CN208826643U - A kind of adjustable bionic hopping device of jumping degree - Google Patents
A kind of adjustable bionic hopping device of jumping degree Download PDFInfo
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- CN208826643U CN208826643U CN201821228795.1U CN201821228795U CN208826643U CN 208826643 U CN208826643 U CN 208826643U CN 201821228795 U CN201821228795 U CN 201821228795U CN 208826643 U CN208826643 U CN 208826643U
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- rack
- drive rod
- back leg
- hinged
- foreleg
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Abstract
The utility model relates to robotic technology fields.Technical solution is: a kind of adjustable bionic hopping device of jumping degree, it is characterised in that: the bouncer includes rack, rack-mounted driving mechanism, transmission mechanism, rear leg mechanism, front leg mechanism and controller;The front leg mechanism and rear leg mechanism are two groups and are symmetrically installed on the rack;The driving mechanism include be rotatably positioned on the rack and the first pinion gear driven by stepper motors, engage with the first pinion gear and with co-axially fixed first gear wheel of the second pinion gear, be rotatably positioned second gear wheel fixed on the rack and with coaxial ratchet, it is hinged on the rack and with the pawl of ratchet cooperation, be rotatably positioned the third pinion fixed on the rack and with cam and swingably position l-shaped rod on the rack.The bouncer is able to achieve being adjustably controlled for jumping degree, has the characteristics that strong skip capability, stable structure, convenient for control.
Description
Technical field
The utility model relates to robotic technology field, specifically a kind of adjustable bionic hopping device of jumping degree.
Background technique
Currently, mobile robot is applied very extensive, according to the difference of motion mode, robot can be divided into four classes: one,
Wheeled robot, its advantage is that high-speed and high-efficiency, can arrive at the destination in a short time, but the obstacle climbing ability of wheeled robot is small.
Two, legged mobile robot, its advantage is that obstacle climbing ability is good, but the speed of legged mobile robot and efficiency are all very low, and control ratio
It is more complex.Three, caterpillar type robot, its advantage is that it is adaptable, it is compact to design, but weight and energy consumption are all very big.Four, bullet
Robot is jumped, advantage is mainly manifested in the following aspects compared with other three robots: (1) being suitable for complex environment;
(2) obstacle climbing ability is strong;(3) scope of activities is big, and structure is simple with control and kinematic dexterity is big, high reliablity and size are small;
(4) hopping robot can especially give full play to star face acceleration of gravity well below the earth.But for more dangerous or people
It is not easy in the environment reached, such as archaeology to the detection of coffin chamber, the exploration of external celestial body, military surveillance and counterterrorist activity, this
The general topography of a little occasions is complex, it is understood that there may be various barriers, this requires robots to have very strong autokinetic movement energy
Power crosses these obstacles.For with all-wheel drive and bionical walking or creeping as the robot of main motion mode, one is encountered
A little taller and bigger obstacles, their forms of motion is difficult to go beyond or obstacle detouring efficiency is lower.
Currently, most of hopping robot, which mainly passes through, adjusts the variation that take-off angle realizes jumping degree, adjustable range
It is limited, it is not the control that jump degree and long-jump degree are realized from bouncing mechanism characteristic.
Utility model content
The purpose of the utility model is to overcome the deficiencies of above-mentioned background technique, provide a kind of adjustable bionic hopping of jumping degree
Device, the bouncer should be able to realize being adjustably controlled for jumping degree, have strong skip capability, stable structure, convenient for control
Feature.
Technical solution provided by the utility model is:
A kind of adjustable bionic hopping device of jumping degree, it is characterised in that: the bouncer includes rack, is mounted on rack
On driving mechanism, transmission mechanism, rear leg mechanism, front leg mechanism and controller;The front leg mechanism and rear leg mechanism are two
It group and is symmetrically installed on the rack;
The driving mechanism include be rotatably positioned on the rack and the first pinion gear driven by stepper motors, with the
The engagement of one pinion gear and with co-axially fixed first gear wheel of the second pinion gear, be rotatably positioned it is same on the rack and with ratchet
The second fixed gear wheel of axis, it is hinged on the rack and with the pawl of ratchet cooperation, be rotatably positioned on the rack and with it is convex
It takes turns fixed third pinion and swingably positions l-shaped rod on the rack, second pinion gear and the first gear wheel
It is rotatably positioned in one end of l-shaped rod, is engaged with third pinion or the second pinion gear and second with controlling the first gear wheel
Gear wheel engagement;A hinged sliding block at the disalignment position of the ratchet;
Leg mechanism includes after successively hingedly forming the first back leg, the second back leg and third of four-bar mechanism with rack after described
Leg;The third back leg is in " V " type, passes through hinging pin shaft at the break of third back leg hingedly on the rack;Third back leg one
Arm is resisted against flank of cam, another arm and the second back leg are hinged;
The transmission mechanism includes the first drive rod, the second drive rod and the third that four-bar mechanism is formed after connecting with rack
Drive rod and several big springs for energy storage and exoergic;Wherein the first drive rod and third drive rod are respectively hinged at second
The both ends of drive rod, the other end of first drive rod is hingedly on the rack;The other end of the third drive rod is set on
On first back leg and the articulated shaft of rack;Support plate is fixed at the midpoint of second drive rod;The big spring one
End by connecting plate hingedly on the supporting plate, the other end by upper junction plate be hinged on the second back leg and third back leg it is rear hingedly
On axis;The sliding slot for sliding block insertion cooperation is offered in the middle part of first drive rod;
The front leg mechanism includes the first foreleg, the second foreleg and third foreleg;First foreleg one end is hinged on machine
On frame, the other end is rotationally located on the second foreleg along the axis of the first foreleg;The other end and third of second foreleg
Foreleg is hinged;
All of above hinged axis is mutually parallel;
The controller is single-chip microcontroller;The single-chip microcontroller is fixed on the rack.
It is set at the break of the l-shaped rod on pinion shaft and the telescope motor by being fixed on the rack drives;L-shaped rod
The other end also to the pawl pressure make it have the trend engaged with pawl.
One little spring forces in the pawl and makes it have the trend for being detached from pawl.
First drive rod is identical as the length of third drive rod and is slightly larger than the length of the second drive rod, to guarantee the
The motion profile of two drive rod midpoints is straight line identical with the prolonging direction of big spring.
The axis of the big spring is located at the position to the left of two hinge joint lines of third back leg.
It is also worn on hinging pin shaft 13-1 and torsional spring 14 is installed;The both ends of the torsional spring hook bundle respectively and are fixed on rack and third
On back leg, so that third back leg has the trend of counter-clockwise swing.
The stepper motor and telescope motor are cooperated respectively with monolithic mechatronics with controlling the work of each mechanism.
The beneficial effects of the utility model are:
1, the utility model controls the second pinion gear by " L " type bar and engages or control the first canine tooth with the second gear wheel
Wheel is engaged with third pinion, to control the rotation or stopping of ratchet, and then controls energy storage or the exoergic of big spring.
2, the axis of the big spring of the utility model design is located at two hinge joint line positions to the left of third back leg, greatly
Spring has pulling force on the upper side to third back leg, and the motion profile of the second drive rod midpoint in transmission mechanism is always and greatly
The prolonging direction of spring is consistent, so ensure that third back leg will not rotate in big spring drawing process around hinge joint,
It ensure that the stability of bouncer.
3, the utility model controls the tensile elongation of big spring by the rotational angle of stepper motor, to realize to spring
The adjusting of device jumping degree controls.
4, bouncer provided by the utility model need to only drive third pinion band moving cam to turn clockwise in exoergic
The angle of a dynamic very little, makes the axis of big spring be located at the right side of two hinge joint lines of third back leg, third back leg is just
It can be rotated clockwise under very big spring tension effect, so that loosening big spring carries out exoergic, substantially increase bouncer
Skip capability.
Detailed description of the invention
Fig. 1 is the schematic perspective view of the utility model.
Fig. 2 is the schematic view of the front view (clear for drawing, to remove the rack that front obstructs the view) of the utility model.
Fig. 3 is the structural schematic diagram of another state of the utility model (energy accumulating state is converted to release conditions).
Fig. 4 is the schematic perspective view of front leg mechanism in the utility model.
Fig. 5 is the schematic perspective view of another angle of the utility model.
Specific embodiment
It is further illustrated below in conjunction with embodiment shown in the drawings.
The adjustable bionic hopping device of jumping degree as shown in the figure, including rack 1, driving mechanism, transmission mechanism, back leg machine
Structure 3, front leg mechanism 2 and controller;The front leg mechanism and rear leg mechanism are two groups and are symmetrically installed on the rack.The machine
Frame is by being parallel to each other and plate spaced apart is formed by connecting;Space between two plates is for installing driving mechanism.
As shown in Fig. 2, the driving mechanism includes the first pinion gear 17, the first gear wheel 15, the second pinion gear 16, second
Gear wheel 21, ratchet 22, pawl 20, third pinion 51, cam 52 and l-shaped rod 18.First pinion gear passes through pinion gear
Axis 17-1 (both ends of pinion shaft are then fixed on the two sides plate of rack, and the first pinion gear is set on pinion shaft again) can
It rotationally positions on the rack, and the stepper motor by being fixed on the rack (omitting in figure) drives.First gear wheel
It engages with the first pinion gear and is fixedly and coaxially connected with the second pinion gear;Second gear wheel be fixedly connected with coaxial ratchet after again
By ratchet shaft 22-1 be rotatably positioned on the rack (both ends of ratchet shaft are then fixed on the two sides plate of rack, second
Gear wheel and ratchet are set on ratchet shaft again);The third pinion 51 be fixedly connected with cam 52 after further through camshaft
52-1 be rotatably positioned on the rack (both ends of camshaft are then fixed on the two sides plate of rack, third pinion with it is convex
Wheel is set on camshaft again).The pawl 20 is hinged to be cooperated on the rack and with ratchet, separately there is a connection on the rack small
Spring 19 forces in pawl, makes it have the trend for leaving ratchet;Sliding block 23 is provided at the eccentric position of ratchet.The L-type
Bar 18 is rotatably positioned on the first pinion shaft 17-1 by the through-hole at break;One end of l-shaped rod fixed second is small
Gear shaft 16-1, the first gear wheel and the second pinion gear are rotationally set on the second pinion shaft;The other end of l-shaped rod is outstanding
It extends to pawl side and connect with a telescope motor and (omit telescope motor in figure).When telescope motor pulls power arm, l-shaped rod
Clockwise oscillation so that the first gear wheel and third pinion disengage, and the second pinion gear engaged with the second gear wheel (ratchet with
Second bull gear drive) and the big spring in transmission mechanism is driven to stretch progress energy storage, while little spring makes pawl be detached from ratchet.
When telescope motor propulsion power arm, l-shaped rod counter-clockwise swing, so that the second pinion gear is out of gear with second largest, and first
Gear wheel is engaged with third pinion;L-shaped rod, which compresses pawl, simultaneously engages it with ratchet, and ratchet can not be reversed to keep big bullet
The tensile elongation of spring remains unchanged.
As shown in Figure 2 and Figure 3, the rear leg mechanism includes the first back leg 12, the second back leg 11 and third back leg 13.It is described
Hingedly on the rack, the other end is hinged on the middle position of the second back leg for first back leg one end.The third back leg is " V " type,
Wherein at the break of third back leg by hinging pin shaft 13-1 hingedly on the rack;One arm of third back leg is resisted against cam side
Face, another arm and the second back leg are hinged.It is formed after first back leg, the second back leg and third back leg and rack are sequentially hinged
Four-bar mechanism (wherein third back leg is as master arm).
As shown in Fig. 2, the transmission mechanism include the first drive rod 26, the second drive rod 28, third drive rod 31 and
Several (being two in figure) big springs 9.First drive rod and third drive rod are respectively hinged at the both ends of the second drive rod,
The other end of first drive rod is hinged on the rack by pin shaft 27;The other end of third drive rod is set on the first back leg and machine
On the articulated shaft 32 of frame;Four bar machines are formed after first drive rod, the second drive rod, third drive rod and rack are sequentially hinged
Structure (wherein the first drive rod is as driving lever).The midpoint of second drive rod is fixed with support plate 29.The big bullet
Spring one end and lower connecting plate 30 are fixed after being connected with support plate, the other end and upper junction plate 33 be hinged on after being connected the second foreleg and
On the rear articulated shaft 11-1 of third foreleg.The axis of the big spring is located at two hinge joint line positions to the left of third back leg
Place, to guarantee that third back leg has the trend of counter-clockwise swing.
The sliding slot 25 matched with sliding block is offered in the middle part of first drive rod;When ratchet wheel, one side of sliding block
Face is slided along the chute, on the other hand drives the first drive rod rotation, and then is stretched big spring and carried out energy storage.First drive rod
Length that is identical as the length of third drive rod and being slightly larger than the second drive rod, and the movement rail of the second drive rod midpoint
Mark is that consistent with spring prolonging direction (design can determine the length and hinge of each drive rod after calculating for straight line and the straight line
Position is connect to be achieved), it ensure that big spring applies the drawing for making its counter-clockwise swing always to third back leg during stretching
Power, it is ensured that the stability of bouncer.
Torsional spring 14 (elastic force of the torsional spring is less than big spring) is installed in addition, also wearing on hinging pin shaft 13-1;The torsional spring
Both ends hook respectively bundle be fixed in rack and third back leg so that third back leg have counter-clockwise swing trend.
As shown in figure 5, the front leg mechanism includes the first foreleg 7, the second foreleg 6 and third foreleg 5.First foreleg
Hingedly on the rack, the other end is rotatably positioned on the second foreleg the (axis of the first foreleg along the axis of the first foreleg for one end
The axis coaxle of line and the second foreleg arrangement);The other end and third foreleg of second foreleg are hinged.
The controller is single-chip microcontroller;The single-chip microcontroller is fixed on the rack.The stepper motor and telescope motor difference
With monolithic mechatronics, cooperated with controlling the work of each mechanism.
All of above hinge axes are mutually parallel.
The working principle of the utility model is:
Thermal energy storage process (referring to fig. 2): when initial position, the axis of big spring is located at two hinge joint lines of third back leg
At position to the left, to ensure that third back leg will not clockwise oscillation.When telescope motor drives l-shaped rod to rotate clockwise,
Pawl is detached from ratchet, while the second pinion gear is engaged with the second gear wheel;Then starting stepper motor drives the first pinion gear to turn
It is dynamic, under the engaged transmission effect of the first gear wheel, the second pinion gear and the second gear wheel, ratchet wheel.Ratchet passes through sliding block
The first drive rod rotation is driven, and then stretches big spring.According to the design requirement and mechanism characteristics of transmission mechanism, the second drive rod
The motion profile of midpoint is straight line, and the straight line is consistent with the draw direction of big spring, and therefore, big spring will be along original
Axis direction elongation, so the stretching of big spring not will lead to third back leg rotation rotate clockwise, big spring store up
Bouncer is stable during energy.Because the draw direction of big spring is near linear, it is possible to be stretched by adjusting
The time point of contracting motor movement controls the length of spring elongation, the adjustable spring storage when facing the barrier of different height
Energy situation, to realize the obstacle crossing function of different height.
Exergonic process: after big spring is stretched to certain length, telescope motor drives l-shaped rod to rotate counterclockwise, pawl
It is engaged with ratchet, while third pinion is engaged with the first gear wheel;Then starting stepper motor drives the first pinion rotation
Certain angle, under the engaged transmission effect of the first gear wheel and third pinion, cam also swings certain along clockwise direction
Angle;Due to cam and third back leg against and cam rotate clockwise when cam profile radius be gradually increased, cam driven
Third back leg rotates clockwise certain angle, is transferred to the axis of big spring on the right side of the line of two hinge joints of third back leg,
What big spring applied third back leg at this time is the clockwise torque torque of generation (be far longer than torsional spring 14), and big spring is rapid
Shrink and drive third back leg, the second back leg and the first back leg to rotate clockwise, while reversed work of second back leg by ground
Firmly, entire bouncer is driven to jump up (as shown in Figure 3) rapidly upward.
Adjustment process: after big spring shrinks completion exoergic, telescope motor drives l-shaped rod to rotate clockwise, ratchet and pawl
Engagement, the second pinion gear are engaged with the second gear wheel, and starting stepper motor by gear set and sliding block sliding groove structure makes the first biography
Lever turns to initial position, and third back leg and big spring are also restored to initial position under the mating reaction of torsional spring, completes multiple
Position;One circulation terminates;The above circulation repeatedly;Bounce motion is carried out continuously.
Finally it should be noted that listed above is only specific embodiment of the utility model.Obviously, this is practical new
Type is not limited to above embodiments, can also there is many variations.Those skilled in the art can be from disclosed by the utility model
All deformations for directly exporting or associating in content, are considered as the protection scope of the utility model.
Claims (7)
1. a kind of adjustable bionic hopping device of jumping degree, it is characterised in that: the bouncer includes rack (1), is mounted on machine
Driving mechanism, transmission mechanism, rear leg mechanism (3), front leg mechanism (2) and controller on frame;The front leg mechanism and back leg machine
Structure is two groups and is symmetrically installed on the rack;
The driving mechanism include be rotatably positioned on the rack and the first pinion gear driven by stepper motors (17), with the
One pinion gear engagement and with co-axially fixed first gear wheel (15) of the second pinion gear (16), be rotatably positioned on the rack and
With co-axially fixed second gear wheel (21) of ratchet (22), it is hinged on the rack and with the pawl (20) of ratchet cooperation, can be rotated
The ground positioning third pinion (51) fixed on the rack and with cam (52) and swingably position l-shaped rod on the rack
(18), second pinion gear and the first gear wheel are rotatably positioned in one end of l-shaped rod, to control the first gear wheel and the
The engagement of three pinion gears or the second pinion gear are engaged with the second gear wheel;A hinged sliding block at the disalignment position of the ratchet
(23);
Leg mechanism includes that the first back leg (12) of four-bar mechanism, the second back leg (11) and the are successively hingedly formed with rack after described
Three back legs (13);The third back leg is in " V " type, passes through hinging pin shaft (13-1) at the break of third back leg and is hinged on rack
On;One arm of third back leg is resisted against flank of cam, another arm and the second back leg are hinged;
The transmission mechanism include formed after being connect with rack the first drive rod (26) of four-bar mechanism, the second drive rod (28) and
Third drive rod (31) and several big springs (9) for energy storage and exoergic;Wherein the first drive rod and third drive rod point
It is not hinged on the both ends of the second drive rod, the other end of first drive rod is hingedly on the rack;The third drive rod
The other end is set on the first back leg and the articulated shaft (32) of rack;Support is fixed at the midpoint of second drive rod
Plate (29);Described big spring one end is hinged on the supporting plate by lower connecting plate (30), and the other end is cut with scissors by upper junction plate (33)
It connects on the rear articulated shaft (11-1) of the second back leg and third back leg;It is offered in the middle part of first drive rod for the sliding block
It is embedded in the sliding slot (25) of cooperation;
The front leg mechanism includes the first foreleg (7), the second foreleg (6) and third foreleg (5);First foreleg one end is hinged
On the rack, the other end is rotatably positioned on the second foreleg along the axis of the first foreleg;The other end of second foreleg
It is hinged with third foreleg;
The axis of all of above articulated shaft is mutually parallel;
The controller is single-chip microcontroller.
2. the adjustable bionic hopping device of jumping degree according to claim 1, it is characterised in that: the break of the l-shaped rod
Place is set on pinion shaft (17-1) and the telescope motor by being fixed on the rack drives;The other end of l-shaped rod is also to described
Pawl pressure makes it have the trend engaged with pawl.
3. the adjustable bionic hopping device of jumping degree according to claim 2, it is characterised in that: a little spring (19) force
The trend for being detached from pawl is made it have in the pawl.
4. the adjustable bionic hopping device of jumping degree according to claim 3, it is characterised in that: first drive rod with
The length of third drive rod is identical and is slightly larger than the length of the second drive rod, to guarantee the movement rail of the second drive rod midpoint
Mark is straight line identical with the prolonging direction of big spring.
5. the adjustable bionic hopping device of jumping degree according to claim 4, it is characterised in that: the axis of the big spring
At the position to the left of two hinge joint lines of third back leg.
6. the adjustable bionic hopping device of jumping degree according to claim 5, it is characterised in that: on the hinging pin shaft also
It wears and torsional spring (14) is installed;The both ends of the torsional spring hook bundle respectively and are fixed in rack and third back leg, so that third back leg has
Has the tendency that counter-clockwise swing.
7. the adjustable bionic hopping device of jumping degree according to claim 6, it is characterised in that: the stepper motor and stretch
Contracting motor with monolithic mechatronics, is cooperated respectively with controlling the work of each mechanism.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821228795.1U CN208826643U (en) | 2018-08-01 | 2018-08-01 | A kind of adjustable bionic hopping device of jumping degree |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821228795.1U CN208826643U (en) | 2018-08-01 | 2018-08-01 | A kind of adjustable bionic hopping device of jumping degree |
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Publication Number | Publication Date |
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CN208826643U true CN208826643U (en) | 2019-05-07 |
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CN201821228795.1U Withdrawn - After Issue CN208826643U (en) | 2018-08-01 | 2018-08-01 | A kind of adjustable bionic hopping device of jumping degree |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108908367A (en) * | 2018-08-01 | 2018-11-30 | 浙江理工大学 | A kind of adjustable bionic hopping device of jumping degree |
CN110329378A (en) * | 2019-06-28 | 2019-10-15 | 南京航空航天大学 | Simulate motion biomimetics mechanism and its skip philosophy that flea beetle jumps device |
CN114572323A (en) * | 2022-03-28 | 2022-06-03 | 武汉科技大学 | Torsional spring energy storage type eight-connecting-rod micro bouncing robot |
-
2018
- 2018-08-01 CN CN201821228795.1U patent/CN208826643U/en not_active Withdrawn - After Issue
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108908367A (en) * | 2018-08-01 | 2018-11-30 | 浙江理工大学 | A kind of adjustable bionic hopping device of jumping degree |
CN108908367B (en) * | 2018-08-01 | 2023-10-17 | 浙江理工大学 | Bionic bouncing device with adjustable jumping degree |
CN110329378A (en) * | 2019-06-28 | 2019-10-15 | 南京航空航天大学 | Simulate motion biomimetics mechanism and its skip philosophy that flea beetle jumps device |
CN110329378B (en) * | 2019-06-28 | 2021-06-15 | 南京航空航天大学 | Motion bionic mechanism for simulating flea-beetle jump and jump method thereof |
CN114572323A (en) * | 2022-03-28 | 2022-06-03 | 武汉科技大学 | Torsional spring energy storage type eight-connecting-rod micro bouncing robot |
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