264b offers what can be coordinated with the actuator 1262 In mating holes 1264c, present embodiment, the mating holes 1264c can be with the actuator 1262 with merge can be described Actuator 1262 drives and pushes against the second pedestal 12b.

In present embodiment, the actuator 1262 includes stud section 1262a, linkage section 1262b, positioned at stud section Pressure section 1262c between 1262a and the linkage section 1262b and briquetting 1262d, the stud section 1262a have and institute The external screw thread that mating holes 1264c internal thread is adapted is stated, the cooperation of stud the section 1262a and the mating holes 1264c make During the rotation for obtaining the stud section 1262a the first abutting part 1261 can be driven to move.The linkage section 1262b can be with It is connected through the briquetting 1262d with the handle 1263 formation rotation stop, before the concrete mode of the rotation stop connection is referred to Text description as described in the first regulating part 12c on rotation stop connection, will not be repeated here.

The pressure section 1262c protrudes from the week side of the stud section 1262a, forms substantially a ring-shaped flange, the spiral shell Shell of column 1262a is passed through after the briquetting 1262d, and the pressure section 1262c can be held on briquetting 1262d.

The briquetting 1262d is used to drive the first abutting part 1261 to push against first crossbearer 111.The implementation of diagram In mode, the substantially square bulks of briquetting 1262d, the briquetting 1262d includes first surface 1262e and described first Second surface 1262f opposite surface 1262e and the second inclined-plane 1262g that can be engaged with the first inclined-plane 1261b, The first surface 1262e pushes against part 1261 towards the second pedestal 12b, the second inclined-plane 1262g towards described first And be in predetermined angle of inclination with the first surface 1262e and second surface 1262f.

It is described that there is the first surface 1262e of the briquetting 1262d depression 1262h, the depression 1262h size to be more than Pressure section 1262c size, the briquetting 1262d is further opened with perforation 1262i, the perforation 1262i from the depression 1262h Bottom be through to the second surface 1262f, the perforation 1262i allows the linkage section 1262b to pass through and can be with institute Linkage section 1262b is stated to be rotatably engaged.The linkage section 1262b is small in the size of the opening of the bottom surface of the depression 1262h In the size of the pressure section 1262c.It is appreciated that in other embodiments, the depression 1262h can also be omitted, this Shi Suoshu perforation 1262i is through to the second surface 1262f from the first surface 1262e.

In embodiment illustrated, the second inclined-plane 1262g cuts shape by two reverse sides of the briquetting 1262d Into therefore, the second inclined-plane 1262g is included positioned at two inclined-planes of the briquetting 1262d two-phase drosal parts.Other real Apply in mode, the second inclined-plane 1262g can also be convexed to form by two reverse sides for protruding from the briquetting 1262d.

The handle 1263 can be connected with linkage section 1262b formation rotation stop, and the handle 1263 allows user Operation, so that the actuator 1262 can rotate and drive the first abutting part 1261 to move.Specifically, the handle 1263 include cap portion 1263c, sleeved part 1263a and the shank 1263b being connected with the sleeved part 1263a, the cap portion Rotation stop connection is formed between 1263c and the linkage section 1262b, the rotation stop connection is referred to what is connected previously for rotation stop Description, will not be repeated here.The outer peripheral face of the cap portion 1263c is formed with fin 1263d, specifically, and the fin 1263d is Multiple strip fins, the length direction of the fin 1263d is roughly parallel to the central shaft of the cap portion 1263c.It is described to be arranged Portion 1263a is substantially ring-like, and the inner surface of the sleeved part 1263a is formed with correspondence fin 1263d groove 1263e, When the sleeved part 1263a is sheathed on the cap portion 1263c, the groove 1263e and fin 1263d, which coordinates, makes institute State and rotation stop connection is formed between shank 1263b and the cap portion 1263c.It is appreciated that the sleeved part 1263a and the cap portion Between 1263c can other form fits formation rotation stops connections, for example, oval, quincunx, " one " font, " ten " font Deng regularly or irregularly shape, in addition, between the sleeved part 1263a and the cap portion 1263c can also by through The elements such as the rotation stop pin of the two realize that rotation stop is connected, or, the sleeved part 1263a and the cap portion 1263c can integrally into Type.

The shank 1263b extends preset distance to the outside of the sleeved part 1263a, can operating the hand It is more laborsaving during handle 1263.

In present embodiment, the first pedestal 12a also includes door 129, and the door 129 can prevent the handle 1263 come off from the actuator 1262.The door 129 substantially has the plate-like of inner recess, and the door 129 can It is covered on the first pedestal 12a and there is gap between the first pedestal 12a, so that the shank 1263b stretches out institute State outside door 129, convenient operation.Specifically, the door 129 can cover with first split portion 121 and form described Gap.

The second regulating part 12e can drive the second pedestal 12b to be moved relative to the first pedestal 12a, with Adjust installation sites of the second pedestal 12b relative to the first pedestal 12a.In present embodiment, second regulation Part 12e includes the second knob 1271 and the second drive division 1272, and second knob 1271 can drive described second Drive division 1272 is rotated.Specifically, second drive division 1272 is the externally threaded screw mandrel of tool, second drive division 1272 External screw thread is adapted with the internal thread of the pilot hole 122c, second drive division 1272 include the first connection end 1272a with And the second connection end 1272b opposite with the first connection end 1272a.The first connection end 1272a and described second Second drive division 1272 can be rotatably connected at the second pedestal 12b by connection end 1272b.Second knob Portion 1271 can form rotation stop between the second connection end 1272b and be connected, and the rotation stop connection is referred to any of the above part The stop connecting structure, is repeated no more.

The assembled relation of the capture apparatus 100 is introduced below with reference to Fig. 1 to Fig. 5：

The first regulating part 12c and fastener 12d.Specifically, one end of the rotating shaft 1253 is described in First perforating 1214, the bearing part 1254 is fixed on first split portion 121；First drive division 1252 is located at institute State in the first adaptation groove 1215, and part first drive division 1252 protrudes from the bottom surface of the first groove 121a, it is described First knob 1251 is connected with the rotating shaft 1253 through the end of first perforating 1214, first knob Rotation stop connection is formed between 1251 and the rotating shaft 1253.

The first abutting part 1261 and the briquetting 1262d are arranged in second adaptation groove 1217, and described the One inclined-plane 1261b and the second inclined-plane 1262g are bonded to each other, and the second abutting part 1264 is contained in the accepting groove 122b Interior, the linkage section 1262b sequentially passes through the perforation 1262i and the first pedestal 12a of the briquetting the second perforating 1216 are connected with the rotation stop of handle 1263, and the stud section 1262a connects with the described second mating holes 1264c for pushing against part 1264 Connect, the lid of door 129 sets the handle 1263 and is connected to the first pedestal 12a.

First split portion 121, from the two sides splicing of first crossbearer 111, is spliced with second split portion 122 First split portion 121 afterwards is sheathed on first crossbearer 111 with second split portion 122, first driving Portion 1252 is meshed with the rack of the lead segment 1111.First split portion 121 can be adopted with second split portion 122 Mutually spliced with bolt part, adhesive or fastener etc..

The connecting portion 124 of the second pedestal 12b is installed on the movable part 123.Specifically, the locking piece 1243 Drive division 1243b rotating shaft 1243n is inserted in the shaft-jointed hole 1238b, and the rotating disk 1243k is contained in the groove 1238c Interior, the operating portion 1243m stretches out the second pedestal 12b, the sliding part from the lateral openings of the groove 1238c 1243a bottom plate is contained in described house and is recessed in 1241f, and the clamping block 1243d is protruded from through the perforating 1241e The fixture 1241 is fixed towards a side surface of the sliding part 1242, the alignment pin 1238e and is contained in the fixation In the 1238d of hole, and part protrudes from the fixing hole 1238d, and the fixture 1241 is fixed on the movable part 123, described Alignment pin 1238e end is inserted in the positioning hole 1241b, specifically, and the fixture 1241 can be by through described First assembly hole 1238a and corresponding second assembly hole 1241a fastener (not shown) are fixed on the movable part 123.

The sliding part 1242 can be slidably connected to the fixture 1241, the snapin part of the sliding part 1242 The snapin part 1243i of 1241g and the locking piece 1243 is respectively clamped into the engaging groove 1242a.

The first pedestal 12a can be slidably connected with the second pedestal 12b.Specifically, second split portion 122 groups enter in the recess 123a of the movable part 123, and first guidance part 1227 blocks with second guidance part 1235 respectively Close so that the second pedestal 12b can be slided relative to the first pedestal 12a.Described the of the second regulating part 12e Two drive divisions 1272 pass through the pilot hole 122c, and the first connection end 1272a and the second connection end 1272b difference The supporting part 1236 can be rotationally connected with, second knob 1271 is connected with the second connection end 1272b rotation stops. In present embodiment, first knob 1251 after being completed is located at the installation group with second knob 1271 The same side of part 12, i.e., described first regulating part 12c and the second regulating part 12e be used for operating position that user operates in The same side of the mounting assembly 12, being capable of conveniently adjustment operation.

The load 20 is fixedly installed on the sliding part 1242.It can pass through the sliding part in the load 20 1242 installation sites of the adjustment relative to the second pedestal 12b, after the completion of the installation site adjustment of the load 20, are rotated The drive division 1243b, the cam 1243l and the bottom plate 1243c end wall 1243g are supported and are driven the bottom plate 1243c is slided relative to the sliding part 1243a, and the clamping block 1243d is under the drive of the bottom plate 1243c towards described The guiding block 1241c motions of fixture 1241, and the sliding part 1242 is together clamped with the guiding block 1241c, with fixation The sliding part 1242 relative to the fixture 1241 installation site, while the fixed load 20 is relative to described second Pedestal 12b installation site.

The capture apparatus 100 is before use, can be by described in the first regulating part 12c in the first direction d1 adjustment The position of load 20, by the second regulating part 12e, d2 adjusts the position of the load 20 in a second direction so that described negative The center of gravity for carrying 20 falls in the rotating shaft of the head 10, it is to avoid the motor of the head is influenceed by unexpected torsion, it is ensured that The service life of head, lifting shoots experience.Adjusted in the load 20 along the first direction d1 and second direction d2 After the load 20 in place, the fastener 12d is operated, makes described first to push against part 1261 and the side table of the lead segment 1111 Face laminating is pushed against, with the fixed first pedestal 12a and first crossbearer 111 relative position；Described second is set to push against part 1264 push against with the second pedestal 12b, with the fixed second pedestal 12b and the first pedestal 12a relative position.

The fastener 12d locks the first pedestal 12a and the second pedestal 12b concrete modes are：By institute When stating handle 1263 along the predetermined direction rotation linkage section 1262b, it is described that the stud section 1262a passes through screw-driven driving Second pushes against part 1264 is moved to push against the second pedestal 12b towards the second pedestal 12b, and part is pushed against described second 1264 push against after the second pedestal 12b, the linkage section 1262b by screw-driven away from the second pedestal 12b, it is described Pressure section 1262c supports the briquetting 1262d and moved away from the second pedestal 12b, in motion process, the briquetting 1262d coordinates driving the first abutting part 1261 to push against first crossbearer by the inclined-plane with the described first abutting part 1261 111.Only need to operate a fastener 12d, the first pedestal 12a and first crossbearer 111 just can be locked simultaneously Relative position and the second pedestal 12b described in the first pedestal 12a relative position.In present embodiment, the actuator It is substantially vertical with driving the direction of the second abutting part 1264 that 1262 drivings described first push against the direction of part 1261.It can manage Solution, the actuator 1262 drives described first to push against the direction of part 1261 with driving the described second direction for pushing against part 1264 No longer can one by one it be repeated in other angles.

In embodiment illustrated, the first regulating part 12c is arranged on the first pedestal 12a, with described first The rack 1114 set on crossbearer 111 engages to drive the first pedestal 12a to move, it will be understood that first regulating part 12c can also be arranged on first crossbearer 111, and the rack 1114 is arranged on the first pedestal 12a.

It is appreciated that the structure of first guidance part 1227 and second guidance part 1235 can be exchanged, i.e., it is described Second pedestal 12b can form the structure of similar first guidance part 1227, and the first pedestal 12a can form similar institute State the structure of the second guidance part 1235.

It is understood that those skilled in the art can also do other changes etc. in the utility model spirit is used in this reality With new design, without departing from technique effect of the present utility model.These are done according to the utility model spirit Change, all should be included in the utility model it is claimed within the scope of.

Claims (23)

1. a kind of head loads mounting assembly, it is used to slidably be installed on head support is installed in the head to adjust Load the center of gravity of the load in mounting assembly, it is characterised in that：The head load mounting assembly includes the first pedestal, can slided The second pedestal and fastener that dynamic ground is connected with first pedestal, first pedestal are used to connect with the head support Connect and slide in the first direction, second pedestal is provided with mounting structure, the mounting structure is used to load being connected to institute The second pedestal is stated, second pedestal can in a second direction be slided on first pedestal, and the fastener is connected to institute State the first pedestal and can at the same lock the First body phase for the installation site relative to the head support and Installation site of second pedestal relative to first pedestal.

2. head as claimed in claim 1 loads mounting assembly, it is characterised in that：The fastener include first push against part, Second pushes against part and actuator, and the first abutting part and the second abutting part can actively be arranged at First Body, the actuator abuts described first and pushes against part and the second abutting part, and the actuator can drive described simultaneously First, which pushes against part, pushes against the head support and the second abutting part abutting second pedestal, to lock described first simultaneously Pedestal is relative to the installation site relative to the head support and second pedestal relative to first pedestal Installation site.

3. head as claimed in claim 2 loads mounting assembly, it is characterised in that：The actuator can be in different directions Described first is driven to push against part and the second abutting part.

4. head as claimed in claim 2 loads mounting assembly, it is characterised in that：First pedestal offer adaptation groove with And accepting groove, the adaptation groove has the opening towards the head support, and the accepting groove has towards second pedestal Opening, the first abutting part can actively be contained in the adaptation groove, and the second abutting part can be housed actively In the accepting groove, the actuator can drive described first to push against the opening that part stretches out the adaptation groove, so that described the One, which pushes against part, pushes against the head support, and described second can be driven to push against the opening that part stretches out the accepting groove, so that institute State the second abutting part and push against second pedestal.

5. head as claimed in claim 4 loads mounting assembly, it is characterised in that：The actuator includes stud section and institute Linkage section, pressure section and briquetting between stud section and the linkage section that stud section is fixedly connected are stated, it is described Stud section is threadedly coupled with the described second abutting part and drives described second to push against part by screw-driven mode and moves, the company The briquetting can rotationally be passed through and the pressure section is pressed on the briquetting by connecing section, and the briquetting is supported with described first Tight part is abutted, and the pressure section is oppressed the briquetting by the reaction of the screw-driven and moved, and then drives described first Push against part motion.

6. head as claimed in claim 5 loads mounting assembly, it is characterised in that：Described first pushes against part leads to the briquetting Cross inclined-plane and coordinate transmission so that the direction of motion of the first abutting part is different from the direction of motion of the briquetting.

7. head as claimed in claim 5 loads mounting assembly, it is characterised in that：Described first, which pushes against part, includes the first abutting Face and relative to inclined first inclined-plane of first bearing surface, the briquetting includes second corresponding to first inclined-plane Inclined-plane, the first abutting face can push against the head support, and the second inclined-plane of the briquetting is connected to first inclined-plane.

8. head as claimed in claim 7 loads mounting assembly, it is characterised in that：The first abutting part offers avoidance Portion, the relief portion runs through first inclined-plane, and the relief portion enables to the first abutting part to avoid the linkage section And coordinate with the briquetting.

9. head as claimed in claim 5 loads mounting assembly, it is characterised in that：The briquetting is provided with depression and perforates, The depression is located at the briquetting towards the described second side surface for pushing against part, and the perforation runs through from the bottom of the depression The briquetting is towards the described second side surface for pushing against part, and the linkage section can rotationally pass through the perforation, described to support Splenium presses on the bottom of the depression.

10. head as claimed in claim 5 loads mounting assembly, it is characterised in that：The actuator also includes handle, described Handle is connected with the end rotation stop of the linkage section through the briquetting, and the handle can be operable to rotate the stud Section.

11. head as claimed in claim 10 loads mounting assembly, it is characterised in that：The handle includes cap portion, sleeved part And the shank being connected with the sleeved part, rotation stop connection, the sleeved part set are formed between the cap portion and the linkage section It is connected located at the cap portion and with cap portion rotation stop.

12. head as claimed in claim 11 loads mounting assembly, it is characterised in that：The outer peripheral face in the cap portion is formed with convex Rib, the inner surface of the sleeved part is formed with the groove of the correspondence fin, and the groove coordinates with the fin makes the handle Rotation stop connection is formed between portion and the cap portion.

13. head as claimed in claim 11 loads mounting assembly, it is characterised in that：First pedestal includes door, institute State door to be covered on first pedestal and there is gap between first pedestal, the sleeved part is located at the door, The shank stretches out the door from the gap.

14. head as claimed in claim 1 loads mounting assembly, it is characterised in that：First pedestal has the first guiding Portion, second pedestal have corresponding to first guidance part the second guidance part, first pedestal with described second Body can be slidably connected by the mutual cooperation of first guidance part and second guidance part.

15. head as claimed in claim 14 loads mounting assembly, it is characterised in that：The first guiding position is formed at institute The strip bulge of two reverse sides of the first pedestal is stated, second guidance part is to be formed at the opposed inner walls of the second pedestal two Strip groove.

16. head as claimed in claim 15 loads mounting assembly, it is characterised in that：Second guidance part is dovetail groove.

17. head as claimed in claim 1 loads mounting assembly, it is characterised in that：Also include the first regulating part and second Regulating part, be arranged in first pedestal and the head support one of first regulation is upper and can drive described Another motion in first pedestal and the head support, to adjust the First body phase for the head support Relative position；Second regulating part connects first pedestal and second pedestal and can drive second pedestal Relative to second pedestal motion.

18. head as claimed in claim 17 loads mounting assembly, it is characterised in that：Second regulating part is using screw thread silk The mode of bar transmission drives second pedestal to be moved relative to first pedestal.

19. head as claimed in claim 17 loads mounting assembly, it is characterised in that：First regulating part and described The operating position of two regulating parts loads the same side of mounting assembly in the head.

20. head as claimed in claim 1 loads mounting assembly, it is characterised in that：The first direction and the second party To in predetermined angle.

21. head as claimed in claim 1 loads mounting assembly, it is characterised in that：The first direction hangs down with second direction Directly.

22. a kind of head, including support, drive the electric machine assembly of the holder pivots, and head load mounting assembly, described Head load mounting assembly is installed on the support, it is characterised in that：The head load mounting assembly is claim 1- Head load mounting assembly described in 21 any one.

23. a kind of capture apparatus, including head and the picture shooting assembly for being installed on the head, the head include support and Head loads mounting assembly, it is characterised in that：The head load mounting assembly is described in claim 1-21 any one Head loads mounting assembly.