CN106312955A - Handheld tool and clamping device thereof - Google Patents
Handheld tool and clamping device thereof Download PDFInfo
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- CN106312955A CN106312955A CN201510363870.XA CN201510363870A CN106312955A CN 106312955 A CN106312955 A CN 106312955A CN 201510363870 A CN201510363870 A CN 201510363870A CN 106312955 A CN106312955 A CN 106312955A
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Abstract
The invention discloses a handheld tool and a clamping device thereof. The clamping device of the handheld tool comprises a clamping unit for fixing a working head in an axial direction. An operating assembly comprises an operating component for operating the clamping unit; the operating assembly further comprises a driving unit for being connected to the clamping unit and the operating component without relative rotation, wherein the driving unit is translationally supported while rotates around the axial direction. The handheld tool disclosed by the invention has the clamping device. Under the circumstance of no other auxiliary tools, the working head is quickly mounted or detached, and the operating interface is very simple and easy to master by an operator.
Description
Technical field
The present invention relates to a kind of hand-held tool, a kind of hand-held tool and the folder of hand-held tool
Tight device.
Background technology
Multi Role Aircraft is the hand-held swing hand-held tool that industry is common, and its operation principle is output shaft
Axial line around self does oscillating motion.Therefore, it is provided with not on the free end of output shaft as user
After same work head, after straight blade, saw blade, triangle frosted dish, spade-type scraper, it is possible to achieve
Multiple different operating function, as sawed, cut, grind, scraping, to adapt to different work requirements.
China's Patent Application Publication the CN101780668Ath, disclosed a kind of Multi Role Aircraft, including electricity
Machine, the motor shaft of motor connects cam pin, is arranged with bearing, thus constitutes one partially on cam pin
Heart wheel construction.When motor shaft rotates, eccentric wheel structure can do eccentric rotation around the axial line of motor shaft
Transhipment is dynamic.The output shaft of Multi Role Aircraft is perpendicular to what motor shaft was arranged, connection fixing on output shaft
Having a pull-fork assembly, pull-fork assembly is formed with relative two adjutage, is surrounded by eccentric wheel structure,
The inner side of two adjutages is all in close contact with the bearing in eccentric wheel structure, thus when eccentric does bias
During rotation, eccentric wheel structure can drive shift fork to produce the oscillating motion in horizontal direction, again by shift fork with
The fixing connection of output shaft, makes output shaft swing around its axial line.Free end at output shaft is installed
After different work heads, Multi Role Aircraft i.e. can realize multiple operating function under oscillating motion at a high speed.
But, current Multi Role Aircraft still uses the most original work head mounting means, i.e. by pulling
Fastening bolt is unscrewed by hands, is then taken off from output shaft by tightening member;Same, in the peace of adnexa
Filling and replace with, being also to adopt in the same way, fastening bolt is unscrewed by needs by spanner can be more
Change jobs head tighten installation, operates the most loaded down with trivial details and wastes time and energy.
Therefore, it is necessary to provide the hand-held tool of a kind of improvement, to solve the problems referred to above in fact.
Summary of the invention
The technical problem to be solved is: provides a kind of clamping device and has this clamping device
Hand-held tool, it is possible to without using aid just can be reliably installed on output shaft by work head.
For solving above-mentioned technical problem, the technical solution adopted in the present invention is as follows:
A kind of clamping device of hand-held tool, including:
Clamping unit, for fixing work head in the axial direction;
Operating assembly, including the operating element for operating described clamping unit;
Described operating assembly also includes driver element, and described driver element is for connecting institute without relative rotation
Stating clamping unit and described operating element, wherein said driver element is rotating same around axial direction
Shi Pingdong is supported by.
Preferably, described driver element translation in the plane being perpendicular to described axial direction.
Preferably, described driver element is in translation along described axial direction.
Preferably, described driver element is fixing with described operating element is connected.
Preferably, the angle that described driver element rotates relative to described clamping unit is more than or equal to 360
Degree.
Preferably, described clamping unit include connect unit, described driver element by around described axially
It is connected unit matching with described linearly while that direction being rotating.
Preferably, described driver element includes actuator and driver slot;Described connection unit includes link slot
And connector, wherein said actuator can move in described link slot, and described connector can drive described
Dynamic groove moves.
Preferably, described driver slot and described link slot at least one of which are helicla flutes.
Preferably, described driver slot and described link slot one are elliptical slots, and other in which is spiral
Groove.
Preferably, described actuator and described connector are straight pin.
Preferably, described driver element includes the first actuator and the second actuator;Described connection unit bag
Including the first link slot and the second link slot, wherein said first actuator can move in described first link slot
Dynamic, described second actuator can move in described second link slot.
Preferably, described driver element includes the first driver slot and the second driver slot;Described connection unit bag
Including the first connector and the second connector, wherein said first connector can move in described first driver slot
Dynamic, described second link element can move in described second driver slot.
For solving above-mentioned technical problem, another technical scheme of the present invention is as follows:
A kind of clamping device of hand-held tool, including:
Clamping unit, for fixing work head in the axial direction;
Operating assembly, including the operating element for operating described clamping unit;
Described operating assembly includes driver element, the described driver element of the exercisable drive of described operating element
Around axial direction rotating while translation so that described operating assembly has matching model and disengagement
Pattern, at described matching model, described operating element is connected without relative rotation with described clamping unit;
In described disengaged mode, described operating element can relatively rotate with described clamping unit.
Preferably, described driver element translation in the plane being perpendicular to described axial direction.
Preferably, described driver element is in translation along described axial direction.
Preferably, described clamping unit includes the connection unit pivotably arranged around axial direction, described
Driver element by around axial direction rotating while be connected unit matching with described linearly, be used for
Switching matching model and disengaged mode.
Preferably, described driver element includes actuator and driver slot;Described connection unit includes link slot
And connector, wherein said actuator can move in described link slot, and described connector can drive described
Dynamic groove moves.
Preferably, described driver slot is helicla flute, and described helicla flute includes end wall one and end wall two, described
Link slot includes that sidewall one and sidewall two, wherein said connector coordinate with described end wall one or end wall two,
The most described actuator coordinates with described sidewall one or sidewall one, and described operating assembly is in matching model;
Described connector all disengages with described end wall one and end wall two, and described operating assembly is in disengaged mode.
For solving above-mentioned technical problem, another technical scheme of the present invention is as follows:
A kind of hand-held tool, it has the clamping device described in the claims.
The clamping device of the present invention and there is the hand-held tool of this clamping device, by driving operating element
Drive driver element around axial direction being supported by of translation while of rotating, thus realize operation
Assembly switches between disengaged mode and matching model, at matching model, only need to turn clockwise or counterclockwise
Dynamic operating element then can realize Fast Installation or the dismounting of work head, it is not necessary to uses aid the most permissible
Reliably work head is installed on output shaft;And operate interface person the simplest, easily operated and grasp.
In disengaged mode, operating element can be moved into correct position, prevents in the course of the work, operation unit
Part hinders the sight line of operator, it is to avoid dangerous generation.
Accompanying drawing explanation
Fig. 1 is the sectional view of the head capsule part of Multi Role Aircraft in first embodiment of the invention, now locks
Part not yet inserts in locking member.
Fig. 2 is the perspective exploded view of subelement in Multi Role Aircraft shown in Fig. 1.
Fig. 3 is the sectional view of the driving dish of Multi Role Aircraft shown in Fig. 1.
Fig. 4 is the sectional view of the locking member of Multi Role Aircraft shown in Fig. 1.
Fig. 5 is the sectional view in Fig. 1 along line A-A, and now operating assembly is in disengaged mode.
Fig. 6 is the sectional view in Fig. 1 along line A-A, and now operating assembly is in matching model, operation unit
Part can drive locking member to unclamp work head.
Fig. 7 is the sectional view in Fig. 1 along line A-A, and now operating assembly is in matching model, operation unit
Part can drive locking member locking work head.
Fig. 8 is the sectional view in Fig. 1 along line A-A, and now operating assembly is in disengaged mode, operation unit
Part can be moved into correct position.
Fig. 9 is the sectional view of the head capsule part of Multi Role Aircraft, now locking piece and locking shown in shown in Fig. 1
Part coordinates.
Figure 10 is the sectional view of the head capsule part of Multi Role Aircraft in second embodiment of the invention, now locks
Part not yet inserts in locking member.
Figure 11 is the partial perspective view of the driver element of Multi Role Aircraft shown in Figure 10.
Figure 12 is connection unit and the axonometric chart of locking member of Multi Role Aircraft shown in Figure 10.
Figure 13 a-Figure 13 i be in Figure 10 the operating assembly of Multi Role Aircraft between matching model and disengaged mode
The schematic diagram of switching.
Figure 14 is the partial perspective view of Multi Role Aircraft shown in Figure 10, and now operating assembly is in matching model.
Figure 15 is the phantom of Multi Role Aircraft in third embodiment of the invention, now actuator and company
Fitting disengages.
Related elements reference numeral in diagram is as follows:
30. Multi Role Aircraft 58. ring flange 86. main bodys
32. housing 60. installation portion 88. actuators
34. output shaft 62. cutting part 90. driver slots
36. work 64. connecting portion 92. connecting portion
38. clamping device 66. locking member 94. driving dishes
40. clamping unit 68. locking piece 96. nuts
41. axial direction 70. lid 98. elastic components
42. operating assembly 72. upper cover body 100. accepting grooves
44. motor 74. lower cover 102. end walls one
46. eccentric drive mechanism 76. pressing plate 104. end walls two
48. eccentric part 77. screwed hole 106. link slots
50. shift fork 78. bar portion 108. connectors
52,54 rolling bearing 80. operating element 110. sidewalls one
56. cavity 82. driver element 112. sidewalls two
57. through holes 84. connect unit 114. Magnet
230. Multi Role Aircraft 288. actuator 2102. lower surfaces
232. housing 2881. upper side 2103. first bearing surfaces
234. output shaft 2882. downside 2104. second bearing surfaces
236. work 2883. first drive surface 2105. second slide surface
238. clamping device 2884. second drive surface 310. connectors
240. clamping units 2885. first coordinate face 3101. first contact surface
242. operating assemblies 2886. second coordinate face 3102. second contact surface
256. cavity 292. connecting portion 338. clamping devices
258. ring flange 294. driving dish 342. operating assemblies
266. locking member 208. first connector 366. locking pieces
End face 380. operating element on 268. locking pieces 2081.
277. screwed hole 2082. times end face 382. driver elements
278. bar portion 2083. first abutment faces 384. connect unit
280. operating element 2084. second abutment face 388. actuators
282. driver element 2085. first slide surface 3881. first drive surface
284. connect unit 210. second connector 3882. second drive surface
286. main body 2101. upper surfaces
Detailed description of the invention
Below in conjunction with the accompanying drawings and detailed description of the invention the present invention is described in further detail.
Specifically a kind of oscillating-type hand-held tool of the hand-held tool related in present embodiment, also known as many
Function machine.But the present invention is not limited to swing hand-held tool, it is also possible to be that rotation grinds hand-held
Instrument, such as sander or electric angle grinder etc..
Fig. 1 show the head zone of Multi Role Aircraft 30 in present embodiment.This Multi Role Aircraft 30 has
Housing 32, from the output shaft 34 internally extended of housing 32, the work that is arranged on output shaft 34 end
36, for work 36 being fixed on the clamping device 38 of output shaft 34 end.Clamping device 38
Including clamping unit 40 and operating assembly 42, wherein clamping unit 40 is for pressing from both sides on axial direction 41
Tight work 36, operating assembly 42 is used for driving clamping unit 38.
When Multi Role Aircraft 30 works, output shaft 34 rotates oscillating traverse motion around himself axis X 1,
Thus produce bigger sudden change moment of torsion along the both direction swung.Accordingly, it would be desirable to the biggest axial clamping
Power guarantees above-mentioned work 36 to be maintained on output shaft 34 under all of working condition, can't
Occur skidding and affecting work efficiency and maybe cannot work.The Multi Role Aircraft 30 that present embodiment is provided can
Meet the demand, it is provided that enough chucking powers, and can Quick-clamped and release work 36, and
Without using other aid.
It is additionally provided with motor 44 in housing 32 and the rotation that motor shaft exports is changed into output shaft 34
The eccentric drive mechanism 46 of oscillating motion.It is inclined that this eccentric drive mechanism 46 includes being arranged on motor shaft
Central member 48 and the shift fork 50 being set on output shaft 34, eccentric part 48 is enclosed in two of shift fork 50
Between slidingsurface.When eccentric part 48 rotates, by with the coordinating of shift fork 50, being turned motion and turning
Chemical conversion output shaft 34 is relative to the oscillating motion of himself axis X 1, and angle of oscillation is at about 0.5 to 7 degree
Between, and hunting frequency scope may be configured as 5000 to 30000 times the most per minute.
Referring back to Fig. 1, the axis X 1 place straight line of output shaft 34 is defined as longitudinal direction, with axis X 1
Vertical direction is defined as laterally, and under the bottom of paper is, the top of paper is upper.Description hereinafter is equal
Use definition herein.Output shaft 34 is hollow form, the longitudinal bracing two axis of rolling in housing 32
Hold between 52,54.In output shaft 34 upper end is housed in housing 32 and be provided with cavity 56;Lower end is provided with
Extend the housing 32 ring flange 58 for installment work 36.It is further opened with on ring flange 58 axially
Through hole 57, this through hole 57 connects above-mentioned cavity 56.
Work 36 is a kind of straight blade, it will be understood by those skilled in the art that it is readily conceivable that work head
36 can also be other adnexa, such as saw blade, emery disc, scraper etc..This work 36 horizontally set,
It has the tabular installation portion 60 for being arranged on output shaft 34, for cutting cutting part 62 and
Connecting portion 64 between installation portion 60 and cutting part 62.
Clamping unit 40 includes joining around axial direction 41 locking member 66 pivotly with locking member 66
The locking piece 68 closed.
Concrete, locking member 66 is pivotally disposed on housing 32 around axis X 1, is positioned at output
The upper end of axle 34, and utilize output shaft 34 to avoid moving axially.Certainly, such as those skilled in the art institute
Understanding, locking member 66 can also be rotatably disposed in the cavity 56 of output shaft 32.
In the present embodiment, housing 32 includes the lid 70 being positioned at top, and lid 70 includes being connected with each other
Upper cover body 72 and lower cover 74.Locking member 66 is substantially in circular, it is possible in lower cover 74 certainly
By rotating, in the middle part of it, axially offer screwed hole 77.
Locking piece 68 passes installation portion 60 and the through hole 57 of work 36, and then extends output shaft 34
In cavity 56.Locking piece 68 includes being positioned at the ring-type pressing plate 76 of bottom and axial from the middle part of pressing plate 76
Upwardly extending bar portion 78, the end in bar portion 78 is provided with external screw thread (not shown), and bar portion 78 wears
After crossing through hole 57, it is impossible to rotate relative to output shaft 34.During installation, the bar portion 78 of locking piece 68 passes
The cavity 56 of output shaft 34, and with screwed hole 77 screw-threaded coupling of locking member 66, thus by work head
36 are fixed on the ring flange 58 of output shaft 34, and are clamped in the bottom surface of ring flange 58 and pressing plate 76
Between end face.
It may be noted that in present embodiment, locking piece 68 is provided with bar portion, and screw thread offered by locking member 66
Hole, the present invention is not limited to this structure.It will be understood by those skilled in the art that it is readily conceivable that also may be used
So that bar portion is arranged on locking member, and screwed hole is arranged on locking piece, now needs also exist for locking
Locking member is arranged to can not output shaft rotation relatively.It addition, the threaded engagement locking of indication of the present invention, permissible
It is that common one start screw coordinates, it is also possible to be double end or bull;The size of ridge does not limits, Ke Yishi
Coarse thread or closely-pitched;Form of thread shape can be triangle thread, rectangular thread, trapezoidal thread, sawtooth
One in shape screw thread.
During output shaft 34 oscillating motion, work 36, clamping unit 38 can be driven to swing together.This reality
The subelement executing the operating assembly 42 in mode needs to be arranged on hull outside, it is simple to the direct hands of user
Dynamic operation, and without using other aid.And if drive behaviour when clamping unit 38 swings simultaneously
Make assembly 42 to swing, then influence whether the operating handle of user, have safety the most in some cases
The problem of aspect, it is therefore desirable to after work 36 is locked by clamping unit 38, it is to avoid drive operational group
Part 42 synchronous hunting.
In present embodiment, operating assembly 42 has matching model and disengaged mode, thus realizes operational group
Part 42 is selectively connected without relative rotation with clamping unit 38.Need locking member 66 and locking piece
68 when relatively locking or unclamp, and operating assembly 42 is selectively in matching model, operating assembly 42
It is connected without relative rotation with clamping unit 38, then drives locking member 66.After locking member 66 is locked
When needing work, may select and operating assembly 42 is in disengaged mode, operating assembly 42 then can be with folder
Tight unit 38 relatively rotates, and is affected from without being swung by clamping unit 38.
Referring back to Fig. 1 and Fig. 2, operating assembly 42 includes operating element 80 and driver element 82.Clamping
Unit 38 also includes connecting unit 84.Wherein, operating element 80 drives list for manual operation to drive
Unit 82 motion, thus driver element 82 cooperates with being connected unit 84, makes operating assembly 42 join
Switch between syntype and disengaged mode.
Driver element 82 partial receipt is in the cavity of upper cover body 72, and is positioned at the top of locking member 66.
Driver element 82 includes the main body 86 being connected with operating element 80, the actuator being arranged in main body 86
88 and driver slot 90 (seeing Fig. 3).Wherein main body 86 includes superposed vertical cylindrical connecting portion
92 and be positioned at the discoid driving dish 94 of bottom.
Connecting portion 92 is connected by nut 96 is fixing with operating element 80.Concrete, on connecting portion 92
Being provided with external screw thread, it is connected through the hole in upper cover body 72 and operating element 80 with nut 96, thus will
Operating element 80 is fixing with connecting portion 92 to be connected.Certainly, in present embodiment, will be connected by screw thread
Portion 92 is fixing with operating element 80 to be connected, but the present invention is not limited to aforesaid way, art technology
Personnel it is readily conceivable that other realization rate, as welded, with pin riveting etc..And operating element
80 can also be one-body molded with main body 86.
Driving dish 94 can be without relative movement on axial direction 41 relative to upper cover body 72.And be convenient
Ground manipulation operation element 80, operating element 80 can also drive driving dish 94 to exist relative to upper cover body 72
Move on axial direction 41.It is to say, after connecting portion 92 is threadeded with nut 96, operating element
80 together with driver element 82 can relative to upper cover body 72 in default scope at axial direction 41
Upper movement.
Further, being provided with elastic component 98 between driving dish 94 and upper cover body 72, elastic component 98 provides
Driving dish 94 is away from the elastic force of upper cover body 72 moving direction.Present embodiment Elastic part 98
For stage clip.When needs manipulation operation element 80, the elastic force of elastic component 98 only need to be overcome, the most slightly
Micro-pull operation element 80, makes operating element 80 have enough activity spaces;And after completing locking,
Under the effect of the elastic force of elastic component 98, the relative upper cover body 72 of operating element 80 is relatively fixed.
Seeing Fig. 2 and Fig. 3, actuator 88 is straight pin, and this straight pin 88 is housed on driving dish 94
Accepting groove in 100.Here, in straight pin 88 can be fixed on accepting groove 100, it is also possible to drive
Moving plate 94 is one-body molded.
Driver slot 90 is arranged on driving dish 94 towards on the surface of locking member 66, and this driver slot 90 is spiral shell
Spin slot.The helix of helicla flute 90 is gradually increased (D2 > D1) around O point radius and extends.In this enforcement
In example, O point is the center of driving dish 94, and certain O point can also be relative to the center deviation of driving dish 94
The heart is arranged.Helicla flute 90 has end wall 1 and an end wall 2 104, and wherein end wall 1 is closer to O
Point.The angle change of end wall 1 102 to end wall 2 104 is more than or equal to 360 degree, such as 380 degree, and 400
Degree etc..
See Fig. 2 and Fig. 4, connect link slot 106 He that unit 84 includes being arranged on locking member 66
Connector 108.Visible, connecting unit 84 pivotably can set around axial direction 41 (can axis X 1)
Put.Actuator 88 can move in link slot 106, and connector 108 can move in driver slot 90.
Here, link slot 106 is arranged on locking member 66 towards on the end face of driving dish 94, this link slot 106
For elliptical slot.Elliptical slot 106 there is sidewall 1 and sidewall 2 112.Connector 108 is same
Sample is arranged on the end face of driving dish 94, and its shape is all identical with actuator 88 with mounting means,
Do not repeat at this.The width of elliptical slot 106 is equal or slightly larger than the diameter of actuator 88.Accordingly,
The width of helicla flute 90 is equal or slightly larger than 108 diameters of connector.So, when actuator 88 is even
Moving in access slot 106, connector 108 moves in driver slot 90 so that driver element 82 around
While axial direction 41 rotation, translation is supported by.In the present embodiment, driver element 82 is vertically
Translation in the plane of axial direction 41.It is to say, when operating element 80 drives driver element 82
Relative in the motor process connecting unit 84, driver element moves around driving axis X2, driving axis
X2 is parallel to axis X 1, and in motor process, driving axis X2 and the distance variable of axis X 1.
Operating element 80 is an operation handle, and its end-to-end distance off-axis line X1 has certain distance, in order to easily
Ground by operating element 80 drive driver element 82 around axial direction 41 rotating while linearly with
Connect unit 92 to coordinate.
It is discussed in detail how operating assembly 42 is cut between disengaged mode and matching model below in conjunction with the accompanying drawings
Change.
Refer to Fig. 5, Fig. 6 and Fig. 7, operating assembly 42 is moved to matching model by disengaged mode.As
Shown in Fig. 5, in disengaged mode, connector 108 is located substantially at helicla flute 90 centre position, with end wall one
102 do not contact with end wall 2 104;Meanwhile, during actuator 88 is also located substantially at elliptical slot 106
Between position.Now, operating element 80 can relative on both direction E, F turn with clamping unit 38
Dynamic.That is, the activity of operating element 80 cannot drive locking member 66 to rotate around axis X 1, thus not
Can be swung by clamping unit 38 and be affected.
And if, under the disengaged mode shown in Fig. 5, F drives operating element 80 in a second direction.As
Shown in Fig. 6, operating element 80, while driving actuator 88 to move in link slot 106, also carries
Dynamic driver slot 90 moves relative to connector 108, and then makes end wall 1 coordinate with connector 108,
Actuator 88 also closely cooperates with sidewall 1.At this moment, operating assembly 42 is just moved by disengaged mode
To matching model.It is to say, operating assembly 42 is connected without relative rotation with clamping unit 38,
Under this pattern, driver element 82 and connection unit 84 and operating element 80 are relatively fixed, along second party
Continuing to drive operating element 80 to F, so, operating element 80 is rotating counterclockwise around axis X 1
The most also drive locking member 66 to rotate around axis X 1, thus unclamp work 36.
Or, under the disengaged mode shown in Fig. 5, E drives operating element 80 in the first direction.Such as figure
Shown in 7, operating element 80, while driving actuator 88 to move in link slot 106, also drives
Driver slot 90 moves relative to connector 108, and then makes end wall 2 104 coordinate with connector 108, drives
Moving part 88 also closely cooperates with sidewall 2 112.At this moment, operating element 42 also by disengaged mode move to
Matching model.It is to say, operating assembly 42 is connected without relative rotation with clamping unit 38, at this
Under pattern, driver element 82 and connection unit 84 and operating element 80 are relatively fixed, in the first direction
E continues to drive operating element 80, and so, operating element 80 is same rotate clockwise around axis X 1
Time also drive locking member 66 to rotate around axis X 1, thus lock work 36.
As it is shown in fig. 7, operating assembly 42 is in matching model, drive operating element 80 can drive locking
Part 66 rotates clockwise, and locks work 36.And in order to avoid operating assembly 42 operationally by locking
Part 66 drives synchronous hunting.Therefore need by matching model, operating assembly 42 is moved to disengaged mode.Cause
This is under this matching model, can drive shown in operating element 80 to Fig. 8 by F in a second direction, operation unit
Part 80, while F moves in a second direction, promotes end wall 2 104 to disengage with connector 108.
At this moment, operating assembly 42 is moved to disengaged mode by matching model.It is to say, operating assembly 42 can
To rotate relative to clamping unit 38, in this mode, operating element 80 drive driver element 82 around
The translation while that axial direction 41 being rotating.So, then can freely drive operating element 80 move to
Correct position, also will not drive locking member 66 to rotate.
The most as shown in Figure 8, continue F in a second direction and drive operating element 80, promote end wall 1
Coordinate with connector 108, operating assembly 42 can be made again to be moved to matching model by disengaged mode.Visible
Drive operating element 80 in one direction, operating assembly 42 can be made to be moved to disengaged mode by matching model
Move to matching model again.But in real process, it is common that, as work head need to be locked, then by along
One direction E operates operating element 80, makes operating assembly 42 be moved to matching model, behaviour by disengaged mode
Make element 80 and can drive locking member locking work head.And after locking, then F drives behaviour in a second direction
Making element 80, make operating assembly 42 be moved to disengaged mode by matching model, only operating element 80 moves
To correct position and fixed, without driving locking member to move together.And if now Multi Role Aircraft 30
Work, locking member also will not drive operating element 80 to swing when swinging.And when unclamping work head, then edge
Second direction F drives operating element, makes operating assembly 42 be moved to matching model, behaviour by disengaged mode
Making element 80 can drive locking member to unclamp work head.
Refer again to Fig. 1, be fitted in upper cover body 72 at operating element 80, and be provided with Magnet 114.Upper cover body
72 are provided with the Magnet (not shown) attracting with Magnet 114.So, work 36 is installed to defeated
After on shaft 34, drive operating element 80 to be at disengaged mode, freely drive operating element 80,
When Magnet 114 and Magnet are attracting, operating element 80 is then moved to correct position.So, multi-functional
In machine work process, operating element 80 just can be fixed by housing 32 relatively, does not also interfere with operator's
Sight line, it is to avoid dangerous generation.Certainly, operating element 80 is relative to the fixing mode of housing 32 not
Being only limitted to aforesaid way, those skilled in the art it is readily conceivable that other realization rate, as at housing 32
On buckle be set coordinate with operating element 80, as long as Multi Role Aircraft 30 can be made to work, it is to avoid operation
The relative housing 32 of element 80 is movable.
It may be noted that in present embodiment, by driver slot is set to helicla flute, link slot is set to
Elliptical slot;And actuator and connector are disposed as cylindrical pin, realize driver element around
Being supported by of translation while that axial direction 41 being rotating, i.e. realizes operating assembly at matching model and de-
Switch between on-mode.Helicla flute includes end wall one and end wall two, and link slot includes sidewall one and sidewall two,
Wherein connector coordinates with end wall one or end wall two, simultaneously drives part and coordinates with sidewall one or sidewall one, behaviour
It is in matching model as assembly;Connector and end wall one and end wall two all disengage and state operating assembly and be in
Disengaged mode.But the present invention is not limited to aforesaid way, those skilled in the art it is readily conceivable that other
Realization rate, switch between matching model and disengaged mode as long as being capable of operating assembly.
Such as, the helicla flute on driver slot exchanges mutually with the elliptical slot of link slot.Again or elliptical slot
The change of shape, as being straight trough, or end wall is not semicircle, again or sidewall one and sidewall
Two at least a part of which sides arrange the shape with connector mating shapes.Again or driver slot and link slot equal
For helicla flute, and spiral fluted helix can also be to be different from this enforcement to be gradually increased around O point radius
Extend, and be only to increase around O point radius to extend.And if both of which is helicla flute, then actuator or
Connector coordinates with two spiral fluted end walls respectively, then operating assembly is in matching model.The most also
Can not only limit to is helicla flute, and only need to be capable of operation can while rotating around axial direction 41
With translation.Driver element 82 is more than or equal to 360 degree relative to the rotational angle of clamping unit 40,
Make operating element 80 anglec of rotation in the circumferential more than or equal to 360 degree, so can conveniently operate
Element 80 can return back to correct position.Certainly, operating element 80 anglec of rotation in the circumferential also may be used
With less than 360 degree.
Actuator and connector may not be straight pin, and its cross section can be square, triangle etc.
Other shape, as long as not hindering it mobile in driver slot or link slot.The free end of straight pin 88
Can be conical end, ball end etc., to facilitate it to move.
Certainly, driving dish can also arrange the first actuator and the second actuator;Connect unit and include the
One link slot and the second link slot, wherein the first actuator can move in the first link slot, and second drives
Part can move in the second link slot.
Equally, driving dish can arrange the first driver slot and the second driver slot;Connect unit and include first
Connector and the second connector, wherein the first connector can move in the first driver slot, the second connector
Part can move in the second driver slot.
Here, the first actuator and the second actuator or the first connector and the second connector are concrete
Arranging can actuator and connector described above.And the first driver slot and the second driver slot or first are even
Access slot and arranging of the second link slot can be such as above-mentioned driver slot and link slots.
Specific operation process is discussed in detail below in conjunction with the accompanying drawings.
Shown in Fig. 1, first work 36 is arranged on ring flange 58 and the locking piece 68 of output shaft 34
Between, if the opening (not shown) on the installation portion 60 of work 36 is for close, needing will lock
Tight part 66 completely disengages from out with locking piece 68, it to be taken off from output shaft 34, then by locking piece
68 install to output shaft 34 after the opening of work 36.It may be noted that such as work head herein
Opening is processed into nonocclusive, leaves the breach in the bar portion that may pass through locking piece.This kind of situation will be without locking
Locking member is pulled down completely from locking member, only need to unscrew locking member, make locking piece and output shaft carrier it
Between reserve and be available for the gap that the installation portion of work head passes.
After locking piece 68 is inserted the cavity 56 of output shaft 34, the top external screw thread in its bar portion 78 and lock
The screwed hole 77 of tight part 66 contacts.At this moment, overcome the elastic force of elastic component 98, the most somewhat pull behaviour
Make element 80, be further continued for driving operating element 80 so that operating assembly 42 is moved to joining by disengaged mode
Syntype.Seeing Fig. 7, E drives operating element 80 in the first direction, drives actuator 88 connecting
While groove 106 moves, also drive driver slot 90 to move relative to connector 108, and then make end wall
2 104 coordinate with connector 108, and actuator 88 also closely cooperates with sidewall 2 112.Operating element
42 are also moved to matching model by disengaged mode.In this mode, driver element 82 and connection unit 84
And operating element 80 is relatively fixed, E continues to drive operating element 80 in the first direction, and then passes through
Driver element 82 drives locking member 66 around the relative locking piece of axis X 1 68 with the cooperation connecting unit 84
Rotate.Owing to the screwed hole 77 of locking member 66 and the bar portion of locking piece 68 are threaded engagement, revolve at screw thread
Under the effect of clamp force, locking piece 68 while rotating axially on move, eliminate work 36 and locking piece
Axial gap between 68 and the ring flange 58 of output shaft 34.As it is shown in figure 9, continue rotation process unit
Part 80, until feel that operating element 80 rotates difficulty, now works 36, locking piece 68 and defeated
Ring flange 58 three of shaft 34 is respectively provided with the biggest axial normal pressure each other, has accordingly
The biggest frictional force, thus enough moments of torsion can be transmitted to prevent work head and locking piece 68 and output
Occur between the ring flange 58 of axle 34 relatively sliding, and affect work efficiency.
After locking member 66 and locking piece 68 are locked completely, then may refer to Fig. 8.Operating assembly 80 quilt
F drives in a second direction, promotes end wall 2 104 to disengage with connector 108.At this moment, operational group
Part 42 is moved to disengaged mode by matching model.In this mode, operating element 80 drives driver element
82 around axial direction 41 rotating while translation.So, then operating element 80 can be driven to move
Move the correct position absorbed mutually with the Magnet of setting in upper cover body 72 to Magnet 114, and then prevent locking member
66 drive operating assembly 42 to swing together.
By introduction to the operating procedure of installment work 36 above, it is readily appreciated that dismantlement work head
Contrary operation is performed when 36.When needing dismantlement work 36, only need to drive operation unit counterclockwise
Part 80, makes operating assembly 42 be moved to matching model by disengaged mode.
Specifically can be found in Fig. 6, F drives operating element 80 in a second direction, drives actuator 88 even
While moving in access slot 106, connector 108 moves also relative to driver slot 90, and then makes end wall one
102 coordinate with connector 108, and actuator 88 also closely cooperates with sidewall 1.At this moment, operational group
Part 42 is the most just moved to matching model by disengaged mode.In this mode, driver element 82 and connection are single
Unit 84 and operating element 80 are relatively fixed, and drive operating element 80 counterclockwise, by driver element 82
Drive locking member 66 to rotate relative to locking piece 68 around axis X 1 and unclamp threaded, make locking
Part 68 axially moves down certain distance;Finally, operating element 80 continues to rotate, until locking member 66 and lock
Locking member 68 is completely disengaged threaded, now can be pulled down from output shaft 34 by locking piece 68, takes out work
Work 36.
By described above, the Multi Role Aircraft 30 of the present invention is arranged on the operation on housing 32 by employing
Assembly 42, in the case of not using other aid, only need to be in both direction clockwise or counterclockwise
Drive operating assembly 42, can turn in the two directions relative to locking piece 68 by fast driving locking member 66
Dynamic, it is achieved the Fast Installation of work 36 or dismounting.Operation interface person the simplest, easily operated grasp.
Add and rotate some circles drive locking member 66 and locking piece 68 screw fastening by operation operating assembly 42
Tightly, therefore, it is possible to ensure that the axial normal pressure that work 36 is subject to is sufficiently large, work 36 is made stably may be used
It is installed on output shaft 34 by ground, prevents work 36 from occurring skidding under any working environment, carry
The work efficiency of high workload 36.
It addition, operating assembly 42 is by arranging driver element 82 further and connecting unit 84, make behaviour
Make assembly to switch between matching model and disengaged mode.After work 36 is locked, drive behaviour
Make assembly 42 to be moved to disengaged mode by matching model, it is to avoid locking member 66 drives operating assembly 42 to move,
Thus decrease the friction between operating assembly 42 and locking member 66 and vibrations, make whole instrument have more
Good operating handle.And, operating element 80 is arranged at output shaft 34 one end away from ring flange 58,
Hence away from work 36, work 36 will not be touched during operation operating element 80, thus prevent by mistake
Hurt operator.
In above-mentioned embodiment, the angle that the operating assembly 42 of Multi Role Aircraft 30 rotates under matching model
Scope is more than 90 degree, and preferred rotation angle range is more than or equal to 360 degree, less than or equal to 1080
Degree.It may be noted that the hand-held tool of the present invention is to drive locking member relative to locking piece by operating assembly
Rotate against, and eventually through screw-threaded coupling.It should be understood readily by those skilled in this art, operating assembly can
To rotate some circles, until locking member is locked with locking piece.
The operating assembly of the hand-held tool of the present invention is mainly used in operationally driving locking member and locking piece
On mutually rotation the specific implementation by screw-threaded coupling, operating assembly and connection unit are not limited to
State the detailed description of the invention in the first embodiment.Below by by following second and the 3rd embodiment
Describe, specifically introduce operating assembly and connect other implementation of unit.
Detailed description of the invention two
As shown in FIG. 10 to 14, second embodiment of the present invention discloses a kind of swing hand-held work
Tool, i.e. Multi Role Aircraft 230, this Multi Role Aircraft 230 include housing 232, be arranged in housing 232 defeated
Shaft 234, work 236 is fixed on the clamping device 238 of output shaft 234 end.Clamping device
238 include clamping unit 240 and operating assembly 242.Wherein clamping unit 240 is at axial direction
Clamp work 236 on 41, including the locking piece 268 inserted in output shaft 234, be housed in housing 232
In and be used for locking the locking member 266 of locking piece 268.Operating assembly 242 is used for driving clamping unit 238,
Particularly, locking member 266 is driven to rotate around the axis X 3 of output shaft 234.
Operating assembly 242 includes operating element 280 and driver element 282.Clamping unit 238 also includes
Connect unit 284.Wherein, operating element 280 moves with drive driver element 282 for manual operation,
Thus driver element 282 cooperates with being connected unit 284, make operating assembly 242 at matching model and
Switch between disengaged mode.
Wherein operating element 280 is with the operating element 80 in the first embodiment.With in the first embodiment
Multi Role Aircraft 30 is compared, and driver element 282 and connection unit 284 have different structures.
As shown in figure 11, driver element 282 includes arranging the main body including being connected with operating element 280
286, the actuator 288 being arranged in main body 286.Wherein main body 286 includes superposed vertical circle
Column connecting portion 292 and the discoid driving dish 294 being positioned at bottom.Wherein, connecting portion 292 and behaviour
The connected mode making element 280 is same as the first embodiment, does not repeats at this.With the first embodiment
Except that, operating element 280 can drive driving dish 294 to rotate around axis X 3.Actuator 288
Be arranged on the medial surface of driving dish 294, including the upper side 2881 be arrangeding in parallel and downside 2882,
The first drive surface 2883 be arrangeding in parallel and the second drive surface 2884, the first cooperation face 2885 be arrangeding in parallel
Face 2886 is coordinated with second.Wherein upper side the 2881, first drive surface 2883, first coordinate face 2885,
Downside the 2882, first drive surface 2884 and the first cooperation face 2886 are sequentially connected with.And first drive surface
2883 are obliquely installed relative to upper side 2881;First cooperation face 2885 is perpendicular to upper side 2881 He
Downside 2882.
As shown in figure 12, connect unit 284 and include the first connector 208 and the second connector 210, excellent
Choosing, the first connector 208 and the second connector 210 stagger setting at axial direction 41.Here mistake
Offer to put and refer to and horizontal direction both direction upper at axial direction 41 (longitudinal direction) and all stagger setting.
First connector 208 and the second connector 210 are outside axial direction 41 is arranged on locking member 266
On side.Concrete, the first connector 208 include the upper end face 2081 that be arranged in parallel and lower end face 2082,
First abutment face 2083 and second abutment face the 2084, first slide surface 2085 of angled setting.Accordingly
The second connector 210 also include the upper surface 2101 be arrangeding in parallel and lower surface 2102, angled set
The first bearing surface 2103 and second bearing surface the 2104, second slide surface 2105 put.Wherein first connects
The upper end face 2081 of part 208 be arranged in parallel with the lower surface 2102 of the second connector 210.Angled set
First bearing surface 2103 of the first abutment face 2083 of putting and the second abutment face 2084 and angled setting
With the second bearing surface 2104 towards setting.
Actuator 288 may select and coordinates in the first connector 208 or the second connector 210, i.e. actuator
28 select coordinate arbitrary with the first connector 208 and the second connector 210, and operating assembly 242 is in
Matching model, operating assembly 242 is connected without relative rotation with clamping unit 238, then can drive
Locking member 266 rotates.And actuator 288 disengages and joins with the first connector 208 or the second connector 210
Closing, i.e. actuator 288 is not arbitrary with the first connector 208 and the second connector 210 coordinates, then grasp
Making assembly 242 and be in disengaged mode, operating assembly 242 then can relatively rotate with clamping unit 238,
Affected from without being swung by clamping unit 238.
Concrete, referring to Figure 13 a to Figure 13 d, operating assembly 242 is with disengaged mode moves to
Pattern.As depicted in fig. 13 a, in disengaged mode, actuator 288 and the first connector 208 and second connect
Arbitrary in fitting 210 all mismatching, now, operating element 280 and clamping unit 238 can be at two
Relatively rotate on direction.That is, the activity of operating element 280 cannot drive locking member 266 around axis X 3
Rotate, affected from without being swung by clamping unit 238.
And if, under the disengaged mode shown in Figure 13 a, E rotating operation element 280 in the first direction
Mobile to Figure 13 b;Continue in the first direction during E rotating operation element 280, such as Figure 13 c institute
Showing, the first drive surface 2883 of actuator 288 connects with the second slide surface 2105 of the second connector 210
Touch and slide along the second slide surface 2105.Now, actuator 288 is rotating around axial direction 41
The most in axial direction translation on 41.Continue E rotating operation element 280 in the first direction, until driving
First drive surface 2883 of moving part 288 contacts with the second abutment face 2084 of the first connector 208;Drive
First cooperation face 2885 of moving part 288 contacts with the first abutment face 2083 of the first connector 208.Can
Seeing Figure 13 d and Figure 14, at this moment, actuator 288 coordinates with the first connector 208, operating assembly 242
Mobile to matching model.It is to say, operating assembly 242 connects without relative rotation with clamping unit 238
Connecing, in this mode, driver element 282 and connection unit 284 and operating element 280 are relatively fixed,
E is rotated further operating element 280 in the first direction, and locking member 266 can be driven around axis X 3 turns
Dynamic, thus lock work 236.
And during screwing, due to the first abutment face 2083 with the second abutment face 2084 is angled sets
Put, so face 2885 and the first drive surface 2883 can be coordinated with first respectively to be in close contact, it is simple to behaviour
Making element 280 drives locking member 266 to rotate around axis X 3.And it is sliding for preventing on axial direction 41
Dynamic, referring back to Figure 13 d, the upper side 2881 of actuator 288 is by the bottom surface 2102 of the second connector 210
Stop.And the included angle A between the first abutment face 2083 and the second abutment face 2084 and the first drive surface
2883 and first coordinate the included angle B between face 2885 identical, can be obtuse angle can also be acute angle.When
So, if angle difference can also, if included angle A is more than included angle B, if the first abutment face 2083 He
Second abutment face 2084 can stop the first cooperation face 2885 and the first drive surface 2883.
Certainly, face is coordinated to coordinate if only arranging the first abutment face with first on actuator, it is also possible to reach
To matching model, and locking member 266 is driven to rotate around axis X 3 by operating element 280.And
First abutment face can also be parallel to axial direction 41 and extend, or tilts necessarily relative to axial direction 41
Angle.
After locking, then may refer to Figure 13 d, can F rotating operation assembly 280 in a second direction, promote
Actuator 288 is made to disengage with the first connector 208.At this moment, operating assembly 242 moves to disengagement
Pattern, can be found in Figure 13 e, and in this mode, operating element 280 drives driver element 282 around axle
Rotate to direction 41, but locking member 266 will not be driven to rotate.So, operating element 280 moves to conjunction
Right position is put and is fixed, and then prevents locking member 266 from driving operating assembly 242 to swing together.
And if need dismantlement work 236, then may refer to Figure 13 e to Figure 13 i, operating assembly 242
Then moved to matching model by disengaged mode.F rotating operation element 280 in a second direction, drives and drives
Part 288 continues around axis direction 41 and rotates.During rotation, as shown in figure 13f, actuator
Second drive surface 2884 of 288 contacts and along first with the first slide surface 2085 of the first connector 208
Slide surface 2085 slides, now, actuator 288 around axial direction 41 rotate while also along axle
Translation on direction 41.Continue F rotating operation element 280 in a second direction, see Figure 13 g and figure
13h, the bottom surface 2882 of actuator 288 contacts with the upper end face 2081 of the first connector 208, and edge
Upper end face 2081 slides.Until the second drive surface 2886 of actuator 288 and the second connector 210
Second bearing surface 2104 contacts;Second cooperation face 2884 and the second connector 210 of actuator 288
First bearing surface 2103 contacts.Operating assembly 242 is in matching model, and actuator 288 is connected with second
Part 210 coordinates, at this moment, in this mode, and driver element 282 and connection unit 284 and operation unit
Part 280 is relatively fixed, in a second direction F rotating operation element 280, is driven by driver element 282
Locking member 266 rotates relative to locking piece 268 around axis X 3 and unclamps threaded, makes locking piece
268 axially move down certain distance;Finally, operating element 280 continues to rotate, until locking member 266 with
Locking piece 268 is completely disengaged threaded, now can be pulled down from output shaft 234 by locking piece 268,
Take out work 236.
And during unscrewing, due to the first bearing surface 2103 with the second bearing surface 2104 is angled sets
Put, so face 2886 can be coordinated to be in close contact with the second drive surface 2884 and second respectively, it is simple to behaviour
Making element 280 drives locking member 266 to rotate around axis X 1.And it is sliding for preventing on axial direction 41
Dynamic, the downside 2882 of the first bearing surface actuator 288 is by the upper end face 2081 of the first connector 208
Stop.
And the angle C between the first bearing surface 2103 and the second bearing surface 2104 and the second drive surface 2884
With second coordinate the angle D between face 2886 identical, can be obtuse angle can also be acute angle.Certainly,
If angle difference can also, if angle C is more than angle D, if the first bearing surface 2103 and second
Bearing surface 2104 can stop the second drive surface 2884 and the second cooperation face 2886.
Certainly, face is coordinated to coordinate if only arranging the first bearing surface with second on actuator, it is also possible to reach
To matching model, and locking member 266 is driven to rotate around axis X 3 by operating element 280.And
First bearing surface can also be parallel to axial direction 41 and extend, or tilts necessarily relative to axial direction 41
Angle.
Included angle A between first abutment face 2083 and the second abutment face 2084 and the first bearing surface 2103
And the angle C that second between bearing surface 2104 can also angle identical.
It may be noted that in present embodiment, selectable with the first connector with the by arranging actuator
Whether two connectors coordinate, realize driver element around axial direction 41 rotating while along axis
Being supported by of direction translational, i.e. realizes operating assembly and switches between matching model and disengaged mode.Drive
Moving part selectively coordinates with the first or second connector, and operating assembly is in matching model;Actuator with
First and second connectors all disengage, and operating assembly is in disengaged mode.But the present invention does not limit
In aforesaid way, those skilled in the art it is readily conceivable that other realization rate, as long as being capable of behaviour
Make assembly to switch between matching model and disengaged mode.
Such as, actuator and the first connector or the second connector are not contacted with face by face and drive its turn
Dynamic, such as latch, steel ball etc. can be set.
And for example driver element includes staggering two actuators arranged along described axial direction, and connects unit
Including a connector, select coordinate and mismatch with two actuators by connector, realize behaviour
Make assembly to switch between matching model and disengaged mode.Connector and two one of them cooperations of actuator,
Operating assembly is in matching model;Actuator and two actuators all disengage, then operating assembly is in
Disengaged mode.
First abutment face 2083 and the second abutment face 2084 and the first of angled setting of angled setting
Bearing surface 2103 and the second bearing surface 2104 are towards setting.Can make operating element 280 in the circumferential
The anglec of rotation, more than 360 degree, so can facilitate operating element 80 can return back to correct position.Certainly,
Also can be by the first bearing surface 2103 of the first abutment face 2083 and the second abutment face 2084 with angled setting
Arrange dorsad with the second bearing surface 2104, or by the first connector and the second connector position in the axial direction
In same straight line, equally realize creating conception of the present invention.
And, those skilled in the art, it is readily conceivable that translation while rotating around axial 41, go back
It can be simultaneously both direction translation in the axial direction with in the plane being perpendicular to axis direction.
By described above, the Multi Role Aircraft 230 of the present invention is arranged on the behaviour on housing 232 by employing
Make assembly 242, in the case of not using other aid, only need to around axial direction 41 two not
Same side drives up operating assembly 42, can exist relative to locking piece 268 by fast driving locking member 266
Rotate in both direction, it is achieved the Fast Installation of work 236 or dismounting.Operation interface is very simple,
Easily operated person grasps.
The most simply introduce the present embodiment specific operation process.
Shown in Figure 10, first work 236 is arranged on ring flange 258 and the locking piece of output shaft 234
Between 268.After locking piece 268 is inserted the cavity 256 of output shaft 234, the top in its bar portion 278
External screw thread contacts with the screwed hole 277 of locking member 266.At this moment, E drives operating element in the first direction
280 so that operating assembly 242 is moved to matching model by disengaged mode.Specifically can be found in Figure 13 a extremely
Shown in 13c, E rotating operation element 280 in the first direction, until the first drive surface of actuator 288
2883 contact with the second bearing surface 2084 of the first connector 208;First cooperation face of actuator 288
2885 contact with the first abutment face 2083 of the first connector 208.At this moment, actuator 288 and first
Connector 208 coordinates, and operating assembly 242 moves to matching model.In this mode, driver element 282
Being relatively fixed with connection unit 284 and operating element 280, E is rotated further operation unit in the first direction
Part 280, can drive locking member 266 to rotate around axis X 3, thus lock work 36.
After locking member 266 and locking piece 268 are locked completely, then may refer to Figure 13 d.Along second party
To F rotating operation assembly 280, actuator 288 is promoted to disengage with the first connector 208.At this moment,
Operating assembly 242 moves to disengaged mode.In this mode, operating element 280 drives driver element 282
Rotate around axial direction 41, but locking member 266 will not be driven to rotate.So, operating element 280
Move to correct position and fixed, and then preventing locking member 266 from driving operating assembly 242 to swing together.
By introduction to the operating procedure of installment work 236 above, it is readily appreciated that dismantlement work
Contrary operation is performed when 236.When needing dismantlement work 236, only need F in a second direction
Drive operating element 280, make operating assembly 242 be moved to matching model by disengaged mode.
Specifically can be found in Figure 10, F drives operating element 280 in a second direction so that operating assembly 242
Moved to matching model by disengaged mode.Specifically can be found in shown in Figure 13 d to 13h, F in a second direction
Rotating operation element 280, until the second drive surface 2886 of actuator 288 and the second connector 210
Second bearing surface 2104 contacts;Second cooperation face 2884 and the second connector 210 of actuator 288
First bearing surface 2103 contacts.Can be found in 13g, at this moment, actuator 288 is joined with the second connector 208
Closing, operating assembly 242 moves to matching model.In this mode, driver element 282 and connection unit
284 and operating element 280 be relatively fixed, F rotating operation element 280 in a second direction, by driving
Moving cell 282 drives locking member 266 to rotate relative to locking piece 268 around axis X 3 and unclamp screw thread
Connect, make locking piece 268 axially move down certain distance;Finally, operating element 280 continues to rotate, directly
Threaded to locking member 266 is completely disengaged with locking piece 268, now can be by locking piece 268 from output
Axle 234 is pulled down, takes out work 236.
Detailed description of the invention three
Embodiments of the present invention three are simply introduced below in conjunction with Figure 15.Embodiment three is with embodiment two
Big portion structure is identical, not same be the concrete structure of clamping device 338.In the present embodiment, drive
Moving cell 382 is the actuator 388 being fixedly connected on operating element 380.Actuator 388 includes the back of the body
To the first drive surface 3881 and the second drive surface 3882 arranged.Certainly, actuator 388 can also be with
Operating element 380 is one-body molded.Connect unit 384 to include being arranged on locking piece 366 upper connector 310.
In the present embodiment, described connector 310 is protruding, and described protruding 310 include first arranged dorsad
Contact surface 3101 and the second contact surface 3102.When actuator 388 coordinates with connector 310, operational group
Part 342 is in matching model;Actuator 388 disengages and coordinates with connector 310, at operating assembly 342
In disengaged mode.
Concrete operation is as follows, at operating element 380 around axis X 4 E in the first direction of output shaft
Rotate time, actuator 388 can be driven to rotate together.Until the first drive surface 3881 and the first contact surface
3101 contacts, make operating assembly 342 be in matching model.In this mode, E in the first direction is continued
Rotate, then locking member 366 can be driven to rotate around axis X 4, thus lock work head.
After locking, can rotate by F in a second direction, drive actuator 388 to disengage and connector 310
Coordinate, make operating assembly 342 be in disengaged mode.In this pattern, operating element 380 drives actuator
388 rotate around axis X 4, but locking member 366 will not be driven to rotate.So, operating element 380
Move to correct position and fixed, and then preventing locking member 366 from driving operating assembly 342 to swing together.
When needing dismantlement work head, only need F in a second direction to drive operating element 280, driving can be driven
Part 388 rotates together.Until the second drive surface 3882 contacts with the second contact surface 3102, make operational group
Part 342 is in matching model.In this mode, continue F in a second direction and rotate, then can drive lock
Tight part 366 rotates around axis X 4, thus dismantlement work head.
Claims (18)
1. a clamping device for hand-held tool, including:
Clamping unit, for fixing work head in the axial direction;
Operating assembly, including the operating element for operating described clamping unit;
It is characterized in that: described operating assembly also includes driver element, described driver element is for without relatively
Connecting described clamping unit and described operating element rotationally, wherein said driver element is around axle
Being supported by of translation while of rotating to direction.
2. clamping device as claimed in claim 1, it is characterised in that: described driver element is being perpendicular to
State translation in the plane of axial direction.
3. clamping device as claimed in claim 1, it is characterised in that: described driver element is along described axle
Translation on direction.
4. clamping device as claimed in claim 1, it is characterised in that: described driver element is relative to described
The angle that clamping unit rotates is more than or equal to 360 degree.
5. clamping device as claimed in claim 1, it is characterised in that: described driver element and described operation
Element is fixing to be connected.
6. clamping device as claimed in claim 1, it is characterised in that: described clamping unit includes connecting list
Unit, described driver element by around described axial direction rotating while linearly with described company
Connect unit matching.
7. clamping device as claimed in claim 6, it is characterised in that: described driver element includes actuator
And driver slot;Described connection unit includes link slot and connector, and wherein said actuator can be in institute
Stating in link slot and move, described connector can move in described driver slot.
8. clamping device as claimed in claim 7, it is characterised in that: described driver slot and described link slot
At least one of which is helicla flute.
9. clamping device as claimed in claim 7, it is characterised in that: described driver slot and described link slot
One is elliptical slot, and other in which is helicla flute.
10. clamping device as claimed in claim 6, it is characterised in that: described driver element includes that first drives
Moving part and the second actuator;Described connection unit includes the first link slot and the second link slot, wherein
Described first actuator can move in described first link slot, and described second actuator can be described
Second link slot moves.
11. clamping devices as claimed in claim 6, it is characterised in that: described driver element includes that first drives
Dynamic groove and the second driver slot;Described connection unit includes the first connector and the second connector, wherein
Described first connector can move in described first driver slot, and described second link element can be in institute
State in the second driver slot and move.
The clamping device of 12. 1 kinds of hand-held tools, including:
Clamping unit, for fixing work head in the axial direction;
Operating assembly, including the operating element for operating described clamping unit;
It is characterized in that: described operating assembly includes driver element, the exercisable drive of described operating element
Described driver element around axial direction rotating while translation so that described operating assembly have
Having matching model and disengaged mode, at described matching model, described operating element is single with described clamping
Unit connects without relative rotation;At described disengaged mode, described operating element and described clamping unit
Can relatively rotate.
13. clamping devices as claimed in claim 12, it is characterised in that: described driver element is being perpendicular to
Translation in the plane of described axial direction.
14. clamping devices as claimed in claim 12, it is characterised in that: described driver element is along described
Translation on axial direction.
15. clamping devices as claimed in claim 12, it is characterised in that: described clamping unit include around
The connection unit that axial direction is pivotably arranged, described driver element is by turning around axial direction
It is connected unit matching with described linearly while Dong, is used for switching matching model and disengaged mode.
16. clamping devices as claimed in claim 15, it is characterised in that: described driver element includes driving
Part and driver slot;Described connection unit includes link slot and connector, and wherein said actuator can be
Moving in described link slot, described connector can move in described driver slot.
17. clamping devices as claimed in claim 16, it is characterised in that: described driver slot is helicla flute,
Described helicla flute includes end wall one and end wall two, and described link slot includes sidewall one and sidewall two, its
Described in connector coordinate with described end wall one or end wall two, the most described actuator and described sidewall
One or sidewall one coordinate, described operating assembly is in matching model;Described connector and described end wall
One and end wall two all disengage, described operating assembly is in disengaged mode.
18. a hand-held tool, it has the clamping device as described in claim 1 to 17 is arbitrary.
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CN106903657A (en) * | 2017-02-13 | 2017-06-30 | 南京德朔实业有限公司 | Power tool |
CN106903657B (en) * | 2017-02-13 | 2019-08-06 | 南京德朔实业有限公司 | Power tool |
CN110549302A (en) * | 2018-06-01 | 2019-12-10 | 株式会社牧田 | Working tool |
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