CN205050004U - Knob structure and use this knob structure with burnt remote controller - Google Patents
Knob structure and use this knob structure with burnt remote controller Download PDFInfo
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- CN205050004U CN205050004U CN201520811040.4U CN201520811040U CN205050004U CN 205050004 U CN205050004 U CN 205050004U CN 201520811040 U CN201520811040 U CN 201520811040U CN 205050004 U CN205050004 U CN 205050004U
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- 229910000838 Al alloy Inorganic materials 0.000 description 1
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Abstract
The utility model provides a knob structure (10), it includes mounting (102) and can set up with rotating runner assembly (300) on mounting (102), its characterized in that: runner assembly (300) set up in on mounting (102), knob structure (10) are still including setting up mounting (102) reach damping element (70) between runner assembly (300), runner assembly (300) change when rotating mounting (102) with area of contact between damping element (70). The utility model provides an adopt knob structure (10) with burnt remote controller (1). The utility model discloses a knob structure changes under the different normal pressures of burnt remote controller with following area of contact between damping element and the mounting produces different dampings to have and feel and great damping adjustment scope in the same direction as smooth rotation, be favorable to the meticulous adjustment to the camera lens focus.
Description
Technical field
The utility model relates to a kind of knob structure, particularly relate to a kind of knob structure for controlling filming apparatus and use this knob structure with burnt telepilot.
Background technology
Traditional adopts the focusing of knob structure Long-distance Control filming apparatus with burnt telepilot.Under normal circumstances, described knob structure comprises relatively turnable runner assembly and fixture, and is arranged at the damping grease between described runner assembly and described fixture.Described runner assembly by resilient material as plastic cement or rubber are made, described fixture is made of metal, by regulating described runner assembly and described fixture to the extruding force of described damping grease, the rotational resistance between described runner assembly and described fixture can be regulated, thus make the rotation between described runner assembly and described fixture comparatively smooth and easy.But, because the contact area between the described runner assembly of described knob structure and described fixture is less, the finite capacity of described damping grease, when increasing pressure to described damping grease of described runner assembly and described fixture, described damping grease easily overflows from squeezing between described runner assembly and described fixture to burst, described runner assembly is caused directly to contact with described fixture, therebetween friction force increases, make described knob assembly feel when regulating jerky, be unfavorable for the anglec of rotation of knob assembly described in accurate adjustment, also be unfavorable for controlling the focusing of described video camera.In addition, the damp adjustable range of above-mentioned knob assembly is relatively little.
Utility model content
In view of this, be necessary to provide the relatively large knob structure of a kind of damp adjustable range and use this knob structure with burnt telepilot.
A kind of knob structure, it runner assembly comprising fixture and be arranged on rotationally on described fixture, described runner assembly is arranged on described fixture, described knob structure also comprises the damping element be arranged between described fixture and described runner assembly, changes the contact area between described fixture and described damping element when described runner assembly rotates.
Further, described damping element is ramp structure near the side of described fixture.
Further, described knob structure also comprises the central shaft be arranged on rotationally on described fixture, and described runner assembly, damping element are set on described central shaft.
Further, described runner assembly comprises operating parts, regulating wheel, handwheel and match wheel, described operating parts is arranged on described regulating wheel, described operating parts drives described regulating wheel to rotate under external force rotates, described regulating wheel is housed in described handwheel rotationally, described handwheel sleeve is located on described match wheel, and described match wheel is arranged on described fixture rotationally, and described regulating wheel, handwheel and match wheel are set in and described central shaft rotate with central shaft and rotates.
Further, described match wheel and described central shaft are form fit or interference fit.
Further, described knob structure also comprises the pressure knob be arranged on rotationally on described central shaft, and described pressure knob is fixedly connected with described regulating wheel, and described pressure knob when rotated can relatively described central shaft axially-movable.
Further, described regulating wheel and described pressure knob are form fit or interference fit.
Further, described central shaft is provided with external thread, and described pressure knob is provided with internal thread, and described central shaft and described pressure knob are spirally connected by described external thread and internal thread.
Further, described pressure knob is formed with multiple holding section, described central shaft is formed with the holding section held mutually with described holding section, described pressure knob selectively can hold mutually with in multiple described holding section, to adjust the axial location of described pressure knob relative to described central shaft under external force drives.
Further, one in described holding section and described holding section is groove, another for described groove hold mutually coordinate hold projection.
Further, be also provided with the first elastic component between described regulating wheel and described pressure knob, described first elastic component is set on described pressure knob.
Further, described knob structure also comprises a retaining part, is arranged between described runner assembly and described damping element, and described retaining part supports and depart from described fixture to prevent described damping element from deformation upwards occurring on described damping element.
Further, described knob structure also comprises the platen be arranged on rotationally on described central shaft, be arranged between described pressure knob and described damping element, described platen can apply axial pressure to described damping element towards described damping element axially-movable when pressure knob axially-movable.
Further, described knob structure also comprises the second elastic component be arranged between described platen and described pressure knob, and described second elastic component is set on described central shaft.
Further, described second elastic component is wavy spring.
Further, described damping element comprises multiple damping blocks that uniform intervals is arranged.
Further, described retaining part is cylindrical structure, and described retaining part is convexly equipped with blocking part near the side of described damping element, and described blocking part is corresponding with described damping block respectively to be arranged.
Further, described match wheel is circular ring structure, is provided with through hole with accommodating described multiple damping block, between every two damping blocks, is also provided with spoke, with damping block described in interval, prevent described damping block from radial deformation occurring in it.
Further, described platen comprises coaxial two disks arranged, and the first disk diameter away from described damping element is less than the second disk near described damping element.
Further, described pressure knob comprises socket part and the pushing guide part of coaxial setting, described socket part is fixedly connected with described regulating wheel, and described pushing guide part can be resisted against on described second disk when axially-movable, described first disk can be contained in described pushing guide part.
Further, damping grease is provided with between described damping element and described fixture.
Further, damping grease is provided with between described damping element and described match wheel.
Further, throughly on described fixture offer perforating, in described perforating, be provided with bearing; Described coupling shaft is arranged in described perforating and is connected with described bearing, and described coupling shaft is rotationally connected by described bearing and described fixture.
Further, described bearing is ball bearing or sliding friction pair.
One, with burnt telepilot, comprises remote controller body and is fixedly installed on the knob structure on body, and wherein said knob structure is upper described knob structure.
Go up described knob structure and apply different normal pressures with burnt telepilot on described damping element by rotary motion assembly, thus change the contact area of described damping element and described fixture, produce the damping of different size, there is more smooth rotation feel and larger damp adjustable range, be conducive to the intense adjustment to camera lens focus.
Accompanying drawing explanation
Fig. 1 is a kind of stereographic map with burnt telepilot that the utility model embodiment provides.
Fig. 2 is the assembling stereogram of the knob structure with burnt telepilot that the utility model embodiment provides.
Fig. 3 is the diagrammatic cross-section along IV-IV line of knob structure shown in Fig. 2.
Fig. 4 is the perspective exploded view of knob structure shown in Fig. 2.
Fig. 5-Figure 12 is each element different angles stereographic map of knob structure shown in Fig. 2.
The another kind that Figure 13 provides for the utility model embodiment is with the stereographic map of burnt telepilot.
Figure 14 for shown in Figure 13 with burnt telepilot stereographic map in a first state.
Figure 15 is the diagrammatic cross-section along XV-XV line with burnt telepilot shown in Figure 14.
Figure 16 for shown in Figure 13 with burnt telepilot stereographic map in the second condition.
Figure 17 is the diagrammatic cross-section along XVII-XVII line with burnt telepilot shown in Figure 16.
Main element symbol description
With burnt telepilot | 1,3 |
Body | 20,32 |
Knob structure | 10,30 |
Fixation kit | 100 |
Bearing | 101 |
Bearing cross hole | 1011 |
Fixture | 102 |
Carrier | 1021 |
Plummer | 1022 |
Perforating | 1023 |
Central shaft | 103 |
Auxiliary section | 1030 |
Holding section | 1032 |
Connecting portion | 1033 |
Fixed part | 1034 |
Sleeved part | 1035 |
Runner assembly | 300 |
Operating parts | 301 |
Regulating wheel | 302 |
Holding section | 3020 |
Handwheel | 304 |
Mounting hole | 3040,3060 |
Match wheel | 306 |
Center disk | 3062 |
Through hole | 3064,5042 |
Spoke | 3066 |
Containing hole | 3068 |
Adjusting part | 500 |
First elastic component | 501 |
Pressure knob | 502 |
Socket part | 5020 |
Pushing guide part | 5022 |
Step | 5024 |
Retaining part | 504 |
Installation portion | 5040 |
Blocking part | 5044 |
Second elastic component | 506 |
Platen | 508 |
Platen through hole | 5080 |
First disk | 5082 |
Second disk | 5084 |
Dampened disk | 70 |
Damping block | 700 |
Suspender | 34 |
Be installed with hole | 320 |
Inwall | 322 |
Groove | 324 |
Suspension ring | 340 |
Shell body | 342 |
Movable part | 344 |
Insertion section | 3420 |
Operating portion | 3422 |
Projection | 3424 |
Slider | 3426 |
Latch | 3428 |
First end | 3440 |
Pars intermedia | 3442 |
Sliding part | 3444 |
Locking part | 3446 |
3rd elastic component | 3448 |
Following embodiment will further illustrate the utility model in conjunction with above-mentioned accompanying drawing.
Embodiment
Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment 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.When an assembly is considered to " being arranged at " another assembly, it can be set directly on another assembly or may there is assembly placed in the middle simultaneously.Term as used herein " vertical ", " level ", "left", "right" and similar statement are just for illustrative purposes.
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 instructions 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.
Refer to Fig. 1, the utility model embodiment provides a kind of with burnt telepilot 1, described with burnt telepilot 1 for be installed on the filming apparatus such as video camera, camera with the wireless connections of burnt device actuating station (not shown), the described focusing ring with burnt device actuating station and filming apparatus or preset aperture ring engage.Described following described in burnt telepilot 1 Long-distance Control follows burnt device actuating station, focuses, focus or regulate aperture ring to make filming apparatus.Describedly comprise the controller (not shown) that knob structure 10 and body 20, described body 20 are provided with angular transducer (not shown) and communicate to connect with angular transducer with burnt telepilot 1.Described angular transducer is for sensing the anglec of rotation of described knob structure 10, and described rotation angle information is passed to described controller, described controller sends corresponding control command, thus controls the focusing of described filming apparatus, focusing or regulate aperture ring.
Refer to shown in Fig. 2, knob structure 10 comprises fixation kit 100, is connected to runner assembly 300 on described fixation kit 100 rotationally.
Please refer to Fig. 3 and Fig. 4, described knob structure 10 also comprises the adjusting part 500 be arranged in described runner assembly 300.The bearing 101 that fixation kit 100 comprises fixture 102, central shaft 103 and is connected to rotationally by central shaft 103 on fixture 102.
Fixture 102 is for installing runner assembly 300 and adjusting part 500.In the present embodiment, fixture 102 is a flange, can be made up, can also make for plastic cement or elastomeric material of the metal material such as aluminium alloy, steel or other alloy materials.Fixture 102 comprises carrier 1021 and is arranged at the plummer 1022 on carrier 1021.Described plummer 1022 is roughly in the form of annular discs, is provided with perforating 1023 in the middle of it.
Bearing 101 is contained in perforating 1023, and it is for being connected to fixture 102 rotationally by central shaft 103.In the present embodiment, bearing 101 roughly in cylindrical tube shape, comprises bearing cross hole 1011, and is coaxially arranged in perforating 1023 or the bottom of fixture 102.Described bearing 101 can be threaded engagement or interference fit with coordinating of described central shaft 103, and described central shaft 103 rotates relative to described fixture 102 jointly with described bearing 101.In other embodiments, described bearing 101 can be fixed together with described fixture 102 or one-body molded with described fixture 102, and described central shaft 103 is arranged in the bearing cross hole 1011 of described bearing 101 rotationally.
Please in the lump referring to shown in Fig. 3 to Fig. 5, described central shaft 103 comprises auxiliary section 1030, holding section 1032, connecting portion 1033, fixed part 1034, and sleeved part 1035.Described holding section 1032 is installed in one end, described auxiliary section 1030.Described connecting portion 1033 connects described sleeved part 1035 and described fixed part 1034.Described fixed part 1034 coordinates with described bearing 101 and is rotatably fixed on described fixture 102 by described central shaft 103.Described auxiliary section 1030 is set in described sleeved part 1035.In the present embodiment, described auxiliary section 1030 and described sleeved part 1035 interference fit, in other embodiments, described auxiliary section 1030 with described sleeved part 1035 also by threaded engagement, form fit or be clasped.Wherein form fit refers in described auxiliary section 1030 structure being provided with and adapting with described sleeved part 1035, for example square, star or other analogous shapes, as long as do not relatively rotate between the two when described auxiliary section 1030 can be made to be set in described sleeved part 1035.Described being clasped can be that the one of described auxiliary section 1030 inside surface and described sleeved part 1035 outside surface is convexly equipped with holding section, and both another one are arranged with corresponding groove.Be appreciated that described auxiliary section 1030 with described sleeved part 1035 also by other similar respective outer side edges, as long as do not relatively rotate when described auxiliary section 1030 can be made to be set in described sleeved part 1035 between the two.
Refer to Fig. 3 to Fig. 4, and shown in Figure 11 to Figure 12, runner assembly 300 is connected on fixture 102 rotationally, it comprises operating parts 301, regulating wheel 302, handwheel 304 and match wheel 306.Described operating parts 301 can partly be installed with in described regulating wheel 302.Described regulating wheel 302 roughly in collar plate shape, is convexly equipped with holding section 3020(as shown in figure 12 in the side away from described operating parts 301).Described regulating wheel 302 is housed in described handwheel 304 rotationally, and when applying external force and rotating described operating parts 301, described operating parts 301 can drive described regulating wheel 302 to rotate relative to described handwheel 304.Described handwheel 304 and match wheel 306 are roughly in cylindrical tube shape, and its perisporium can be respectively equipped with mounting hole 3040,3060, for being locked in together with described match wheel 306 by described handwheel 304.See also shown in Fig. 6, described match wheel 306 is provided with a center disk 3062 near the side of described fixture 102, and described center disk 3062 center is provided with through hole 3064, for wearing wherein for described central shaft 103.Described match wheel 306 has also been disposed radially spoke 3066, and described spoke 3066 connects described center disk 3062 and described match wheel 306 perisporium.In the present embodiment, the quantity of described spoke 3066 is 4, and mean allocation is arranged between described center disk 3062 and the perisporium of described match wheel 306.A containing hole 3068 is formed between any two spokes 3066.
Refer to shown in Fig. 3 to Fig. 4, adjusting part 500 is arranged at central shaft 103 one end away from described fixture 102, and it is for regulating the relative distance between fixture 102 and regulating wheel 302.Adjusting part 500 comprises the first elastic component 501, pressure knob 502, retaining part 504, second elastic component 506 and platen 508.Described first elastic component 501 is set on described pressure knob 502 movably.Described pressure knob 502 comprises socket part 5020 and the pushing guide part 5022 of coaxial setting.Described pushing guide part 5022 radial dimension is greater than described socket part 5020, thus forms a step 5024 between described pushing guide part 5022 and described socket part 5020.Described first elastic component 501 to be set on described socket part 5020 and to be held in described step 5024.In the present embodiment, the first elastic component 501 is volute spring.Be appreciated that elastic component 54 can for other elastic components, as shell fragment, the resilient sleeve etc. be made up of resilient material.
Described socket part 5020 can rotate to make described pressure knob 502 with holding section 3020 secure fit of described regulating wheel 302 together with regulating wheel 302.In the present embodiment, described socket part 5020 is form fit with described holding section 3020, described socket part 5020 and described holding section are roughly square structure, and described socket part 5020 size can be set on described holding section 3020 to make described socket part 5020 slightly larger than described holding section 3020 size.Be understandable that, described socket part 5020 also can be other fit systems with described holding section 3020, as threaded engagement, be clasped, interference fit etc., as long as described regulating wheel 302 can be made not relatively rotate together with described pressure knob 502 secure fit.
Described socket part 5020 is set on the auxiliary section 1030 of described central shaft 103 movably.In the present embodiment, described auxiliary section 1030 is provided with external thread, described socket part 5020 madial wall is provided with internal thread (not shown), and described socket part 5020 can relatively described auxiliary section 1030 axially-movable.Be understandable that, coordinating between described socket part 5020 with described auxiliary section 1030 can be other fit structures, make pressure knob 502 can relative centre axle 103 axially-movable under the driving of external force, and can relatively be fixed on central shaft 103 after described external force is cancelled, thus enable user by the installation position of adjustment pressure knob 502 relative to central shaft 103, reach the object of the pressure regulated between regulating wheel 302 and fixture 102.
Such as, coordinate for holding between described socket part 5020 with described auxiliary section 1030.Specifically, described auxiliary section 1030 is formed with multiple holding section, described multiple holding section is intervally installed along the axis of described auxiliary section 1030.Described socket part 5020 is arranged on auxiliary section 1030 movably, and it is formed with holding section.Described holding section holds mutually with in multiple described holding section, to be positioned on described central shaft 103 by pressure knob 502.By promoting pressure knob 502, one in described holding section and multiple described holding section is made to be separated, and fasten with another in multiple described holding section, the installation position of pressure knob 502 relative to central shaft can be adjusted, thus reach the object of the pressure regulated between regulating wheel 302 and fixture 102.Further, described holding section can be recessed groove on described auxiliary section 1030, and correspondingly, described holding section is protrude out to be formed at described socket part 5020 holds projection.Or, the structure can matched with draw-in groove for snap fit with the cooperation of described adjusting portion in described holding section.
Described retaining part 504 is roughly in the form of annular discs, offers through hole 5042, can be set on described central shaft 103 in the middle of it.Described retaining part 504 is extended with at least one blocking part 5044 vertically in the side away from described pressure knob 502.In the present embodiment, the quantity of described blocking part 5044 is 4, is radially evenly distributed on the side of described retaining part 504 away from described pressure knob 502.Described retaining part 504 is also extended with at least one installation portion 5040 vertically in the side near described pressure knob 502, fix for coordinating with the inside structure of described handwheel 304, thus described retaining part 504 can be rotated along with the rotation of handwheel 304.
Described second elastic component 506 is arranged between described platen 508 and described pressure knob 502.In the present embodiment, described second elastic component 506 is a wavy spring.Be understandable that, described second elastic component also can be other flexible members, such as, and volute spring, shell fragment, the resilient sleeve etc. be made up of resilient material.
Described platen 508 comprises platen through hole 5080 and coaxial the first disk 5082 and the second disk 5084 arranged.Described platen through hole 5080 is arranged on the approximate centre position of described first disk 5082 and the second disk 5084, and the diameter of the second disk 5084 is greater than the diameter of described first disk 5082.The pushing guide part 5022 of described pressure knob 502 is set on described first disk 5082 movably, and can relatively described first disk 5082 axially-movable.When described pressure knob 502 is towards when moving near described second disk 5084, described pressure knob 502 can be held on described second disk 5084.
Dampened disk 70 is arranged between described platen 508 and described fixture 102.Described dampened disk 70 can be nylon material, also can be the material that other are similar.Described dampened disk 70 is convexly equipped with at least one damping block 700 in the side near described fixture 102.In the present embodiment, described damping block 700 is 4, and radially equispaced is distributed in the side of described dampened disk 70 near described fixture 102.The quantity of described damping block 700 and the containing hole 3068 formed between shape and any two spokes 3066 of described match wheel 306 adapt, to make described damping block 700 can be contained in described containing hole 3068, described spoke 3066 is contained in the interval between described damping block 700.Described damping block 700 is inclined-plane near the face of described fixture 102, and when described damping block 700 is not under pressure generation deformation, described damping block 700 does not contact with the plummer 1022 of described fixture 102 at least partly near the side of described fixture 102.In the present embodiment, described damping block 700 does not contact with described plummer 1022 near the part of described central shaft 103, there is deformation when being subject to downward pressure generation deformation downwards near the part of central shaft 103 and contact with described plummer 1022, thus increasing the contact area of described dampened disk 70 and described plummer 1022.Be appreciated that described damping block 700 also can be contact with described plummer 1022 at the position near described central shaft 103, and do not contact with described plummer 1022 at the position away from described central shaft 103.Described platen 508 supports the position do not contacted with described plummer 1022 at described damping block 700.
When assembling the knob structure 10 of the utility model embodiment, first, shown in ginseng Fig. 5 to Fig. 6, the auxiliary section 1030 of central shaft 103 is fixed in described sleeved part 1035, then central shaft 103 is passed described bearing 101, described central shaft 103 is rotatably fixed on described fixture 102.Then match wheel 306 is overlayed on described fixture 102, make described central shaft 103 through the central through hole 3064 of described match wheel 306.Then, shown in ginseng Fig. 7 to Fig. 9, dampened disk 70 is placed in described match wheel 306, makes the damping block 700 of described dampened disk 70 be housed in the containing hole 3068(of described match wheel 306 as shown in Figure 6) in, then described platen 508 and retaining part 504 are overlayed on described dampened disk 70.Then, shown in ginseng Figure 10, again the second elastic component 506 is overlayed on described platen 508 through central shaft 103, then the first elastic component 501 is set on described pressure knob 502, be set in by pressure knob 502 on the auxiliary section 1030 of described central shaft 103, the pushing guide part 5022 of described pressure knob 502 is set on the first disk 5082 of described platen 508 again.Then, shown in ginseng Figure 11 to Figure 12, operating parts 301 is mounted in described regulating wheel 302, then regulating wheel 302 is installed up in described handwheel 304, finally the handwheel 304 being equiped with operating parts 301 and regulating wheel 302 is fastened on described match wheel 306, and be fixedly locked in together by retaining elements such as screws with match wheel, meanwhile, the holding section 3020 of described regulating wheel 302 is set on the socket part 5020 of described pressure knob 502.
When using the knob structure 10 of the utility model embodiment, by the rotary operating member 301 i.e. rotational angle of adjustment knobs structure 10.If the damping between runner assembly 32 and fixture 102 is excessive or too small, regulating wheel 302 and pressure knob 502 can be driven to rotate by rotary operating member 301, make pressure knob 502 centrally axle 103 axis direction relatively away from or near the plummer 1022 of described fixture 102.The pushing guide part 5022 of described pressure knob 502 supports on the second disk 5084 of described platen 508, thus applies an axle pressure to described dampened disk 70.Described dampened disk 70 is subject to the resist force of the pressure of described platen 508 and the blocking part 5044 of described retaining part 504 and produces deformation, thus increase described damping block 700 and the contact area of described plummer 1022, change the damping between described dampened disk 70 and described fixture 102.When applying contrary rotation external force and described operating parts 301, described operating parts 301 drives described regulating wheel 302 and described pressure knob 502 rotate and described pressure knob is moved towards the direction deviating from described platen 508, thus make to be applied to the distress resolves on described platen 508 and dampened disk 70, described damping block 700 recovers elastic deformation, thus the contact area reduced between described damping block 700 and described plummer 1022, change the damping between described dampened disk 70 and described fixture 12.
Be appreciated that and can also scribble damping grease between described damping block 700 and described fixture 102, regulate the damping between described damping block 700 and described fixture 102 further.The part that described dampened disk 70 contacts with described match wheel 306 also can scribble damping grease, to regulate the damping between described dampened disk 70 and described match wheel 306.When rotation hand wheel 304, described handwheel 304 drives described match wheel 306 jointly to rotate, due to the existence of the damping grease between described dampened disk 70 and described match wheel 306 and the damping grease between described damping block 700 and described fixture 102, when described handwheel can be made to regulate, feel is more smooth and continuously.
Be appreciated that, described damping block 700 can be other similar damping elements, its shape can be not limited to described structure, such as, described damping block 700 can be staggered to form for multiple annular concentric damping block and radial damping block, or multiple recessed concave point on auxiliary section 1030, or other irregular damping block shapes.Described damping block 700 can be symmetrical in the side of described dampened disk 70, also can asymmetric distribution; Can be uniformly distributed, also can non-uniform Distribution.As long as described damping block 700 can change the contact area between the plummer 1022 of damping block 700 and described fixture 102 when being under pressure and producing deformation.Be understandable that, when damping block 700 is other shapes, corresponding containing hole 3068 on described match wheel 306 is also corresponding changes into the shape adapted with damping block 700, meanwhile, described retaining part 504 also can corresponding change shape to stop described damping block 700 to be under pressure time be upwards out of shape and depart from described plummer 1022.
Be appreciated that, described retaining part 504 can omit, and the shape of described platen 508 can corresponding change and be directly pressed on the top of described dampened disk 70, play simultaneously and apply pressure on described dampened disk 70 and prevent described dampened disk 70 upwards be out of shape the described carrier of disengaging.Such as, described platen 508 protrudes out the teat of two differing heights near the side of described dampened disk 70, wherein near the teat height of central shaft lower than the teat height away from central shaft, thus when making platen applying pressure on described dampened disk 70, upwards can not there is deformation in corresponding inclined-plane, only can deformation occur downwards and increase the contact area with described plummer 1022.
Be appreciated that described platen 508 can omit, the pushing guide part 5022 of described pressure knob 502 can directly support on described dampened disk 70.
Be appreciated that the one or both in the first elastic component 501 and the second elastic component 506 can be omitted, and make pressure knob 502 directly be sheathed on central shaft 103, and be held in dampened disk 70.The use of described first elastic component 501 and the second elastic component 506 can improve the scope of described damping adjustment, is appreciated that by regulating the elasticity coefficient of described first elastic component 501 and the second elastic component 506 to regulate described damp adjustable range.
Be appreciated that the auxiliary section 1030 of coupling shaft 16 central shaft 103 and sleeved part 1035 can assembly and connection in together with, also can be one-body molded.Described auxiliary section 1030 also can be fixedly installed on regulating wheel 302, and is connected with fixture 12 by the sleeved part 1035 of central shaft 103.
Referring to shown in Figure 13, is the stereographic map with burnt telepilot 3 of another embodiment of the present invention.Describedly comprise knob structure 30, remote controller body 32 and suspended structure with burnt telepilot 3, described suspended structure can for wearing suspension strop, hang bracelet etc. wear part be convenient to user by described to be worn on burnt telepilot 3 with it.Described knob structure can be the knob structure in described any embodiment.In the described embodiment, described suspended structure comprises being arranged on described remote controller body 32 is installed with hole 320 and suspender 34, and described suspender 34 is installed on described remote controller body 32 separatably.In the present embodiment, described suspender 34 can be plugged in departing from described in be installed with in hole 320 so that described suspender 34 is installed on described remote controller body 32.
Refer to shown in Figure 14 ~ 15, be respectively shown in Figure 13 with burnt telepilot 3 at the stereographic map of the first state and cut-open view.This first state is the state that described suspender 34 is not installed on described remote controller body 32.The hole 320 that is installed with of described remote controller body 32 comprises inwall 322, and described inwall 322 is provided with groove 324.Described suspender 34 comprises suspension ring 340, shell body 342 and movable part 344.Described suspension ring 340 are fixed on described shell body 342, so that user wears.Described movable part 344 can slide axially by relatively described shell body 342.
Described shell body 342 comprises insertion section 3420, operating portion 3422, projection 3424, slider 3426 and latch 3428.Be installed with described in described insertion section 3420 is plugged in separatably in hole 320, when being installed with in hole 320 described in described insertion section 3420 is plugged in, described projection 3424 is fastened in the groove 324 of described inwall 322, thus prevents described suspender 34 from departing from from described remote controller body 32.Described operating portion 3422 radial dimension is greater than described insertion section 3420 radial dimension, thus limits the axially-movable of described suspender 34 towards described remote controller body 32.Be appreciated that, in other embodiments, described operating portion 3422 radial dimension also can be equal to or less than the size of described insertion section 3420, is installed with bottom hole 320 and can limits the further axially-movable of described insertion section 3420 described in accordingly when being installed with in hole 320 described in described insertion section 3420 is plugged in.Described projection 3424 is arranged on described insertion section 3420, and when being subject to External Force Acting, deformation can occur.Described slider 3426 is arranged on described operating portion 3422, and can slide axially by relatively described shell body 342 under external force.Described latch 3428 is arranged on described slider 3426 side, and is fixed on described movable part 344 through described shell body 342.
Described movable part 344 comprises first end 3440, pars intermedia 3442, sliding part 3444, locking part 3446 and the 3rd elastic component 3448.Described first end 3440 radial dimension is less than described pars intermedia 3442 radial dimension.Described sliding part 3444 is provided with locking part 3446 in order to the described latch 3428 that locks.Described 3rd elastic component 3448 one end is fixedly installed on inside described shell body 342, and the other end is fixedly connected on described locking part 3446.When described slider 3426 does not slide by External Force Acting, described pars intermedia 3442 radial direction supports described projection 3424, thus makes described projection 3424 that deformation occur to protrude from outside described insertion section 3420.When described slider 3426 is subject to External Force Acting towards described suspension ring 340 1 Slideslip, described slider 3426 drives described latch 3428 and described locking part 3446 to slide towards the direction away from described insertion section 3420, thus makes the 3rd elastic component 3448 be in confined state.Now, described pars intermedia 3442 is away from described projection 3424, and described projection 3424 recovers deformation.When being applied to the external force on described slider 3426 and disappearing, described 3rd elastic component 3448 elastic recovery drives described locking part 3446 and described latch 3428 to slide towards direction, described insertion section 3420 together, and described pars intermedia 3442 again extrudes described projection 3424 and described projection 3424 is protruded from outside described insertion section 3420.
Refer to shown in Figure 16 ~ 17, be respectively shown in Figure 13 with burnt telepilot 30 stereographic map in the second condition and cut-open view.Described second state is that described suspender 34 is installed in described remote controller body 32.When described slider 3426 is not by External Force Acting, described projection 3424 is because protruding from outside described insertion section 3420, when plugging to described being installed with in hole 320 in described insertion section 3420, inwall 322 crimp in hole 320 is installed with described in described projection 3424 is subject to, when described projection 3424 moves to groove 324 place of described inwall 322, described projection 3424 is recovered deformation and is entered described groove 324, thus is trapped on described groove 324 madial wall to limit the further axially-movable of described projection 3424.When described slider 3426 be subject to External Force Acting towards away from described insertion section 3420 direction slide time, described latch 3428 and described locking part 3446 is driven to slide towards the direction away from described insertion section 3420 together, described first end 3440 and described pars intermedia 3442 along with together with slide towards the direction away from described insertion section 3420, when described first end 3440 slides into corresponding described projection 3424 place, described pars intermedia 3442 is away from described projection 3424, radial dimension due to described first end 3440 is less than the radial dimension of described pars intermedia 3442, the radial compression acting force that described pars intermedia 3442 is applied in described projection 3424 disappears, described projection 3424 recovers deformation, thus described projection 3424 is exited from described groove 324, thus be convenient to described suspender 34 from described be installed with hole 320 take out.
Be appreciated that described suspender 34 can also omit, and directly on described remote controller body 32, arrange one can for the through hole wearing lanyard etc.
Be appreciated that described suspension ring 340 can be other any parts of wearing being convenient to wear, such as lanyard, bracelet etc.
Be appreciated that, described projection 3424 can be not limited to the shape in figure, can be any suitable shape such as, can be any suitable shape such as square, trapezoidal, star-like, oval, correspondingly, the shape of described groove 324 shape and described projection 3424 adapts and changes.Control the structure that structure that described projection 3424 does radial motion is also not limited to described in the embodiment of the present invention, it can be any suitable structure doing radial motion under external force, towards described shell body 342 medial motion, and can be returned to initial position and protrude from outside described shell body 342 when external force disappears when being applied in external force.Such as: drive described projection 3424 towards described shell body 342 medial motion by applying footpath outward force at the button be arranged on described shell body 342 thus described groove 324 can be exited, and when footpath outward force disappears, described projection 3424 is returned to initial position and protrudes from outside described shell body 342, thus can be fastened in described groove 324.
Be appreciated that, described groove 324 can be any support division structure that described inwall 322 is arranged, such as, projection or hook, and accordingly, described projection 3424 can inside the described shell body 342 of external force lower retraction used, thus make described insertion section 3420 insert described in when being installed with in hole 320, the side that described projection 3424 can move to described projection or link up with away from described suspender 34, when external force disappears, described projection 3424 can be returned to initial position and by described projection or hook hold, thus described suspender 34 is fixed on described remote controller body 32.When needs take out described suspender 34 from described remote controller body 32, apply external force and make described projection 3424 exit described projection or hook towards described shell body 342 medial motion, thus be convenient to described suspender 34 and be removed.
Described pars intermedia 3442 is appreciated that described first end 3440 can omit, as long as can support/discharge described projection 3424 when axially relatively described shell body moves.
In addition, for the person of ordinary skill of the art, other various corresponding change and distortion can be made according to technical conceive of the present utility model, and all these change the protection domain that all should belong to the utility model claim with distortion.
Claims (32)
1. a knob structure, it runner assembly comprising fixture and can be arranged on rotationally on described fixture, it is characterized in that: described runner assembly is arranged on described fixture, described knob structure also comprises the damping element be arranged between described fixture and described runner assembly, changes the contact area between described fixture and described damping element when described runner assembly rotates.
2. knob structure as claimed in claim 1, is characterized in that: described damping element is ramp structure near the side of described fixture.
3. knob structure as claimed in claim 1, it is characterized in that: described knob structure also comprises the central shaft be arranged on rotationally on described fixture, described runner assembly, damping element are set on described central shaft.
4. knob structure as claimed in claim 3, it is characterized in that: described runner assembly comprises operating parts, regulating wheel, handwheel and match wheel, described operating parts is arranged on described regulating wheel, described operating parts drives described regulating wheel to rotate under external force rotates, described regulating wheel is housed in described handwheel rotationally, described handwheel sleeve is located on described match wheel, described match wheel is arranged on described fixture rotationally, and described regulating wheel, handwheel and match wheel are set in and described central shaft rotate with central shaft and rotates.
5. knob structure as claimed in claim 4, is characterized in that: described match wheel and described central shaft are form fit or interference fit.
6. knob structure as claimed in claim 4, it is characterized in that: described knob structure also comprises the pressure knob be arranged on rotationally on described central shaft, described pressure knob is fixedly connected with described regulating wheel, and described pressure knob when rotated can relatively described central shaft axially-movable.
7. knob structure as claimed in claim 6, is characterized in that: described regulating wheel and described pressure knob are form fit or interference fit.
8. knob structure as claimed in claim 6, it is characterized in that: described central shaft is provided with external thread, described pressure knob is provided with internal thread, and described central shaft and described pressure knob are spirally connected by described external thread and internal thread.
9. knob structure as claimed in claim 6, it is characterized in that: described pressure knob is formed with multiple holding section, described central shaft is formed with the holding section held mutually with described holding section, described pressure knob can selectively can hold mutually with in multiple described holding section, to adjust the axial location of described pressure knob relative to described central shaft under external force drives.
10. knob structure as claimed in claim 9, is characterized in that: one in described holding section and described holding section is groove, another for described groove hold mutually coordinate hold projection.
11. knob structures as claimed in claim 6, it is characterized in that: be also provided with the first elastic component between described regulating wheel and described pressure knob, described first elastic component is set on described pressure knob.
12. knob structures as claimed in claim 6, it is characterized in that: described knob structure also comprises a retaining part, be arranged between described runner assembly and described damping element, described retaining part supports and depart from described fixture to prevent described damping element from deformation upwards occurring on described damping element.
13. knob structures as claimed in claim 12, it is characterized in that: described knob structure also comprises the platen be arranged on rotationally on described central shaft, be arranged between described pressure knob and described damping element, described platen can apply axial pressure to described damping element towards described damping element axially-movable when pressure knob axially-movable.
14. knob structures as claimed in claim 13, it is characterized in that: described knob structure also comprises the elastic component be arranged between described platen and described pressure knob, described elastic component is set on described central shaft.
15. knob structures as claimed in claim 14, is characterized in that: described elastic component is wavy spring.
16. knob structures as claimed in claim 13, is characterized in that: described damping element comprises multiple damping blocks that uniform intervals is arranged.
17. knob structures as claimed in claim 16, it is characterized in that: described retaining part is cylindrical structure, described retaining part is convexly equipped with multiple blocking part near the side of described damping element, and described multiple blocking part is corresponding with described multiple damping block respectively to be arranged.
18. knob structures as claimed in claim 16, it is characterized in that: described match wheel is circular ring structure, be provided with through hole in it with accommodating described multiple damping block, between every two damping blocks, be also provided with spoke, with damping block described in interval, prevent described damping block from radial deformation occurring.
19. knob structures as claimed in claim 16, is characterized in that: described platen comprises coaxial two disks arranged, and the first disk diameter away from described damping element is less than the second disk near described damping element.
20. knob structures as claimed in claim 19, it is characterized in that: described pressure knob comprises socket part and the pushing guide part of coaxial setting, described socket part is fixedly connected with described regulating wheel, described pushing guide part can be resisted against on described second disk when axially-movable, described first disk can be contained in described pushing guide part.
21. knob structures as claimed in claim 1, is characterized in that: be provided with damping grease between described damping element and described fixture.
22. knob structures as claimed in claim 4, is characterized in that: be provided with damping grease between described damping element and described match wheel.
23. knob structures as claimed in claim 3, is characterized in that: throughly on described fixture offer perforating, are provided with bearing in described perforating; Described central shaft is arranged in described perforating and is connected with described bearing, and described central shaft is rotationally connected by described bearing and described fixture.
24. knob structures as claimed in claim 23, is characterized in that: described bearing is ball bearing or sliding friction pair.
25. 1 kinds, with burnt telepilot, comprise remote controller body and are fixedly installed on the knob structure on body, it is characterized in that: described knob structure is the knob structure described in any one of claim 1 to 24.
26., as claimed in claim 25 with burnt telepilot, is characterized in that: describedly also comprise a suspended structure with burnt telepilot, described suspended structure can be installed and wear part, be convenient to user and wear described with burnt telepilot.
27. as claimed in claim 26 with burnt telepilot, it is characterized in that: described suspended structure comprises suspender, described suspender is provided with projection, described remote controller body is provided with and is installed with hole, the described hole inwall that is installed with is provided with support division, when described suspender is fixed on described remote controller body, described projection support by described support division.
28. as claimed in claim 27 with burnt telepilot, it is characterized in that: described projection can exit described support division towards described suspender medial motion when external force is used, and can initial position be returned to when External Force Acting disappears and protrude from outside described suspender, thus can support by described support division.
29., as claimed in claim 28 with burnt telepilot, is characterized in that: described support division for described in be installed with the groove that hole inwall is arranged.
30. as claimed in claim 28 with burnt telepilot, it is characterized in that: described suspender comprises shell body and to be fixed on inside described shell body and can the movable part of relatively described shell body axially-movable, described movable part is fixed on inside described shell body by elastic component, described shell body is provided with described projection and slider, described slider and described movable part are fixedly connected with and can slide by relative described shell body, when described slider is not by External Force Acting, described movable part supports described projection makes described projection protrude from outside described shell body, the relatively described shell body of described movable part is driven to move towards compression elastic piece direction when described slider slides by the relatively described shell body of External Force Acting, the resist force that described movable part is applied in described projection disappears, described projection is towards described shell body medial motion.
31. as claimed in claim 30 with burnt telepilot, it is characterized in that: the pars intermedia that described movable part comprises first end and is fixedly connected with described first end, described first end size is less than described pars intermedia thus makes the described first end when the elastic component direction motion described towards compression of described movable part be positioned at described projection position, and described projection is towards described shell body medial motion; When described movable part is towards during away from described elastic component direction motion, described middle part supports described projection in described projection position, and described projection protrudes from outside described shell body.
32., as claimed in claim 28 with burnt telepilot, is characterized in that: described suspender is fixed with away from one end of described remote controller body and wears part.
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CN201520811040.4U CN205050004U (en) | 2015-10-20 | 2015-10-20 | Knob structure and use this knob structure with burnt remote controller |
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CN201520811040.4U CN205050004U (en) | 2015-10-20 | 2015-10-20 | Knob structure and use this knob structure with burnt remote controller |
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Effective date of registration: 20170116 Address after: 518000 Guangdong city of Shenzhen province Nanshan District Guangdong streets south four Road No. 18 building in the West SKYWORTH semiconductor design 12 Patentee after: SZ DJI OSMO TECHNOLOGY Co.,Ltd. Address before: 518057 Guangdong province Shenzhen city Nanshan District high tech Zone South Hing a No. 9 Hongkong, Shenzhen building 6 floor Patentee before: SZ DJI TECHNOLOGY Co.,Ltd. |
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Granted publication date: 20160224 |