CN204437591U - The The Cloud Terrace of translation shaft assembly and use thereof - Google Patents

Abstract

The utility model discloses a kind of translation shaft assembly, it comprises a support arm, a plate, and one is connected to the gravity adjusting device between described support arm and described connecting plate.Described connecting plate is arranged perpendicular to described support arm.The position that described support arm is regulated on described connecting plate by described gravity adjusting device, thus regulate the center of gravity of described translation shaft assembly.Described gravity adjusting device comprises one and locks assembly, described in lock assembly for making described support arm and described connecting plate loose fit when center of gravity regulates, after center of gravity has regulated, described in lock assembly also for described connecting plate and described support arm being held tightly mutually.The utility model also relates to a kind of The Cloud Terrace using described translation shaft assembly.

Description

The The Cloud Terrace of translation shaft assembly and use thereof

Technical field

The utility model relates to capture apparatus field, particularly relates to the The Cloud Terrace of a kind of translation shaft assembly and use thereof.

Background technique

The Cloud Terrace is the support table used for installing vidicon camera, and vidicon camera is arranged on The Cloud Terrace.By the adjustment to The Cloud Terrace, to adjust the camera lens of vidicon camera, to realize the correct shooting to target.Described The Cloud Terrace can the vidicon camera of compatible multiple different model or camera lens, and each axle center of gravity of The Cloud Terrace can regulate.But due to the structure of existing center-of-gravity regulating, be utilize the relative displacement of cradle head structure to carry out center of gravity adjustment, due to the most load-bearing of structural member, cause stiction between structural member very large, make relative movement difficulty.And relative shift very little time also very large to the image of center of gravity, cause center of gravity to regulate difficulty.

Model utility content

The purpose of this utility model is that providing a kind of quick adjustment can make the translation shaft of gravity balance and the The Cloud Terrace of use thereof.

The utility model embodiment is achieved in that a kind of translation shaft assembly, and it comprises a support arm, a plate, and one is connected to the gravity adjusting device between described support arm and described connecting plate.The position that described connecting plate is regulated on described support arm by described gravity adjusting device, thus regulate the center of gravity of described translation shaft assembly.Described gravity adjusting device comprises one and locks assembly, described in lock assembly for making described support arm and described connecting plate loose fit when center of gravity regulates, after center of gravity has regulated, described in lock assembly also for described connecting plate and described support arm being held tightly mutually.

Wherein, described support arm offers one for connecting penetration hole and the locking hole be connected with described penetration hole of described connecting plate, when center of gravity has regulated, described in lock assembly the aperture of described locking hole diminished, held tightly in described penetration hole to make described support arm.

Wherein, the described assembly that locks comprises a pad, one first spanner, a pin and a fixing bolt, described pad offers a via hole, described pad is arranged at the side of described support arm near described locking hole, described pin is arranged in one first through hole of described first spanner, and described first spanner can rotate relative to described pin, described pin offers one second through hole, described fixing bolt successively through described second through hole, after described via hole with the tapped hole bolt offered in described connecting plate.

Wherein, described pad adopts match steel to make.

Wherein, the described tapped hole on described connecting plate runs through described locking hole.

Wherein, described gravity adjusting device also comprises a screw mandrel and a rotatable moving part be arranged at movably on described screw mandrel, described moving part is contained in described penetration hole, and with described support arm Joint, described connecting plate is arranged in described moving part, is provided with a bearing in described connecting plate, described moving part offers a tapped hole, described screw mandrel and described tapped hole bolt, and one end of described screw mandrel is sheathed in described bearing.

Wherein, described penetration hole comprises the first accepting hole of a rectangle and the second accepting hole of a circular arc, described first accepting hole is connected with described second accepting hole, described connecting plate comprises one first guide portion and second guide portion be connected with described first guide portion, described first guide portion extends the outer side surface of described second guide portion, and protrude relative to described second guide portion, described second guide portion and described second accepting hole match, described moving part and described first accepting hole match, and described moving part is fixedly arranged in described first accepting hole.

Wherein, described moving part comprises one first moving part, the second moving part be connected with described first moving part and a guide portion, described second moving part extends the both sides of described first moving part, described second moving part is for clamping described first guide portion, and the described tapped hole on described moving part is opened in described guide portion.

Wherein, the central shaft of described tapped hole is parallel to the length direction of described screw mandrel.

Wherein, described connecting plate comprises first bottom surface contacted with described support arm, described first bottom surface offers an accepting groove, described connecting plate comprises one first outer side wall, described first outer side wall offers an axis hole, described bearing is fixed in described accepting groove, and described screw mandrel through described axis hole, and is sheathed in the bearing of described accepting groove.

Wherein, described screw mandrel is provided with rotating handle near one end of described first outer side wall.

Wherein, described gravity adjusting device also comprises a fixed plate, and described fixed plate is fixed on described first outer side wall, and the size of described fixed plate is greater than the size of described first outer side wall.

Wherein, the end face of described fixed plate away from described connecting plate offers a groove, the bottom of described groove offers a through hole and passes through for making described screw mandrel, and described rotating handle to be partially housed in described groove and can to rotate in described groove.

Wherein, described translation shaft assembly also comprises a drive unit and a battery, and described drive unit is arranged at one end of described support arm, and described battery is arranged on described support arm.

The utility model embodiment realizes like this, a kind of The Cloud Terrace, it is for carrying an image forming apparatus, described The Cloud Terrace comprises an elevation axis assembly, one is articulated with described elevation axis assembly and can drives the roll shaft assembly that described elevation axis assembly rotates, one is articulated with described roll shaft assembly and can drives the translation shaft assembly that described roll shaft assembly rotates, described translation shaft assembly comprises a support arm, a plate, described translation shaft assembly also comprises one and is connected to gravity adjusting device between described support arm and described connecting plate, the position that described support arm is regulated on described connecting plate by described gravity adjusting device, thus regulate the center of gravity of described translation shaft assembly, described gravity adjusting device comprises one and locks assembly, the described assembly that locks is for making described support arm and described connecting plate loose fit when center of gravity regulates, after center of gravity has regulated, describedly lock assembly also for described connecting plate and described support arm being held tightly mutually.

Wherein, described The Cloud Terrace also comprises the bracket component that is arranged at described elevation axis assembly movably, and described bracket component is for carrying described image forming apparatus.

Wherein, described elevation axis assembly comprises two the first pillars, two leading posts and two the first positioners, described leading post is perpendicular to described two the first pillars, and two described leading posts can be moved along the length direction of described first pillar by described first positioner.

Wherein, described first positioner comprises a collar, the described collar offers a holding hole, two accepting holes being arranged at described holding hole both sides respectively, the axis being axially perpendicular to described accepting hole of described holding hole, the shape and size of described holding hole are corresponding with the shape and size of described first pillar respectively, two described first pillars are sheathed in holding hole described in respectively, each described accepting hole is respectively used to the one end of accommodating described leading post, be arranged in parallel to make two described leading posts.

Wherein, described first positioner also comprises a locking accessory, regulates two mounting points of described leading post on described first pillar by discharging or tightening described locking accessory.

Wherein, described bracket component comprises two the first adaptor, mounting plate and the crimping devices that are slidably disposed on described leading post, described mounting plate is fixed on described first adaptor, described mounting plate is used for carrying described image forming apparatus slidably, described crimping device is arranged at the side of described mounting plate, and described crimping device is for being fixed on described mounting plate by described image forming apparatus.

Wherein, each described first adaptor includes one first briquetting and one second briquetting that are oppositely arranged, two circular socket are formed between described first briquetting and described second briquetting, described leading post inserts in described circular socket, the first screw locked jointly by described first briquetting and described second briquetting, lock described first screw, described first adaptor is fixed on described leading post; Unclamp described first screw, described first adaptor slides along described leading column length direction on described leading post.

Wherein, the nut of described first screw is installed with a spanner.

Wherein, described roll shaft assembly comprises one first support arm, is connected described first support arm and the second support arm link arm and one first drive unit with symmetrically arranged second support arm of described first support arm, one through hole Joint of the machine shaft of described first drive unit and wherein the first pillar described in, rotate for driving described first pillar, to drive described elevation axis assembly to rotate, the length direction being axially perpendicular to described second wall of the machine shaft of described first drive unit.

Wherein, described first support arm, link arm and the second support arm are one-body molded.

Wherein, described translation shaft assembly also comprises one second drive unit, described second drive unit is arranged at one end of described support arm, described penetration hole is opened in the other end of described support arm, the rotating shaft of described second drive unit is fixed in the central part of described link arm, rotates for driving described roll shaft assembly.

Wherein, described The Cloud Terrace comprises a drive portion and a handle further, and described drive portion is a brushless electric machine, and its rotor assembly is connected to described connecting plate, and stator module is fixed in described handle, described drive portion rotates for driving described translation shaft assembly.

Wherein, described handle is that bending is shaft-like, and described handle comprises the first joint, the first supporting portion and holding part, and described first supporting portion is a rod member, described first joint is fixedly connected on described first supporting portion geometrical center, and described first joint is connected to described drive portion.

Wherein, described holding part is two cylindricality handles, and described first two ends, supporting portion are fixed in described holding part.

Wherein, described handle is installed with a handle, and described handle is fixed on described first side, supporting portion, and relatively described first joint is arranged.

Wherein, described support arm offers one for connecting penetration hole and the locking hole be connected with described penetration hole of described connecting plate, when center of gravity has regulated, described in lock assembly the aperture of described locking hole diminished, held tightly in described penetration hole to make described support arm.

Wherein, the described assembly that locks comprises a pad, one first spanner, a pin and a fixing bolt, described pad offers a via hole, described pad is arranged at the side of described support arm near described locking hole, described pin is arranged in one first through hole of described first spanner, and described first spanner can rotate relative to described pin, described pin offers one second through hole, described fixing bolt successively through described second through hole, after described via hole with the tapped hole bolt offered in described connecting plate.

Wherein, described pad adopts match steel to make.

Wherein, the described tapped hole on described connecting plate runs through described locking hole.

Wherein, described gravity adjusting device also comprises a screw mandrel and a rotatable moving part be arranged at movably on described screw mandrel, described moving part is contained in described penetration hole, and with described support arm Joint, described connecting plate is arranged in described moving part, is provided with a bearing in described connecting plate, described moving part offers a tapped hole, described tapped hole bolt on described screw mandrel and described moving part, and one end of described screw mandrel is sheathed in described bearing.

Wherein, described penetration hole comprises the first accepting hole of a rectangle and the second accepting hole of a circular arc, described first accepting hole is connected with described second accepting hole, described connecting plate comprises one first guide portion and second guide portion be connected with described first guide portion, described first guide portion extends the outer side surface of described second guide portion, and protrude relative to described second guide portion, described second guide portion and described second accepting hole match, described moving part and described first accepting hole match, and described moving part is fixedly arranged in described first accepting hole.

Wherein, described moving part comprises one first moving part, the second moving part be connected with described first moving part and a guide portion, described second moving part extends the both sides of described first moving part, described second moving part is for clamping described first guide portion, and the described tapped hole on described moving part is opened in described guide portion.

Wherein, the central shaft of the described tapped hole on described moving part is parallel to the length direction of described screw mandrel.

Wherein, described connecting plate comprises first bottom surface contacted with described support arm, described first bottom surface offers an accepting groove, described connecting plate comprises one first outer side wall, described first outer side wall offers an axis hole, described bearing is fixed in described accepting groove, and described screw mandrel through described axis hole, and is sheathed in the bearing of described accepting groove.

Wherein, described screw mandrel is provided with rotating handle near one end of described first outer side wall.

Wherein, described gravity adjusting device also comprises a fixed plate, and described fixed plate is fixed on described first outer side wall, and the size of described fixed plate is greater than the size of described first outer side wall.

Wherein, the end face of described fixed plate away from described connecting plate offers a groove, the bottom of described groove offers a through hole and passes through for making described screw mandrel, and described rotating handle to be partially housed in described groove and can to rotate in described groove.

Wherein, described translation shaft assembly also comprises a battery, and described battery is arranged on described support arm.

Relative to prior art, described The Cloud Terrace of the present utility model also comprises a center of gravity regulon, for regulating the position of described support arm on described connecting plate, thus regulates the center of gravity of translation shaft assembly.Described The Cloud Terrace of the present utility model regulates the center of gravity of described The Cloud Terrace by described gravity adjusting device.

Accompanying drawing explanation

Fig. 1 is the solid assembling schematic diagram of the The Cloud Terrace that the utility model provides.

Fig. 2 is the solid assembling schematic diagram at another visual angle of The Cloud Terrace in Fig. 1.

Fig. 3 is the solid assembling schematic diagram of the translation shaft assembly in Fig. 2.

Fig. 4 is the perspective exploded view at another visual angle of translation shaft assembly in Fig. 3.

Fig. 5 is the perspective exploded view of the translation shaft assembly in Fig. 4.

Fig. 6 is the perspective exploded view at another visual angle of translation shaft assembly in Fig. 5.

Fig. 7 is the using state figure of the The Cloud Terrace in Fig. 1.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technological scheme in the utility model embodiment, obviously, described embodiment is only a part of embodiment of the present utility model, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making other embodiments all obtained under creative work prerequisite, all belong to the scope of the utility model protection.

It should be noted that, when assembly is called as " being fixed on " another assembly, directly can there is assembly placed in the middle in it on another assembly or also.When an assembly is considered to " connection " another assembly, it can be directly connected to another assembly or may there is assembly placed in the middle simultaneously.

Unless otherwise defined, all technology used herein and scientific terminology are identical with belonging to the implication that those skilled in the art of the present utility model understand usually.The object of the term used in specification of the present utility model herein just in order to describe specific embodiment, is not intended to be restriction the utility model.Term as used herein " and/or " comprise arbitrary and all combinations of one or more relevant Listed Items.

Below in conjunction with embodiment, realization of the present utility model is described in detail.

See also Fig. 1 to Fig. 2, a kind of The Cloud Terrace 100 that the utility model provides its for carrying an image forming apparatus 200 (as Fig. 7).Described image forming apparatus 200 can be camera, vidicon camera or camera lens etc.

Described The Cloud Terrace 100 comprise an elevation axis assembly 10, be arranged at movably described elevation axis assembly 10 bracket component 20, one and described elevation axis assembly 10 is articulated and the roll shaft assembly 40 that described elevation axis assembly 10 can be driven to rotate, one and described roll shaft assembly 40 be articulated and the translation shaft assembly 50, that described roll shaft assembly 40 can be driven the to rotate drive portion 40b that drives described translation shaft assembly 50 to rotate and a handle 60.

Described elevation axis assembly 10 comprises two the first pillars, 11, two leading posts 12 and two the first positioners 13.Two described leading posts 12 vertically described two the first pillars 11 are arranged.Two described leading posts 12 can be moved along the length direction of described first pillar 11 by described first positioner 13, and two described leading posts 12 are fixed on the arbitrary position of described first pillar 11 by described first positioner 13.

Particularly, described first pillar 11 is one cylindric, and each described first pillar 11 includes a connecting end 110.Described connecting end 110 offers a through hole 111.In the present embodiment, the axis of described through hole 111 is approximately perpendicular to the length direction of described first pillar 11.Wherein arrange a rotatingshaft 112 in through hole 111 described in, be understandable that, described first pillar 11 also can be other shapes.

In the present embodiment, two leading posts 12 are cylindric, are understandable that, described leading post 12 also can be other shapes.

Described first positioner 13 comprises a collar 13a and a locking accessory 134.Described collar 13a offers the accepting hole 132 that a holding hole 130 and two are arranged at described holding hole 130 both sides respectively.The axis of described holding hole 130 is approximately perpendicular to the axis of described accepting hole 132.The shape and size of described holding hole 130 are corresponding with the shape and size of described first pillar 11 respectively.Two described first pillars 11 are sheathed in holding hole 130 described in respectively.Each described accepting hole 132 is respectively used to the one end of accommodating described leading post 12, to make the almost parallel setting of two described leading posts 12.

Described locking accessory 134 is for being attached to the arbitrary position of described first pillar 11 by described first positioner 13.Particularly, described locking accessory 134 is a clip, and it adopts metal material.Described locking accessory 134 can apply pressure to described collar 13a, makes holding hole 130 aperture of described collar 13a reduce to clamp described first pillar 11.In the present embodiment, by discharging or tightening described locking accessory 134, the mounting point of two described leading posts 12 on described first pillar 11 can be regulated.

Described bracket component 20 comprises one and is slidably disposed in two first adaptor 23, mounting plates 24 and crimping devices 26 on described leading post 12.Described mounting plate 24 is fixed on described first adaptor 23.In the present embodiment, described mounting plate 24 is secured by bolts on described first adaptor 23.Described image forming apparatus 200 is slidably disposed on described mounting plate 24.Described crimping device 26 is arranged at the side of described mounting plate 24, described crimping device 26 for by described image forming apparatus 200 snap close in the arbitrary position of described mounting plate 24.

Slide in order to described first adaptor 23 can be regulated, each described first adaptor 23 includes one first briquetting 231 and one second briquetting 232 be oppositely arranged, two circular socket 230 are formed between described first briquetting 231 and described second briquetting 232, described leading post 12 inserts in described circular socket 230, and the first screw 233 locked jointly by described first briquetting 231 and described second briquetting 232.Lock described first screw 233, described first adaptor 23 is fixed on described leading post 12; Unclamp described first screw 233, described first adaptor 23 slides along described leading post 12 length direction on described leading post 12.

In present embodiment, the nut of described first screw 233 is provided with a spanner 243, described spanner 243 is along vertically described first screw 233 length direction extension, pull described spanner 243 to lock direction by described first screw 233 and rotate, namely the locking of described first screw 233 is realized, otherwise, pull described spanner 243 and lock direction counterrotating by described first screw 233, namely realize unclamping of described first screw 233, and then regulate the slip of described first adaptor 23 with fixing.

Described mounting plate 24 is fixed on described second briquetting 232.Described mounting plate 24 is provided with the first chute 2430.In the present embodiment, described first chute 2430 is dovetail chute.

Described roll shaft assembly 40 comprises one first support arm 41, is connected described first support arm 41 and the second support arm 42 link arm 43 and one first drive unit 44 with symmetrically arranged second support arm 42, of described first support arm 41.

In the present embodiment, in order to reduce the number of parts of assembly and optimize packaging technology, reduce the rotational resistance of described first drive unit 44, improve the rotation smooth degree of described first drive unit 44 and described roll shaft assembly 40, described first support arm 41, link arm 43 and the second support arm 42 are one-body molded, and adopt magnalium die casting to make.

In the present embodiment, described first drive unit 44 is a brushless electric machine, described through hole 110 Joint of the machine shaft (not shown) of described first drive unit 44 and wherein the first pillar 11 described in, for driving described first pillar 11 to rotate, rotate to drive described elevation axis assembly 10.In the present embodiment, the axis of the machine shaft of described first drive unit 44 is approximately perpendicular to the length direction of described second wall 42.Described first drive unit 44 drives described elevation axis assembly 10 rotate to adjust the angle of shooting of described image forming apparatus 200 and adjust rotating speed size in time to adapt to various attitude.

Be understandable that, described first drive unit 44 also can be brush motor or motor etc., is not limited to the present embodiment.

See also Fig. 3-6, described translation shaft assembly 50 comprises one the 3rd support arm 53,1 second drive unit 54, a plate 55, battery 57 and is arranged between described connecting plate 55 and described 3rd support arm 53, for regulating the gravity adjusting device 58 of the described position of 3rd support arm 53 on described connecting plate 55.

Described second drive unit 54 is arranged at one end of described 3rd support arm 53, in the present embodiment, described second drive unit 54 is also brushless electric machine, its rotor assembly and stator module are all directly contained in described 3rd support arm 53, also be, described 3rd support arm 53 directly as accommodating the described rotor assembly of the second drive unit 54 and the housing of stator module, thus without the need to additionally arranging housing again, provides cost savings.

Described 3rd support arm 53 offers pass through aperture 530 away from the other end of described second drive unit 54.In the present embodiment, described penetration hole 530 comprises the first accepting hole 531 of a rectangle and the second accepting hole 532 of a circular arc.Described first accepting hole 531 is connected with described second accepting hole 532.Described first accepting hole 531 is near described second drive unit 54, and described second accepting hole 532 is away from described second drive unit 54.Described 3rd support arm 53 also offers a locking hole 533 away from the outer side surface of one end of described second drive unit 54, and described locking hole 533 is connected with described second accepting hole 532.

Described battery 57 is arranged on described 3rd support arm 53, for for providing electric energy when whole described The Cloud Terrace 100 works.

Be understandable that, in other embodiments, described second drive unit 54 also can additionally arrange a housing, during assembling, the housing being used for accommodating rotor assembly and stator module is assembled to described 3rd support arm 53.

Described second drive unit 54 rotates for driving described roll shaft assembly 40.Particularly, the rotating shaft 540 of described second drive unit 54 is fixed in the central part of described link arm 43, rotates for driving described roll shaft assembly 40.

Described connecting plate 55 is connected to described 3rd support arm 53 one end away from described roll shaft assembly 40.Described connecting plate 55 is approximately perpendicular to described 3rd support arm 53 and is roughly parallel to the rotating shaft 540 of described second drive unit 54.Described connecting plate 55 comprises a first bottom surface 55a contacted with described 3rd support arm 53.Described first bottom surface 55a offers an accepting groove 5510.Described connecting plate 55 comprises one first outer side wall 5511, and described first outer side wall 5511 offers an axis hole 5520.In the present embodiment, described connecting plate 55 comprises one first guide portion 551 and second guide portion 552 be connected with described first guide portion 551.Described first guide portion 551 extends the outer side surface of described second guide portion 552, and protrudes relative to described second guide portion 552.Described first guide portion 551 is rectangle.Described second guide portion 552 matches with described second accepting hole 532, and described second guide portion 552 is circular arc.

Be understandable that, the shape and size of described penetration hole 30 can design according to the actual requirements, and the shape and size of the shape and size of described connecting plate 55 and described penetration hole 30 match, and are not limited to the present embodiment.

Described gravity adjusting device 58 comprises bearing 581, screw mandrel 582 and a rotatable moving part 583 and be arranged at movably on described screw mandrel 582 locks assembly 584.

Described bearing 581 is fixed in described accepting groove 5510.The axis of described bearing 581 is almost parallel and be approximately perpendicular to the length direction of described 3rd support arm 53.One end of described screw mandrel 582 through the axis hole 5520 on described first outer side wall 5511, and is sheathed in the bearing 581 of described accepting groove 5510.In the present embodiment, conveniently rotate described screw mandrel 582, described screw mandrel 582 is provided with rotating handle 5820 near one end of described first outer side wall 5511, described rotating handle 5820 and described screw mandrel 582 Joint.

The shape and size of described moving part 583 are identical with the shape and size of described first accepting hole 531 respectively, and also, described moving part 583 matches with described first accepting hole 531.Described moving part 583 is fixedly arranged in described first accepting hole 531.Described moving part 583 comprises the second moving part 5832 and guide portion 5833 that one first moving part 5831, is connected with described first moving part 5831.Described moving part 583 is fixedly connected with described 3rd support arm 53, particularly, by bolt Joint between described first moving part 5831 and described 3rd support arm 53.Described second moving part 5832 extends the both sides of described first moving part 5831, and described second moving part 5832 is for clamping described first guide portion 551.Described guide portion 5833 offers a tapped hole 5834, and the central shaft of described tapped hole 5834 is roughly parallel to the length direction of described screw mandrel 582.

Be understandable that, in other embodiments, between described first moving part 5831 with described 3rd support arm 53, also can adopt the mode of welding or gluing mode Joint.

In the present embodiment, described gravity adjusting device 58 also comprises a fixed plate 585, and described fixed plate 585 is bolted on the first outer side wall 5511 of described connecting plate 55.The end face of described fixed plate 585 away from described connecting plate 55 offers a groove 5580, and the bottom of described groove 5580 offers a through hole 5581.Described rotating handle 5820 to be partially housed in described groove 5581 and can to rotate in described groove 5581.The size of described fixed plate 585 is greater than the size of described first outer side wall 5511, departs from described penetration hole 530 for preventing described connecting plate 55.

Being understandable that, in other embodiments, described fixed plate 585 also can not being set in order to save material; Or described fixed plate 585 by gluing or welding mode and described first outer side wall 5511 Joint.

During assembling, first described moving part 583 is fixedly arranged in described first accepting hole 531, again described penetration hole 530 is passed in one end of described connecting plate 55, and make the second moving part 5832 of described moving part 583 clamp described first guide portion 551, subsequently described fixed plate 585 is fixed on the first outer side wall 5511 of described connecting plate 55, then by described rotating handle 5820 and described screw mandrel 582 Joint, the through hole 5581 of last described screw mandrel 582 through described fixed plate 585 and described tapped hole 5834 bolt of described moving part 583, one end of described screw mandrel 582 is through described axis hole 5520, and be sheathed in the bearing 581 of described accepting groove 5510.

The described assembly 584 that locks is arranged at described 3rd support arm 53 near the side of described locking hole 533, described in lock assembly 584 for described connecting plate 55 and described 3rd support arm 53 being locked mutually.Particularly, lock assembly 584 described in and comprise pad 5842,1 first spanner 5843, pin 5844 and a fixing bolt 5845.

In the present embodiment, described pad 5842 adopts match steel to make, and the center of described pad 5842 offers a via hole 5847.

Described first spanner 5843 comprises the pulling part 584b of a rotary part 584a and away from described rotary part 584a.Described rotary part 584a offers one first accommodation section 5840 to described pulling part 2632 extension, and described rotary part 584a is run through in described first accommodation section 5840.The sidewall of described rotary part 584a offers one first through hole 584c.The opening direction being axially parallel to described locking hole 533 of described first through hole 584c.Described first accommodation section 5840 is connected with described first through hole 584c.

The shape and size of described pin 5844 match with the shape and size of described first through hole 584c respectively.In the present embodiment, the center of described pin 5844 offers one second through hole 5850.

When locking assembly 58 described in assembling, first described pin 5844 is inserted in described first through hole 584c, again described pad 5822 is positioned over described 3rd support arm 53 near the side of described locking hole 533, also be, described pad 5822 is adjacent with described locking hole 533, subsequently by described fixing bolt 5845 successively through described second through hole 5850, after described via hole 5847 with tapped hole 5848 bolt offered in described connecting plate 55, the described tapped hole 5848 on described connecting plate 55 runs through described locking hole 533.The described rotary part 584a of described first spanner 5843 is resisted against on described pad 5842.

Be understandable that, in other embodiments, described in lock assembly 584 structure be not limited to this, as long as described in lock assembly 584 described connecting plate 55 can be made to unclamp mutually with described 3rd support arm 53 and lock.

In the present embodiment, described drive portion 40b is also a brushless electric machine, and it is connected to described connecting plate 55 with on described handle 60, and described drive portion 40b is for driving described translation shaft assembly 50 can 360 ° of rotations in the horizontal direction.

Described handle 60 is shaft-like in bending.Particularly, described handle 60 comprises the first joint 601, first supporting portion 602 and holding part 603.Described first supporting portion 602 is a rod member, and described first joint 601 is connected to described first supporting portion 602 geometrical center removably.Described first joint 601 is connected to described drive portion 40b.

Described holding part 603 is two cylindricality handles, and described first two ends, supporting portion 602 are fixed in described holding part 603.

Described handle 60 sets firmly a handle 604, and described handle 604 is fixed on described first side, supporting portion 602, and relatively described first joint 601 is arranged, and conveniently when not using described The Cloud Terrace 100, can arbitrarily carry, and saves strength.Certainly, in other embodiments, described handle 60 can also arrange locking mechanism, thus is fixed on aerial ladder, realizes utilizing machine automatization to move described The Cloud Terrace 100.

See also Fig. 7, during use, described image forming apparatus 200 is fixedly arranged on described bracket component 20.In order to increase the stability in described image forming apparatus 200 shooting process, pass through mechanical analysis, described elevation axis assembly 10, described bracket component 20, described roll shaft assembly 40, center of gravity between described translation shaft assembly 50 and described image forming apparatus 200 should drop on the live axle of described drive portion 40b, described translation shaft assembly 50 turns to and arbitrarily angledly all can not produce moment of rotation, namely described translation shaft assembly 50 can not rock back and forth because of moment, equally also increases the stability of the described image forming apparatus 200 in rotation process.

And when described elevation axis assembly 10, described bracket component 20, described roll shaft assembly 40, when center of gravity between described translation shaft assembly 50 and described image forming apparatus 200 does not drop on the live axle of described drive portion 40b, regulate by described center of gravity and fill 58 to regulate described elevation axis assembly 10, described bracket component 20, described roll shaft assembly 40, center of gravity between described translation shaft assembly 50 and described image forming apparatus 200, to make described elevation axis assembly 10, described bracket component 20, described roll shaft assembly 40, center of gravity between described translation shaft assembly 50 and described image forming apparatus 200 drops on the live axle of described drive portion 40b.Particularly, the pulling part 584b pulling described first spanner 5843 locks assembly 584 described in discharging, and makes the borehole enlargement of described locking hole 533 to make described connecting plate 55 and described 3rd support arm 53 loose fit.Rotate described rotating handle 5820, described screw mandrel 713 rotates in the described tapped hole 5834 of described guide portion 5833, under described first guide portion 551 of rectangle leads, described moving part 583 moves on the length direction of described screw mandrel 582, drops on the live axle of described drive portion 40b to make described elevation axis assembly 10, described bracket component 20, described roll shaft assembly 40, center of gravity between described translation shaft assembly 50 and described image forming apparatus 200.After adjustment completes, the pulling part 584b pulling described first spanner 5843 makes the aperture of described locking hole 533 be compressed by described pad 5842 and diminish, to lock assembly 584 described in making, described connecting plate 55 and described 3rd support arm 53 are held tightly mutually, also be, described connecting plate 55 is held tightly in described penetration hole 530, therefore, described connecting plate 55 and described 3rd support arm 53 drive fit, to reach the object locked.

Be understandable that, in other embodiments, described rotating handle 5820 also can be replaced drive motor, and described drive motor drives described screw mandrel 582 to rotate.

Be understandable that, the structure of described gravity adjusting device 58 is not limited to this, as long as the described position of 3rd support arm 53 on described connecting plate 55 can be regulated, to make described elevation axis assembly 10, described bracket component 20, described roll shaft assembly 40, center of gravity between described translation shaft assembly 50 and described image forming apparatus 200 drop on the live axle of described drive portion 40b, be not limited to the present embodiment.

Described The Cloud Terrace of the present utility model comprises described gravity adjusting device, for regulating described 3rd position of support arm on described connecting plate.And described The Cloud Terrace regulates the center of gravity of described The Cloud Terrace by described gravity adjusting device.

The foregoing is only embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every utilize the utility model specification and accompanying drawing content to do equivalent structure or equivalent flow process conversion; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present utility model.

Claims (25)

1. a translation shaft assembly, it comprises a support arm, a plate, it is characterized in that: also comprise one and be connected to gravity adjusting device between described support arm and described connecting plate, described connecting plate is arranged perpendicular to described support arm, the position that described support arm is regulated on described connecting plate by described gravity adjusting device, thus regulate the center of gravity of described translation shaft assembly, described gravity adjusting device comprises one and locks assembly, the described assembly that locks is for making described support arm and described connecting plate loose fit when center of gravity regulates, after center of gravity has regulated, describedly lock assembly also for described connecting plate and described support arm being held tightly mutually.

2. translation shaft assembly as claimed in claim 1, it is characterized in that: described support arm offers one for connecting penetration hole and the locking hole be connected with described penetration hole of described connecting plate, when center of gravity has regulated, the described assembly that locks makes the aperture of described locking hole diminish, and is held tightly in described penetration hole to make described support arm.

3. translation shaft assembly as claimed in claim 2, it is characterized in that: described in lock assembly and comprise a pad, one first spanner, one pin, and a fixing bolt, described pad offers a via hole, described pad is arranged at the side of described support arm near described locking hole, described pin is arranged in one first through hole of described first spanner, and described first spanner can rotate relative to described pin, described pin offers one second through hole, described fixing bolt is successively through described second through hole, with the tapped hole bolt offered in described connecting plate after described via hole.

4. translation shaft assembly as claimed in claim 3, is characterized in that: the described tapped hole on described connecting plate runs through described locking hole.

5. translation shaft assembly as claimed in claim 2, it is characterized in that: described gravity adjusting device also comprises a screw mandrel and a rotatable moving part be arranged at movably on described screw mandrel, described moving part is contained in described penetration hole, and with described support arm Joint, described connecting plate is arranged in described moving part, a bearing is provided with in described connecting plate, described moving part offers a tapped hole, described tapped hole bolt on described screw mandrel and described moving part, and one end of described screw mandrel is sheathed in described bearing.

6. translation shaft assembly as claimed in claim 5, it is characterized in that: described penetration hole comprises the first accepting hole of a rectangle and the second accepting hole of a circular arc, described first accepting hole is connected with described second accepting hole, described connecting plate comprises one first guide portion and second guide portion be connected with described first guide portion, described first guide portion extends the outer side surface of described second guide portion, and protrude relative to described second guide portion, described second guide portion and described second accepting hole match, described moving part and described first accepting hole match, described moving part is fixedly arranged in described first accepting hole.

7. translation shaft assembly as claimed in claim 6, it is characterized in that: described moving part comprises one first moving part, the second moving part be connected with described first moving part and a guide portion, described second moving part extends the both sides of described first moving part, described second moving part is for clamping described first guide portion, and the described tapped hole on described moving part is opened in described guide portion.

8. translation shaft assembly as claimed in claim 7, is characterized in that: the central shaft of the described tapped hole on described moving part is parallel to the length direction of described screw mandrel.

9. translation shaft assembly as claimed in claim 5, it is characterized in that: described connecting plate comprises first bottom surface contacted with described support arm, described first bottom surface offers an accepting groove, described connecting plate comprises one first outer side wall, described first outer side wall offers an axis hole, described bearing is fixed in described accepting groove, and described screw mandrel through described axis hole, and is sheathed in the bearing of described accepting groove.

10. translation shaft assembly as claimed in claim 9, is characterized in that: described screw mandrel is provided with rotating handle near one end of described first outer side wall.

11. translation shaft assemblies as claimed in claim 10, it is characterized in that: described gravity adjusting device also comprises a fixed plate, described fixed plate is fixed on described first outer side wall, the size of described fixed plate is greater than the size of described first outer side wall.

12. translation shaft assemblies as claimed in claim 11, it is characterized in that: the end face of described fixed plate away from described connecting plate offers a groove, the bottom of described groove offers a through hole and passes through for making described screw mandrel, and described rotating handle to be partially housed in described groove and can to rotate in described groove.

13. translation shaft assemblies as claimed in claim 1, is characterized in that: described translation shaft assembly also comprises a drive unit and a battery, and described drive unit is arranged at one end of described support arm, and described battery is arranged on described support arm.

14. 1 kinds of The Cloud Terraces, it is for carrying an image forming apparatus, described The Cloud Terrace comprise an elevation axis assembly, one and described elevation axis assembly be articulated and the roll shaft assembly that described elevation axis assembly rotates can be driven, it is characterized in that: described The Cloud Terrace comprises just like the translation shaft assembly described in any one of claim 1-13, described translation shaft assembly and described roll shaft assembly are articulated and described roll shaft assembly can be driven to rotate.

15. The Cloud Terraces as claimed in claim 14, is characterized in that: described The Cloud Terrace also comprises the bracket component that is arranged at described elevation axis assembly movably, and described bracket component is for carrying described image forming apparatus.

16. The Cloud Terraces as claimed in claim 15, it is characterized in that: described elevation axis assembly comprises two the first pillars, two leading posts and two the first positioners, described leading post is perpendicular to described two the first pillars, and two described leading posts can be moved along the length direction of described first pillar by described first positioner.

17. The Cloud Terraces as claimed in claim 16, it is characterized in that: described first positioner comprises a collar, the described collar offers a holding hole, two accepting holes being arranged at described holding hole both sides respectively, the axis being axially perpendicular to described accepting hole of described holding hole, the shape and size of described holding hole are corresponding with the shape and size of described first pillar respectively, two described first pillars are sheathed in holding hole described in respectively, each described accepting hole is respectively used to the one end of accommodating described leading post, be arranged in parallel to make two described leading posts.

18. The Cloud Terraces as claimed in claim 17, is characterized in that: described first positioner also comprises a locking accessory, regulate two mounting points of described leading post on described first pillar by discharging or tightening described locking accessory.

19. The Cloud Terraces as claimed in claim 16, it is characterized in that: described bracket component comprises two the first adaptor, mounting plate and the crimping devices that are slidably disposed on described leading post, described mounting plate is fixed on described first adaptor, described mounting plate is used for carrying described image forming apparatus slidably, described crimping device is arranged at the side of described mounting plate, and described crimping device is for being fixed on described mounting plate by described image forming apparatus.

20. The Cloud Terraces as claimed in claim 19, it is characterized in that: each described first adaptor includes one first briquetting and one second briquetting that are oppositely arranged, two circular socket are formed between described first briquetting and described second briquetting, described leading post inserts in described circular socket, the first screw locked jointly by described first briquetting and described second briquetting, lock described first screw, described first adaptor is fixed on described leading post; Unclamp described first screw, described first adaptor slides along described leading column length direction on described leading post.

21. The Cloud Terraces as claimed in claim 20, is characterized in that: the nut of described first screw is installed with a spanner.

22. The Cloud Terraces as claimed in claim 16, it is characterized in that: described roll shaft assembly comprises one first support arm, is connected described first support arm and the second support arm link arm and one first drive unit with symmetrically arranged second support arm of described first support arm, one through hole Joint of the machine shaft of described first drive unit and wherein the first pillar described in, rotate for driving described first pillar, to drive described elevation axis assembly to rotate, the length direction being axially perpendicular to described second wall of the machine shaft of described first drive unit.

23. The Cloud Terraces as claimed in claim 21, it is characterized in that: described translation shaft assembly also comprises one second drive unit, described second drive unit is arranged at one end of described support arm, described penetration hole is opened in the other end of described support arm, the rotating shaft of described second drive unit is fixed in the central part of described link arm, rotates for driving described roll shaft assembly.

24. The Cloud Terraces as claimed in claim 14, it is characterized in that: described The Cloud Terrace comprises a drive portion and a handle further, described drive portion is arranged between described connecting plate and described handle, and described drive portion rotates for driving described translation shaft assembly.

25. The Cloud Terraces as claimed in claim 24, it is characterized in that: described handle is that bending is shaft-like, described handle comprises the first joint, the first supporting portion and holding part, described first supporting portion is a rod member, described first joint is fixedly connected on described first supporting portion geometrical center, and described first joint is connected to described drive portion.