CN208992739U - Truss manipulator - Google Patents
Truss manipulator Download PDFInfo
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- CN208992739U CN208992739U CN201821419193.4U CN201821419193U CN208992739U CN 208992739 U CN208992739 U CN 208992739U CN 201821419193 U CN201821419193 U CN 201821419193U CN 208992739 U CN208992739 U CN 208992739U
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- disk
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- claw bar
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Abstract
The utility model discloses a kind of truss manipulators, it is intended to provide that a kind of have being capable of preferably clamp circle disk shape part, promote integral retaining effect, it avoids workpiece from falling off on hand from machinery and causes workpiece damage, the truss manipulator for the advantages of preventing economic loss, its key points of the technical solution are that, second level arm end is equipped with mechanical paw, mechanical paw includes the pivoted arm for being rotatably connected on second level arm end, pivoted arm end is fixed with pawl disk, the outer circle of pawl disk is equipped with the claw bar of several circular pawl disk settings, sliding bar is fixed among claw bar, sliding bar is slidably connected on pawl disk, claw bar and sliding bar are provided with several around the center of circle of pawl disk, it is additionally provided in pivoted arm for pushing the synchronous actuator slided towards the pawl disk center of circle of sliding bar, pressure can uniformly be applied to it from disk perimeter, to realize the clamping of circular pieces, energy It enough avoids workpiece from falling off on hand from machinery, avoids workpiece damage and economic loss.
Description
Technical field
The utility model relates to industrial robot fields, and in particular to a kind of truss manipulator.
Background technique
Manipulator is a kind of certain holding functions that can imitate manpower and arm, to by fixed routine crawl, carrying object
Or the automatic pilot of operational instrument.Feature is that various expected operations can be completed by programming, on construction and performance
Have the advantage of people and robotics respectively concurrently.
Manipulator is the industrial robot occurred earliest, and the modern machines people occurred earliest, it can be instead of the numerous of people
Heavy work can be operated with realizing the mechanization and automation of production under hostile environment to protect personal safety, thus answer extensively
For departments such as machine-building, metallurgy, electronics, light industry and atomic energy.
The application of mechanical arm also will be more and more extensive, manipulator be a kind of high-tech for growing up of recent decades from
Move production equipment, the ability to fulfil assignment in the accuracy and environment of operation.One important branch of industry mechanical arm robot,
Manipulator can be divided into fluid pressure type, pneumatic type, electrodynamic type, mechanical by driving method.Feature is can be completed by programming respectively
The advantage of people and robotics respectively is had concurrently in operation expected from kind, construction and performance.
Manipulator is mainly made of executing agency, driving mechanism and control system three parts.Hand is for grasping work
The component of part (or tool), according to by the shape of grasping object, size, weight, material and job requirements and there are many structure shape
Formula, such as clamp-type, holding type and absorbent-type.Movement mechanism makes hand complete various rotations (swing), mobile or compound motion
It realizes defined movement, changes by the position of grasping object and posture.
The self-movements mode, the referred to as freedom degree of manipulator such as the lifting of movement mechanism, flexible, rotation.In order to grab sky
Between middle any position and orientation object, need to have 6 freedom degrees.Freedom degree is the key parameter of manipulator design.Freedom degree is got over
More, the flexibility of manipulator is bigger, and versatility is wider, and structure is also more complicated.
General special manipulator has 2~3 freedom degrees.Control system is by the motor to each freedom degree of manipulator
Control, to complete specific action.The information of receiving sensor feedback simultaneously, forms stable closed-loop control.The core of control system
The heart is usually to be made of microcontroller chips such as single-chip microcontroller or dsp, realizes wanted function by programming to it.
Currently, the Chinese patent of Publication No. CN20746626U discloses a kind of welding manipulator, it includes pedestal and machine
Tool hand, the upper end of pedestal are fixedly connected with support rod, and boom, the lower end of boom and machinery are fixedly connected on the side wall of support rod
The upper end of hand connects, and manipulator is set to boom far from one end of support rod;
It is fixedly connected with gas gathering mask on the side wall of support rod, gas gathering mask is located at the underface of boom, on the side wall of gas gathering mask
It is connected with absorption tube, the upper end of absorption tube is fixedly connected with water tank, and suction fan is equipped in absorption tube, and suction fan is set to absorption
It manages in one end of gas gathering mask, the top surface of absorption tube is equipped with multiple spray heads, and spray head is set to absorption tube far from gas gathering mask
In one end, spray head is connect with water tank, and the bottom of absorption tube is equipped with collecting tank, and collecting tank is located at the underface of spray head.
It, can be to the exhaust gas generated when welding although this welding manipulator can effectively weld manipulator clamping workpiece
Carry out absorption processing, improve the feature of environmental protection of welding manipulator, but in workpiece of this manipulator in clamp circle disk shape compared with
To be laborious, and clamping effect is bad, and workpiece, which is easy to fall off on hand from machinery, causes the damage of workpiece, generates economic loss.
Summary of the invention
The purpose of the utility model is to provide a kind of truss manipulator, have can preferably clamp circle disk shape part,
The advantages of promoting integral retaining effect, workpiece avoided to fall off on hand from machinery and cause workpiece damage, prevent economic loss.
The above-mentioned technical purpose of the utility model has the technical scheme that
A kind of truss manipulator, including the mechanical arm that truss and sliding are connected on truss, mechanical arm includes mutual
The level-one arm and second level arm of rotation connection, level-one arm are connect with truss, and second level arm end is equipped with mechanical paw, and mechanical paw includes
It is rotatably connected on the pivoted arm of second level arm end, pivoted arm end is fixed with pawl disk, and the outer circle of pawl disk is equipped with several circular pawl disks
The claw bar of setting, claw bar are arranged in bending shape, and intermediate position and pawl disk are hinged, are equipped in pivoted arm for driving claw bar around hinge
The actuator of contact rotation, actuator includes the drive disk with the concentric rotation connection of pawl disk, and for driving driving to spiral
The driving link turned, drive disk are arranged in ratchet shape, and claw bar end mutually abuts with drive disk and being capable of Relative sliding.
By using above-mentioned technical proposal, mechanical arm sliding is connected on truss, when being able to maintain mechanical arm work
Stability, the setting of level-one arm and second level arm can increase the freedom degree of mechanical arm, improve the scope of application of mechanical arm,
When mechanical arm grabs discoid part, driving link starting drives driving disc spins, since drive disk is in ratchet shape,
Several claw bars can be driven when driving disc spins while synchronous around hinge joint rotation, complete the end of claw bar to disk
The clamping of Shape Parts.
It is synchronous to center sliding that bar is slid so in clamping process, while the periphery of disk is clamped, Neng Goucong
Disk perimeter uniformly applies pressure to it, to realize the clamping of circular pieces, and clamping effect is good, can be avoided workpiece from
It falls off on manipulator, avoids workpiece damage and economic loss.
Further setting: being equipped with connection buckle for connecting claw bar and drive disk between claw bar and drive disk, outside drive disk
Edge is equipped with card slot, and connection buckle one end is embedded in card slot, the other end with to connect claw bar end hinged.
Further setting: actuator includes the driving shaft on the pawl disk central axes, driving shaft penetrate drive disk and and its
It is fixedly connected, actuator further includes in pivoted arm for driving the driving motor of spindle rotation.
By using above-mentioned technical proposal, driving motor rotation, it will be able to spindle rotation is driven, so that driving be made to spiral
Turn;Connection buckle can will connect between claw bar and drive disk, and when making to drive disc spins, claw bar can be moved by the way that connection buckle is opposite
It is dynamic, to realize the relative rotation between claw bar and drive disk.
Further setting: it is connected between driving motor and driving shaft by middleware, middleware includes concentric is fixed on
Worm driver gear on driving shaft, and the active worm screw being rotatably connected in pivoted arm, the output shaft of active worm screw and driving motor
Between be wholely set.
By using above-mentioned technical proposal, when the output shaft of driving motor rotates, drive active worm screw rotates, active worm screw
Drive worm driver gear and spindle rotation, it will be able to realize the rotation of drive disk, while the self-locking performance of worm and gear can make to drive
Moving plate stops at any angle, and part in clamping process is avoided to fall off from claw bar.
Further setting: drive disk outer circle is integrally formed with several ratchets about center of circle circumference permutation, and card slot is along ratchet
Outer bevel edge distribution, and the length of card slot is less than the outer the length of the hypotenuse of ratchet.
It is mutually slid between card slot and connection buckle when driving disc spins by using above-mentioned technical proposal, works as drive disk
Clamping process is realized when rotating forward, clamping jaw is then unclamped in reversion.
By using above-mentioned technical proposal, it is arranged in obtuse angle between initiative part and follower, drives claw bar living in actuator
The angle of claw bar sliding is able to ascend when dynamic, and follower can improve folder in arc shape bending setting in clamping process
The stability held promotes clamping effect.
Further setting: follower end is hinged with pawl seat, and the rotation angle between pawl seat and follower is at -60 °~60 °
Between, pawl seat bottom is additionally provided with the seat cushion of rubber material, the setting of seat cushion indention shape.
By using above-mentioned technical proposal, the seat cushion of rubber material is arranged in pawl seat bottom, and who knows seat cushion indention shape
Setting, relative to other materials, the seat cushion of rubber material is able to ascend the friction in clamping process, improves clamping effect, and energy
Buffer function is enough formed, defective work piece in clamping process is avoided.
In conclusion the utility model has the following beneficial effects:
It is synchronous to center sliding that bar is slid in clamping process, while the periphery of disk is clamped, it can be from disk
Surrounding uniformly applies pressure to it and can be avoided workpiece from machinery to realize the clamping of circular pieces, and clamping effect is good
It falls off on hand, avoids workpiece damage and economic loss.
Detailed description of the invention
The present invention will be further described with reference to the accompanying drawing.
Fig. 1 is the structural schematic diagram of embodiment 1;
Fig. 2 is in embodiment 1 for showing the schematic diagram of pawl disk;
Fig. 3 is in embodiment 1 for showing the schematic diagram of driving link;
Fig. 4 is in embodiment 2 for showing the schematic diagram of actuator;
Fig. 5 is in embodiment 3 for showing the schematic diagram of actuator;
Fig. 6 is in embodiment 3 for showing the schematic diagram of free gear;
Fig. 7 is in embodiment 4 for showing the schematic diagram of actuator.
In figure, 1, truss;2, mechanical arm;21, level-one arm;22, second level arm;23, pivoted arm;24, mechanical paw;25, pawl
Disk;251, sliding slot;26, claw bar;261, initiative part;262, follower;263, pawl seat;264, seat cushion;27, bar is slid;3, it drives
Part;31, active turntable;32, active motor;33, driver slot;34, driven slot;35, turning gear;36, free gear;37, it pushes
Slot;38, follower lever;381, limited block;39, drive disk;391, card slot;392, ratchet;4, driving link;41, connection buckle;42, main
Moving axis;43, driving motor;5, middleware;51, worm driver gear;52, active worm screw;6, movable disk;61, catch bar;62, fixed
Bar;63, active slot;71, active rack gear;72, driving gear;8, locking member;81, locking rack;82, locking cylinder.
Specific embodiment,
Specific embodiments of the utility model will be further explained with reference to the accompanying drawing.
The technical scheme adopted by the utility model is
Embodiment 1, a kind of truss manipulator, as shown in Figure 1 comprising the truss 1 of bottom, truss 1 is in the shape of an " I " to be set
It sets, sliding is connected with mechanical arm 2 on the bar among truss 1, and mechanical arm 2 includes 21 He of level-one arm being mutually rotatablely connected
Second level arm 22, level-one arm 21 are connect with truss 1, and such mechanical arm 2 can slide work on truss 1.
As depicted in figs. 1 and 2,22 end of second level arm is equipped with mechanical paw 24, and mechanical paw 24 includes being rotatably connected on two
The pivoted arm 23 of 22 end of grade arm, 23 end of pivoted arm are fixed with pawl disk 25, and the outer circle of pawl disk 25 is equipped with several circular pawl disks 25
The claw bar 26 of setting, claw bar 26 are arranged in bending shape, and intermediate position and pawl disk 25 are hinged.Claw bar 26 including being between each other
The initiative part 261 and follower 262 of obtuse angle setting, initiative part 261 connect with drive disk 39, follower 262 be in arc shape to
The bending of 25 center position of pawl disk.
As shown in Figure 1, Figure 2 and Figure 3,262 end of follower is hinged with pawl seat 263, between pawl seat 263 and follower 262
Rotation angle between -60 °~60 °, 263 bottom of pawl seat is additionally provided with the seat cushion 264 of rubber material, 264 indention of seat cushion
Shape setting.The actuator 3 for driving claw bar 26 to rotate around hinge joint is additionally provided in pivoted arm 23, actuator 3 includes and pawl disk 25
The movable disk 6 of concentric setting.
As shown in Figures 2 and 3, catch bar 61,61 one end of catch bar and movable disk 6 are equipped between movable disk 6 and claw bar 26
Hingedly, the other end and 26 end of claw bar are hinged, and the driving link 4 for pushing movable disk 6 to slide is additionally provided in pivoted arm 23.Driving
Part 3 further includes the fixed link 62 being fixed in pivoted arm 23, and 62 end of fixed link is fixedly connected with the center of pawl disk 25, movable disk 6
It is concentric to be set in fixed link 62 and be slid along fixed link 62.
As shown in figure 3, driving link 4 includes the active rack gear 71 and be rotatably connected on that sliding is connected in fixed link 62
Driving gear 72 in arm 23, the interior active motor 32 being equipped with for driving driving gear 72 to rotate of pivoted arm 23, active rack gear 71
It is intermeshed between driving gear 72.The active slot 63 for being parallel to the setting of fixed link 62, driving tooth are opened up in fixed link 62
Item 71 is embedded in active slot 63 and can slide in active slot 63, is additionally provided in pivoted arm 23 for locking driving gear 72
Locking member 8.
As shown in Figures 2 and 3, locking member 8 includes sliding the locking rack being connected in pivoted arm 23 perpendicular to pivoted arm 23
81, locking cylinder 82 is fixed in pivoted arm 23, the output shaft and locking rack 81 of locking cylinder 82 are fixed for driving its sliding.
When mechanical arm 2 grabs discoid part, active motor 32 starts, and drives 4 activity of driving link, so that catch bar 61 is driven,
Make several claw bars 26 while synchronous around hinge joint rotation, the end of claw bar 26 is made to complete the clamping to disc-shape part.
Embodiment 2, a kind of truss manipulator, difference from example 1 is that, as shown in figure 4, actuator 3 includes
With the drive disk 39 of the concentric rotation connection of pawl disk 25, and the driving link 4 for driving drive disk 39 to rotate, drive disk 39
It is arranged in ratchet shape, 26 end of claw bar mutually abuts with drive disk 39 and being capable of Relative sliding.
As shown in Figure 1 and Figure 4,39 outer circle of drive disk is integrally formed with several ratchets 392 about center of circle circumference permutation, card
Slot 391 is distributed along the outer bevel edge of ratchet 392, and the length of card slot 391 is less than the outer the length of the hypotenuse of ratchet 392.Claw bar 26 and drive disk
The connection buckle 41 for connecting claw bar 26 and drive disk 39 is equipped between 39,39 outer rim of drive disk is equipped with card slot 391, connection buckle
41 one end are embedded in card slot 391, the other end with to connect 26 end of claw bar hinged.
As shown in Figure 1 and Figure 4, actuator 3 includes the driving shaft 42 on 25 central axes of pawl disk, and driving shaft 42 penetrates drive
Moving plate 39 is simultaneously firmly connected with it, and actuator 3 further includes the driving motor in pivoted arm 23 for driving driving shaft 42 to rotate
43.It is connected between driving motor 43 and driving shaft 42 by middleware 5, middleware 5 includes concentric is fixed on driving shaft 42
Worm driver gear 51, and the active worm screw 52 being rotatably connected in pivoted arm 23, the output of active worm screw 52 and driving motor 43
It is wholely set between axis.
Embodiment 3, a kind of truss manipulator, with embodiment 1 or 2 the difference is that, as shown in Figure 1 and Figure 5, claw bar
Sliding bar 27 is fixed on 26, sliding bar 27 is slidably connected on pawl disk 25, and claw bar 26 and sliding bar 27 are around pawl disk 25
The center of circle is provided with several, is equipped in pivoted arm 23 for pushing the synchronous actuator 3 slided towards 25 center of circle of pawl disk of sliding bar 27,
Actuator 3 includes the active turntable 31 being parallel to pawl disk 25 in pivoted arm 23 and the electricity for driving active turntable 31 to rotate
Machine slides bar 27 between active turntable 31 and pawl disk 25.
As shown in Figure 1, the side of active turntable 31 towards sliding bar 27 is equipped with the driver slot of Archimedes spiral shape
33, slide be correspondingly provided on bar 27 with the intermeshing driven slot 34 of driver slot 33, sliding slot 251 is equipped in pivoted arm 24, slides bar
27 are arranged in sliding slot 251.Active turntable 31 is equipped with turning gear around the midpoint of active turntable 31 backwards to the side of sliding bar 27
35, the interior free gear 36 for being equipped with cone cell of pivoted arm 23, free gear 36 is engaged with turning gear 35, and the output shaft of motor and activity
Gear 36 is fixed.
Embodiment 4, a kind of truss manipulator, with embodiment 3 the difference is that, as shown in Figure 1, being opened up on driving disc spacing pressing
There is the promotion slot 37 of several circular driving disc spacing pressing settings, pushing slot 37 is a part of center helical flute, is slid fixed on bar 27
There is the follower lever 38 being arranged perpendicular to sliding bar 27, follower lever 38, which is embedded at, to be pushed in slot 37.Circle is equipped at the top of follower lever 38
Limited block 381, be bonded setting at the top of limited block 381 and driving disc spacing pressing, promotion slot 37 is corresponded to each other with several sliding bars 27 to be set
It sets, and the output shaft of motor is fixed on the center location of driving disc spacing pressing.
It is the preferred embodiment of the utility model above, does not impose any limitation on the present invention,
All foundation the technical essence of the utility model any simple modification, equivalent change and modification made to the above embodiment,
Belong in the range of utility model technical solution.
Claims (7)
1. a kind of truss manipulator is connected to the mechanical arm (2) on truss (1), mechanical arm including truss (1) and sliding
It (2) include the level-one arm (21) and second level arm (22) being mutually rotatablely connected, level-one arm (21) is connect with truss (1), and feature exists
In: second level arm (22) end is equipped with mechanical paw (24), and mechanical paw (24) includes being rotatably connected on second level arm (22) end
The pivoted arm (23) at end, pivoted arm (23) end are fixed with pawl disk (25), and the outer circle of pawl disk (25) is equipped with several circular pawl disks
(25) claw bar (26) being arranged, claw bar (26) are arranged in bending shape, and hingedly, pivoted arm (23) is interior for intermediate position and pawl disk (25)
Equipped with the actuator (3) for driving claw bar (26) to rotate around hinge joint, actuator (3) includes and pawl disk (25) concentric rotation
The drive disk (39) of connection, and the driving link (4) for driving drive disk (39) to rotate, drive disk (39) are set in ratchet shape
It sets, claw bar (26) end mutually abuts with drive disk (39) and being capable of Relative sliding.
2. truss manipulator according to claim 1, it is characterised in that: set between the claw bar (26) and drive disk (39)
There is the connection buckle (41) for connecting claw bar (26) and drive disk (39), drive disk (39) outer rim is equipped with card slot (391), connection buckle
(41) one end is embedded in card slot (391), the other end with to connect claw bar (26) end hinged.
3. truss manipulator according to claim 2, it is characterised in that: the actuator (3) includes being set to pawl disk (25)
Driving shaft (42) on central axes, driving shaft (42) penetrate drive disk (39) and are firmly connected with it, and actuator (3) further includes setting
In the driving motor (43) in pivoted arm (23) for driving driving shaft (42) to rotate.
4. truss manipulator according to claim 3, it is characterised in that: the driving motor (43) and driving shaft (42) it
Between by middleware (5) connect, middleware (5) includes the concentric worm driver gear (51) being fixed on driving shaft (42), and
The active worm screw (52) being rotatably connected in pivoted arm (23), one between active worm screw (52) and the output shaft of driving motor (43)
Setting.
5. truss manipulator according to claim 2, it is characterised in that: drive disk (39) outer circle is integrally formed with several
A ratchet (392) about center of circle circumference permutation, card slot (391) is distributed along the outer bevel edge of ratchet (392), and the length of card slot (391)
Degree is less than ratchet (392) outer the length of the hypotenuse.
6. truss manipulator according to claim 1, it is characterised in that: the claw bar (26) include between each other in obtuse angle
The initiative part (261) and follower (262) of setting, initiative part (261) are connect with drive disk (39), and follower (262) is in camber line
Shape is bent to pawl disk (25) center position.
7. truss manipulator according to claim 6, it is characterised in that: follower (262) end is hinged with pawl seat
(263), between -60 °~60 °, pawl seat (263) bottom is additionally provided with the rotation angle between pawl seat (263) and follower (262)
The seat cushion (264) of rubber material, the setting of seat cushion (264) indention shape.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821419193.4U CN208992739U (en) | 2018-08-30 | 2018-08-30 | Truss manipulator |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821419193.4U CN208992739U (en) | 2018-08-30 | 2018-08-30 | Truss manipulator |
Publications (1)
Publication Number | Publication Date |
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CN208992739U true CN208992739U (en) | 2019-06-18 |
Family
ID=66799959
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201821419193.4U Active CN208992739U (en) | 2018-08-30 | 2018-08-30 | Truss manipulator |
Country Status (1)
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CN (1) | CN208992739U (en) |
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2018
- 2018-08-30 CN CN201821419193.4U patent/CN208992739U/en active Active
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