CN109606735A - A kind of single-motor double swing rod swing mechanism, celestial body vehicle and moving method - Google Patents
A kind of single-motor double swing rod swing mechanism, celestial body vehicle and moving method Download PDFInfo
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- CN109606735A CN109606735A CN201811487023.4A CN201811487023A CN109606735A CN 109606735 A CN109606735 A CN 109606735A CN 201811487023 A CN201811487023 A CN 201811487023A CN 109606735 A CN109606735 A CN 109606735A
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B64—AIRCRAFT; AVIATION; COSMONAUTICS
- B64G—COSMONAUTICS; VEHICLES OR EQUIPMENT THEREFOR
- B64G1/00—Cosmonautic vehicles
- B64G1/16—Extraterrestrial cars
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Abstract
The present invention provides a kind of single-motor double swing rod swing mechanism, celestial body vehicle and moving methods, are related to field of aerospace technology.Single-motor double swing rod swing mechanism of the present invention includes a motor, linking arm, rotating arm and wheel;Fast pulley and the first synchronizing wheel are provided in the linking arm, first synchronizing wheel passes through the first synchronous band connection with the fast pulley, first synchronization wheel shaft to wherein one end and the linking arm be pivotally connected, the other end is fixedly connected with rotating arm, the wheel and rotating arm pivot joint;The motor is suitable for that the linking arm is driven to rotate around the fast pulley, and first synchronizing wheel drives the rotating arm rotation.Single-motor double swing rod swing mechanism, celestial body vehicle and moving method of the present invention use an one of revolute pair of motor driven, and synchronous folding or the expansion of double swing-bar can be realized.
Description
Technical field
The present invention relates to field of aerospace technology, in particular to a kind of single-motor double swing rod swing mechanism, celestial body vehicle and
Moving method.
Background technique
Celestial body vehicle is the main body completed outer celestial body and make an inspection tour task, and the scope of activities of celestial body vehicle directly influences detection mission
Success or failure.Landform, geology and the ground surface environment and the earth of outer celestial body differ greatly, due to outer celestial body atmospheric circulation, meteorite hit and
Materialization effect causes soil property sufficiently complex.Severe driving conditions challenge to the mobile system of traditional celestial body vehicle, star
Requirement of the ball vehicle to walking ability is higher and higher.Especially when the detection target distribution with important value in sandy beach and abrupt slope
When upper, celestial body vehicle can only take the plunge or abandon some detection targets.If leaning on close-target by force, celestial body vehicle will face forfeiture
The risk of walking ability.The wheel of traditional celestial body vehicle-step composite system is more motor combinations, and combines for wheel leg type that weight is big,
Celestial body vehicle is more heavy.
Summary of the invention
In view of this, the present invention is directed to propose a kind of single-motor double swing rod swing mechanism, for wheel-step of more motor combinations
Composite system improves.
In order to achieve the above objectives, the technical scheme of the present invention is realized as follows:
A kind of single-motor double swing rod swing mechanism a, comprising: motor, linking arm, rotating arm and wheel;In the linking arm
It is provided with fast pulley and the first synchronizing wheel, first synchronizing wheel and the fast pulley are by the first synchronous band connection, and described the
One synchronization wheel shaft to wherein one end and the linking arm be pivotally connected, the other end is fixedly connected with the rotating arm, the wheel and
The rotating arm pivot joint;The motor is suitable for that the linking arm is driven to rotate around the fast pulley, and first synchronizing wheel drives
The rotating arm rotation.
Further, the single-motor double swing rod swing mechanism further include: first planetary gear mechanism, first planet
Gear mechanism includes the first sun gear, first planet carrier and the first outer gear ring, and the motor and first sun gear are pivotally connected;Institute
Motor is stated to be further adapted for driving first outer gear ring that the linking arm is driven to rotate around the fast pulley.
Further, single-motor double swing rod swing mechanism further include: the second planetary gear mechanism, second planetary gear
Mechanism includes the second sun gear, the second planet carrier and the second outer gear ring, and second sun gear and first outer gear ring are pivotally connected,
The linking arm and second outer gear ring are pivotally connected, and first outer gear ring drives second sun gear to rotate, and described second
Sun gear drives the second outer gear ring rotation, and second outer gear ring drives the linking arm to rotate around the fast pulley.
Further, second synchronizing wheel and third synchronizing wheel are additionally provided in the linking arm, described second is synchronous
Axial wherein one end of wheel is connect with first planet carrier, and second synchronizing wheel is synchronous by second with the third synchronizing wheel
Band wheel connects;
The 4th synchronizing wheel and the 5th synchronizing wheel are provided in the rotating arm, the 4th synchronizing wheel is synchronous with the described 5th
Wheel is connected by third synchronous belt wheel, the 4th synchronization wheel shaft to wherein one end and the third synchronizing wheel it is axial
Wherein one end connect, the 5th synchronization wheel shaft to wherein one end connect with the wheel;
First planet carrier rotation drives the second synchronizing wheel rotation, and the second synchronizing wheel rotation drives described the
Three synchronizing wheels;The third synchronizing wheel rotation drives the 4th synchronizing wheel rotation, and the 4th synchronizing wheel rotates described in drive
The rotation of 5th synchronizing wheel, the 5th synchronizing wheel drive the vehicle wheel rotation.
Further, the single-motor double swing rod swing mechanism further include: wheel row brake, the wheel row brake are fixed
It is installed in the fixed arm, the wheel row brake is suitable for the braking of the first planet carrier.
Further, the single-motor double swing rod swing mechanism further include: walking brake, the walking brake and institute
It states fixed arm to be fixedly connected, the walking brake is suitable for the braking of second outer gear ring.
Further, the distance between axle center of second synchronizing wheel and the third synchronizing wheel be d1, the described 4th
The distance between axle center of synchronizing wheel and the 5th synchronizing wheel is d2, d1=d2.
Further, the output shaft of the motor, first sun gear, second sun gear, the fast pulley and
Second synchronizing wheel is concentric.
Compared with the existing technology, single-motor double swing rod swing mechanism of the present invention has the advantage that
The present invention is directed to traditional more motor double-lever mechanisms, realizes and drives two swing rods by a motor while turning
Dynamic purpose realizes the rotation of the linking arm and the rotating arm, smart structural design by a motor;Double pendulum
Two revolute pair toothed belt transmissions of bar realize the synchronous folding of double swing-bar using an one of revolute pair of motor driven
Folded or expansion.
The present invention additionally provides a kind of celestial body vehicles, improve for the excessive problem of motor on traditional celestial body vehicle.
In order to achieve the above objectives, the technical scheme of the present invention is realized as follows:
A kind of celestial body vehicle, comprising: single-motor double swing rod swing mechanism described in car body and any of the above-described technical solution, it is described
Single-motor double swing rod swing mechanism is connect by cantilever with the car body.
Celestial body vehicle of the present invention is walked by the gait that single-motor double swing rod swing mechanism realizes the car body, knot
Structure is ingenious in design, avoids the use of more motors, saves cost.It is high-efficient using in-wheel driving in flat road surface, speed
Degree is fast;When the complex road surfaces such as slope or wheel depression skid, electromagnetic clutch switches walking manner as gait walking, improves
The passability of celestial body vehicle.
The present invention also provides a kind of celestial body vehicle moving methods, improve for traditional celestial body vehicle walking slipping phenomenon.
In order to achieve the above objectives, the technical scheme of the present invention is realized as follows:
A kind of celestial body vehicle moving method, the celestial body vehicle moving method is based on celestial body vehicle described above, the single motor
There are four double swing-bar swing mechanisms, and wherein two on front side of the car body single-motor double swing rod swing mechanism is respectively the first forearm
With the second forearm, after two single-motor double swing rod swing mechanisms on rear side of the car body are respectively the first postbrachium and second
Arm, first forearm and first postbrachium be located at it is ipsilateral, second forearm and second postbrachium be located at it is ipsilateral, it is described
Celestial body vehicle moving method includes:
First forearm and second postbrachium execute the second movement, and second forearm and first postbrachium execute
4th movement, wherein second movement is that walking brake disengages, and simultaneous wheels row brake disengages;It is described 4th movement be
Walking brake, simultaneous wheels row brake;
It is described when first forearm and second postbrachium, which execute second movement, runs to the second setting position
Second forearm and first postbrachium execute second movement, and first forearm and second postbrachium execute the described 4th
Movement;
When second forearm and first postbrachium, which execute second movement, runs to the second setting position, own
The single-motor double swing rod swing mechanism is performed simultaneously the third movement;Wherein, the third movement is that the walking is braked
Device disengages, while the wheel row brake;
When all single-motor double swing rod swing mechanisms are performed simultaneously third movement to third setting position, according to
Secondary repetition operates aforementioned all steps, realizes diagonal two gaits walking.Celestial body vehicle moving method of the present invention passes through difference
The switching of move makes the celestial body vehicle switch different moving conditions, in flat road surface, using in-wheel driving, efficiency
Height, speed are fast;When the complex road surfaces such as slope or wheel depression skid, it is gait row that electromagnetic clutch, which switches walking manner,
It walks, improves the passability of Marsokhod.Diagonal two gait first transfers the near front wheel and off hind wheel, then transfers off-front wheel and left rear wheel, so
After transfer car body, this sequence is suitable for vehicle and is in slope surface, towards top of the slope, in easy flights, two sides corresponding position wheel method
The case where being not much different to load.
Detailed description of the invention
The attached drawing for constituting a part of the invention is used to provide further understanding of the present invention, schematic reality of the invention
It applies example and its explanation is used to explain the present invention, do not constitute improper limitations of the present invention.In the accompanying drawings:
Fig. 1 is the schematic diagram of the single-motor double swing rod swing mechanism of the embodiment of the present invention;
Fig. 2 is the axonometric drawing of the single-motor double swing rod swing mechanism of the embodiment of the present invention;
Fig. 3 is the cross-sectional view of the single-motor double swing rod swing mechanism of the embodiment of the present invention;
Fig. 4 is the inside axonometric drawing of the single-motor double swing rod swing mechanism of the embodiment of the present invention;
Fig. 5 is the inside axonometric drawing at another visual angle of the single-motor double swing rod swing mechanism of the embodiment of the present invention;
Fig. 6 is the structural schematic diagram of the celestial body vehicle of the embodiment of the present invention;
Fig. 7 is the four gait moving method flow chart of celestial body vehicle of the embodiment of the present invention;
Fig. 8 is the diagonal two gaits moving method flow chart of celestial body vehicle of the embodiment of the present invention.
Description of symbols:
1- motor, 2- take turns row brake, 3- fixed arm, 4- first planetary gear mechanism, 5- walking brake, the second row of 6-
Star gear mechanism, 7- linking arm, 8- fast pulley, the first synchronous belt of 9-, the first synchronizing wheel of 10-, the second synchronizing wheel of 11-, 12- third
Synchronizing wheel, the second synchronous belt of 13-, the 4th synchronizing wheel of 14-, 15- third synchronous belt, the 5th synchronizing wheel of 16-, 17- rotating arm, 18-
Wheel, 19- cantilever, 20- car body, 21- wheel shaft, 22- stretcher, 23- front-wheel, 24- rear-wheel.
Specific embodiment
It should be noted that in the absence of conflict, the feature in embodiment and embodiment in the present invention can phase
Mutually combination.
In addition, direction or positional relationship all in the text being previously mentioned in an embodiment of the present invention are the position based on attached drawing
Relationship is set, only for facilitating the description present invention and simplifying description, rather than implies or imply that signified device or element are necessary
The specific orientation having, is not considered as limiting the invention.
The present invention will be described in detail below with reference to the accompanying drawings and embodiments.
Embodiment one
A kind of single-motor double swing rod swing mechanism, as shown in Figures 1 to 5, comprising:
One motor 1, linking arm 7 and rotating arm 17;
Fast pulley 8 and the first synchronizing wheel 10, first synchronizing wheel 10 and the fast pulley are provided in the linking arm 7
8 are connected by the first synchronous belt 9, and the axial wherein one end of first synchronizing wheel 10 and the linking arm 7 are pivotally connected, the other end with
Rotating arm 17 is fixedly connected;The motor 1 is suitable for that the linking arm 7 is driven to rotate around the fast pulley 8, first synchronizing wheel
10 drive the rotating arm 17 to rotate.
It should be noted that when the motor 1 drives the linking arm 7 to rotate around the fast pulley 8, the linking arm 7
While rotation, first synchronizing wheel 10 is driven to revolve around the fast pulley 8;First synchronizing wheel 10 it is axial wherein one
End is pivotally connected with the linking arm 7, and the other end is fixedly connected with rotating arm 17, due to first synchronizing wheel 10 and the fast pulley
8 are connected by the first synchronous belt 9, and first synchronizing wheel 10 carries out rotation, 10 rotation of the first synchronizing wheel while revolution
While drive the rotating arm 17 to rotate.Preferably, the linking arm 7 and the rotating arm 17 fold when original state, when
When the linking arm 7 rotates, the linking arm 7 and the rotating arm 17 are unfolded simultaneously.
Here, the motor 1 is fixedly connected with fixed arm 3, and the output shaft of the fast pulley 8 and the motor 1 is concentric.
The fast pulley 8 and first synchronizing wheel 10 are wheel, the fast pulley 8 and first synchronizing wheel 10 described in simultaneously
The connection of first synchronous belt 9.Alternatively, the fast pulley 8 and first synchronizing wheel 10 are sprocket wheel simultaneously, and described first is synchronous
Band 9 is then changed to synchronous chain, and the fast pulley 8, by the synchronous chain link, belongs to usual skill with first synchronizing wheel 10
The displacement of art means.
The advantages of this arrangement are as follows realizing and being driven by a motor for traditional more motor double-lever mechanisms
The purpose that two swing rods rotate simultaneously, the rotation of the linking arm 7 and the rotating arm 17 is realized by a motor 1
Turn, smart structural design;Two revolute pair toothed belt transmissions of double swing-bar use the one of rotation of a motor driven
Pair realizes synchronous folding or the expansion of double swing-bar.
Preferably, the fast pulley 8 and the outer diameter ratio of first synchronizing wheel 10 are n:1, wherein 1.5≤n≤5, and n is excellent
Select 2.The advantages of this arrangement are as follows increasing transmission efficiency by suitable impeller diameter ratio.
Preferably, the single-motor double swing rod swing mechanism further include:
First planetary gear mechanism 4, the first planetary gear mechanism 4 include the first sun gear, first planet carrier and the
One outer gear ring, the motor 1 are pivotally connected with first sun gear;The motor 1 is suitable for that first outer gear ring is driven to drive institute
It states linking arm 7 to rotate around the fast pulley 8, first synchronizing wheel 10 drives the rotating arm 17 to rotate.
Here, the first planetary gear mechanism 4 is set in the fixed arm 3, is additionally provided with wheel in the fixed arm 3
Row brake 2, the wheel row brake 2 are fixedly installed in the fixed arm 3, and the wheel row brake 2 is suitable for described first
The braking of planet carrier, when the output of the first planetary gear mechanism 4 is first outer gear ring, the wheel row brake 2
The first planet carrier is braked;It is described when the output of the first planetary gear mechanism 4 is the first planet carrier
Wheel row brake 2 brakes first outer gear ring.
The advantages of this arrangement are as follows being arranged by planetary gear mechanism, the transmission ratio of motor is increased, is increased described
The velocity of rotation of linking arm 7, increases walking speed indirectly;The rotating torque of linking arm 7 is increased, the gait for improving vehicle is logical
Cross performance.By the setting of planetary gear mechanism, the outgoing route of single motor driving is increased.
Embodiment two
Single-motor double swing rod swing mechanism as described above, as shown in Figures 1 to 5, the different place of the present embodiment
It is, the single-motor double swing rod swing mechanism further include:
Second planetary gear mechanism 6, second planetary gear mechanism 6 include the second sun gear, the second planet carrier and the
Two outer gear rings, second sun gear and first outer gear ring are pivotally connected, and the linking arm 7 is pivotally connected with second outer gear ring,
First outer gear ring drives the second sun gear rotation, and second sun gear drives the second outer gear ring rotation, institute
Stating the second outer gear ring drives the linking arm 7 to rotate around the fast pulley 8.
Here, walking brake mounts are additionally provided in the fixed arm 3, it is described suitable for the installation of walking brake 5
Walking brake 5 is suitable for the braking of second outer gear ring, and second planetary gear mechanism 6 is located in the linking arm 7.When
When the output of second planetary gear mechanism 6 is second outer gear ring, the walking brake 5 is to second planet carrier
It is braked;When the output of second planetary gear mechanism 6 is second planet carrier, 5 pairs of institutes of the walking brake
The second outer gear ring is stated to be braked.
The advantages of this arrangement are as follows the first planetary gear mechanism 4 is avoided to be directly connected to cause with the linking arm 7
Damage, the outer gear ring of second planetary gear mechanism 6 is connect with the linking arm 7, transmission ratio is further increased, adds
The fast velocity of rotation of the linking arm 7, increases walking speed indirectly;The rotating torque of linking arm 7 is increased, vehicle is improved
Gait passage capacity.By the setting of planetary gear mechanism, the outgoing route of single motor driving is increased.
Embodiment three
Single-motor double swing rod swing mechanism as described above, as shown in Figures 1 to 5, the different place of the present embodiment
It is, single-motor double swing rod swing mechanism, comprising: a motor 1, linking arm 7, first planetary gear mechanism 4 and rotating arm 17;Institute
It states and is provided with fast pulley 8 and the first synchronizing wheel 10 in linking arm 7, first synchronizing wheel 10 passes through first with the fast pulley 8
Synchronous belt 9 connects, and the axial wherein one end of first synchronizing wheel 10 and the linking arm 7 are pivotally connected, the other end and rotating arm 17
It is fixedly connected;The motor 1 is pivotally connected with the first planetary gear mechanism 4, and the motor 1 is suitable for passing through the first planet tooth
Wheel mechanism 4 drives the linking arm 7 to rotate around the fast pulley 8, and first synchronizing wheel 10 drives the rotating arm 17 to rotate,
And/or the motor 1 is suitable for driving wheel 18 to rotate by the first planetary gear mechanism 4.
It should be noted that compared to embodiment described above, in the present embodiment, the single-motor double swing rod turn-around machine
Structure further include:
Second synchronizing wheel 11 and third synchronizing wheel 12 are provided in the linking arm 7, second synchronizing wheel 11
Axial wherein one end is connect with first planet carrier, and the first planet carrier rotation drives second synchronizing wheel 11 to rotate, institute
It states the second synchronizing wheel 11 and the third synchronizing wheel 12 to connect by the second synchronous belt 13, the rotation of the second synchronizing wheel 11 drives
The third synchronizing wheel 12;
It is provided with the 4th synchronizing wheel 14 and the 5th synchronizing wheel 16 in the rotating arm 17, the 4th synchronizing wheel 14 and described
5th synchronizing wheel 16 is connected by third synchronous belt 15, and the axial wherein one end of the 4th synchronizing wheel 14 is synchronous with the third
Axial wherein one end connection of wheel 12, the rotation of third synchronizing wheel 12 drive the 4th synchronizing wheel 14 rotation, and described the
The rotation of four synchronizing wheels 14 drives the 5th synchronizing wheel 16 rotation;
The axial wherein one end of 5th synchronizing wheel 16 is connect by the wherein one end axial with wheel 18 of wheel shaft 21, institute
Stating the rotation of the 5th synchronizing wheel 16 drives the wheel 18 to rotate.
As shown in Figures 1 to 5, fixed arm 3 is shell structure, is provided with motor mounting part, motor 1 in the fixed arm 3
It is fixedly installed on the motor mounting part;It is additionally provided with wheel row brake mounts in the fixed arm 3, is suitable for the wheel and goes
The installation of brake 2;First planetary gear mechanism 4 include the first sun gear, first planet carrier and the first outer gear ring, described first
Planetary gear mechanism 4 is set in the fixed arm 3, and the first planetary gear mechanism 4 passes through the wheel row brake 2 and institute
The connection of fixed arm 3 is stated, the wheel row brake 2 is suitable for the braking of the first planet carrier;First sun gear and the electricity
The output shaft of machine 1 is concentric, and the motor 1 drives first sun gear to rotate, thus in the first planet carrier and/or institute
It states the first outer gear ring to be exported, first outer gear ring is connect with second sun gear, and the rotation of the first outer gear ring drives institute
State the rotation of the second sun gear;
Second planetary gear mechanism 6 is located in linking arm 7, and the linking arm 7 is shell;Second planetary gear mechanism 6 packet
The second sun gear, the second planet carrier and the second outer gear ring are included, second sun gear and first sun gear are concentric, described
Second planet carrier is connect with the fixed arm 3, and second outer gear ring is fixedly connected with the linking arm 7;In the fixed arm 3
Walking brake mounts are additionally provided with, suitable for the installation of walking brake 5, the walking brake 5 is suitable for outside described second
The braking of gear ring;Fast pulley 8 is provided in the linking arm 7, the fast pulley 8 is fixedly connected with fixed arm 3, the fast pulley
8 itself do not rotate, and in Fig. 1, the output shaft of the fast pulley 8 and the motor 1 is concentric;It is provided in the linking arm 7
First synchronizing wheel 10, first synchronizing wheel 10 are connect with the fast pulley 8 by the first synchronous belt 9.
The motor 1 drives first sun gear to rotate, when first sun gear drives first outer gear ring to turn
Dynamic, first outer gear ring drives the second sun gear rotation, when second sun gear rotation, second sun gear
Second outer gear ring is driven to rotate, and then second outer gear ring drives the linking arm 7 to rotate;The linking arm 7 rotates
While, drive first synchronizing wheel 10 to revolve around the fast pulley 8;The axial wherein one end of first synchronizing wheel 10 with
The linking arm 7 is pivotally connected, and the other end is fixedly connected with rotating arm 17, and first synchronizing wheel 10 carries out rotation while revolution,
The rotating arm 17 is driven to rotate while first synchronizing wheel, 10 rotation.
Be provided with second synchronizing wheel 11 and third synchronizing wheel 12 in the linking arm 7, second synchronizing wheel 11 with
First planet carrier connects, the rotation of the second synchronizing wheel 11 described in the first planet carrier rotate driving, 11 He of the second synchronizing wheel
The third synchronizing wheel 12 is connected by the second synchronous belt 13, in Fig. 1, the output of second synchronizing wheel 11 and the motor 1
Axis is concentric;The 4th synchronizing wheel 14 and the 5th synchronizing wheel 16, the 4th synchronizing wheel 14 and institute are provided in the rotating arm 17
The 5th synchronizing wheel 16 is stated to connect by third synchronous belt 15;The third synchronizing wheel 12 is connect and same with the 4th synchronizing wheel 14
Axle center, the 5th synchronizing wheel 16 are connect and concentric with wheel 18;
The motor 1 drives first sun gear to rotate, when first sun gear drives the first planet carrier to turn
When dynamic, the rotation of the second synchronizing wheel 11 described in the first planet carrier rotate driving, second synchronizing wheel 11 drives the third
Synchronizing wheel 12 rotates, and the third synchronizing wheel 12 drives the 4th synchronizing wheel 14 to rotate, and the 4th synchronizing wheel 14 drives institute
The 5th synchronizing wheel 16 is stated, the 5th synchronizing wheel 16 is rotated with motor car wheel 18.
As shown in Figs. 1-5, here, the output shaft of the motor 1, first sun gear, second sun gear, described
Fast pulley 8 and second synchronizing wheel 11 are concentric, and first synchronizing wheel 10, the third synchronizing wheel 12 and the described 4th are together
Step wheel 14 is concentric.
Preferably, second synchronous belt 13 is tensioned using synchronous belt tightener 22.
Preferably, the distance between axle center of second synchronizing wheel 11 and the third synchronizing wheel 12 is d1, described the
The distance between axle center of four synchronizing wheels 14 and the 5th synchronizing wheel 16 is d2, d1=d2.The advantages of this arrangement are as follows protecting
Car body avoids flog a dead horse always in same level more during card double swing-bar expansion.
The advantages of this arrangement are as follows being realized by single motor, wheel is capable and two kinds of motion modes of walking, structure design are skilful
It is wonderful, weight of single-motor double swing rod swing mechanism itself is reduced, the reliability of single-motor double swing rod swing mechanism is improved.
Example IV
The present embodiment provides a kind of celestial body vehicles, as shown in Figure 6, comprising: list described in car body 20 and any of the above-described embodiment
Motor double swing-bar swing mechanism, fixed arm 3 are connect by cantilever 19 with car body 20.
It should be noted that being located at 20 front side of car body is front-wheel 23, it is rear-wheel positioned at 20 rear side of car body
24.Preferably, being set to the left and right sides of the car body two-by-two respectively there are four the single-motor double swing rod swing mechanisms, making
The celestial body vehicle bilateral symmetry.This ensure that the bilateral symmetry of the car body 20, has better balanced action.Certainly, institute
Stating single-motor double swing rod swing mechanism also can be set multiple, make the car body 20 that symmetrical structure be presented.
The gait walking of the car body 2 is realized by single-motor double swing rod swing mechanism, smart structural design avoids
The use of more motors, saves cost.In flat road surface, high-efficient using in-wheel driving, speed is fast;In complexity such as slopes
When road surface or wheel depression are skidded, electromagnetic clutch switches walking manner as gait walking, improves the passability of celestial body vehicle.
Embodiment five
The present embodiment provides a kind of celestial body vehicle moving method, the celestial body vehicle moving method is described based on the above embodiment
Celestial body vehicle, the celestial body vehicle include four single-motor double swing rod swing mechanisms, the single-motor double swing rod on front side of two of them
Swing mechanism is referred to as the first forearm and the second forearm, after the single-motor double swing rod swing mechanism of two rear sides is first
Arm and the second postbrachium;
S1: the move of celestial body vehicle is obtained, and the move is identified;
S2: if the move is wheel row instruction, all single-motor double swing rod swing mechanisms are performed both by the first movement.
Or as shown in fig. 7, if the move is the instruction of four gaits, S21: after first postbrachium, described second
Arm, first forearm and second forearm successively execute the second movement, when the single-motor double swing rod swing mechanism executes
When the described second movement, meanwhile, remaining described single-motor double swing rod swing mechanism executes the 4th movement;S22: when all lists
Motor double swing-bar swing mechanism is performed both by second movement when running to the second setting position, first postbrachium, described the
Two postbrachiums, first forearm and second forearm are performed simultaneously third movement;S23: when the single-motor double swing rod turns round
When the mechanism execution third movement runs to third setting position, repeats to operate S21 and S22, realize that four gaits are walked.In this way
Setting is advantageous in that the braking quantity of synchronization wheel is more in four gaits, and relatively large to traction, depression is got rid of poverty
It is stronger with climbing capacity.
If the move be ipsilateral two gait instruction, at this point, first forearm and first postbrachium position
In ipsilateral, second forearm and second postbrachium are located at ipsilateral, S21: first forearm and first postbrachium are executed
Second movement, second forearm and second postbrachium execute the 4th movement;S22: when first forearm and
When first postbrachium execution, second movement runs to the second setting position, second forearm and second postbrachium are held
Row second movement, first forearm and first postbrachium execute the 4th movement;S23: when second forearm
With second postbrachium execute it is described second movement run to the second setting position when, first postbrachium, second postbrachium,
First forearm and second forearm are performed simultaneously the third movement;S24: when all single-motor double swing rods turn round
When the mechanism execution third movement runs to third setting position, repeats to operate S21, S22 and S23, realize ipsilateral two gait
Walking.The advantages of this arrangement are as follows ipsilateral two gait, first two wheels in mobile left side, then two wheels in mobile right side, so
After transfer car body, this sequence is suitable for vehicle and is in slope surface, towards top of the slope, in easy flights, two sides corresponding position wheel method
To the discrepant situation of load, the biggish side of normal load is first transferred.
If described instruction is the instruction of diagonal two gait, at this point, first forearm and first postbrachium be located at it is same
Side, second forearm and second postbrachium are located at ipsilateral, S21: described in first forearm and second postbrachium execution
Second movement, second forearm and first postbrachium execute the 4th movement;S22: when first forearm and described
When second postbrachium execution, second movement runs to the second setting position, second forearm and first postbrachium execute institute
The second movement is stated, first forearm and second postbrachium execute the 4th movement;S23: when second forearm and institute
It states the first postbrachium and executes second movement when running to the second setting position, it is first postbrachium, second postbrachium, described
First forearm and second forearm are performed simultaneously the third movement;S24: when all single-motor double swing rod swing mechanisms
When executing third movement and running to third setting position, repeats to operate S21, S22 and S23, realize diagonal two gaits walking.
The advantages of this arrangement are as follows diagonal two gait, first transfers the near front wheel and off hind wheel, then transfer off-front wheel and left rear wheel, then
Car body is transferred, this sequence is suitable for vehicle and is in slope surface, towards top of the slope, in easy flights, two sides corresponding position wheel normal direction
The case where load is not much different.
If described instruction is that coaxial two gait instructs, S21: all postbrachiums execute second movement, all described
Forearm executes the 4th movement;S22: when all postbrachiums, which execute second movement, runs to the second setting position, own
Forearm executes second movement, and all postbrachiums execute the 4th movement;S23: when all forearms execute described second
When movement runs to the second setting position, first postbrachium, second postbrachium, first forearm and second forearm
It is performed simultaneously the third movement;S24: it is run to when all single-motor double swing rod swing mechanisms execute the third movement
It when third setting position, repeats to operate S21, S22 and S23, realizes coaxial two gaits walking.The advantages of this arrangement are as follows together
Two gait of axis, first transfers two rear-wheels, then transfer two front wheels, then transfers car body, is suitable for the lesser slope surface of climbable gradient or level land.
If the move be cutoff command, first postbrachium, second postbrachium, first forearm and
Second forearm is performed simultaneously the 4th movement.
First movement is that the walking brake 5 is braked, while the wheel row brake 2 disengages;Described second is dynamic
It is disengaged as the walking brake 5, while the wheel row brake 2 disengages;The third movement is the walking brake 5
It disengages, while the wheel row brake 2 is braked;4th movement is that the walking brake 5 is braked, while wheel row is made
Dynamic device 2 is braked.
When the wheel row brake 2 braking, the wheel row brake 2 brakes the first planet carrier;Work as institute
When stating the wheel disengagement of row brake 2, the wheel row brake 2 releases the braking to the first planet carrier;When the walking is braked
When device 5 is braked, the walking brake 5 brakes second outer gear ring;When the walking brake 5 disengages, institute
State braking of the releasing of walking brake 5 to second outer gear ring.
It should be noted that second setting position refers to that single-motor double swing rod swing mechanism executes the second movement and arrives
The position of setting, here, the second setting setting refer to the extreme position after linking arm 17 and the expansion of rotating arm 17;Third
Setting position refers to that the linking arm 17 and the rotating arm 17 rotate the position for making car body reach setting, here, described the
Three setting positions refer to that the car body is located at the position of four wheel centers, in other words the linking arm 17 and the rotating arm
17 in state when being overlapped.
Preferably, the wheel row brake 2 and the walking brake 5 are power loss braking, releasing braking is powered on.
It should be noted that the celestial body vehicle includes control device, move is received by control device, and pass through control
Device processed controls motor and brake.In Fig. 1, the motor 1, the wheel row brake 2 and first planetary gear machine
Structure 4 is installed in the fixed arm 3;First planetary gear mechanism 4 includes the first sun gear, first planet carrier and the first external tooth
The output shaft of circle, first sun gear and the motor 1 is pivotally connected, and first outer gear ring and second sun gear are pivotally connected,
Second outer gear ring is fixedly connected with the linking arm 7;Be provided with fast pulley 8 in the linking arm 7, the fast pulley 8 with
Fixed arm 3 is fixedly connected, and the fast pulley 8 does not rotate itself, in Fig. 1, the output shaft of the fast pulley 8 and the motor 1
It is concentric;The first synchronizing wheel 10 is provided in the linking arm 7, first synchronizing wheel 10 passes through first with the fast pulley 8
Synchronous belt 9 connects;The motor 1 drives first sun gear to rotate, when first sun gear drives first external tooth
Circle rotation, first outer gear ring drive the second sun gear rotation, and when second sun gear rotation, described second too
Sun wheel drives the second outer gear ring rotation, and then second outer gear ring drives the linking arm 7 to rotate;The linking arm 7
While rotation, first synchronizing wheel 10 is driven to revolve around the fast pulley 8;First synchronizing wheel 10 it is axial wherein one
It holds and is pivotally connected with the linking arm 7, the other end is fixedly connected with rotating arm 17, is carried out certainly while first synchronizing wheel 10 revolves
Turn, 10 rotation of the first synchronizing wheel while drives the rotating arm 17 to rotate.
Be provided with second synchronizing wheel 11 and third synchronizing wheel 12 in the linking arm 7, second synchronizing wheel 11 with
First planet carrier connects, the rotation of the second synchronizing wheel 11 described in the first planet carrier rotate driving, 11 He of the second synchronizing wheel
The third synchronizing wheel 12 is connected by the second synchronous belt 13, in Fig. 1, the output of second synchronizing wheel 11 and the motor 1
Axis is concentric;The 4th synchronizing wheel 14 and the 5th synchronizing wheel 16, the 4th synchronizing wheel 14 and institute are provided in the rotating arm 17
The 5th synchronizing wheel 16 is stated to connect by third synchronous belt 15;The third synchronizing wheel 12 is connect and same with the 4th synchronizing wheel 14
Axle center, the 5th synchronizing wheel 16 are connect and concentric with wheel 18;
The motor 1 drives first sun gear to rotate, when first sun gear drives the first planet carrier to turn
When dynamic, the rotation of the second synchronizing wheel 11 described in the first planet carrier rotate driving, second synchronizing wheel 11 drives the third
Synchronizing wheel 12 rotates, and the third synchronizing wheel 12 drives the 4th synchronizing wheel 14 to rotate, and the 4th synchronizing wheel 14 drives institute
The 5th synchronizing wheel 16 is stated, the 5th synchronizing wheel 16 is rotated with motor car wheel 18.
Wherein, the wheel row brake 2 is suitable for the braking of the first planet carrier, and the motor 1 drives described first too
Sun wheel rotation, to be exported in the first planet carrier and/or first outer gear ring, first outer gear ring with it is described
The connection of second sun gear, the rotation of the first outer gear ring drive the second sun gear rotation;The walking brake 5 is suitable for described the
The braking of two outer gear rings.
It should be noted that can mutually be cut between motion mode corresponding to the instruction of wheel row, gait instruction and cutoff command
It changes, such as: when executing wheel row instruction, when obtaining and recognizing walking instruction, start to execute walking instruction;Execute walking instruction
When, when obtaining and recognizing wheel instruction, start to execute wheel row instruction.Herein, it does not enumerate one by one.
The advantages of this arrangement are as follows making the celestial body vehicle switch different movements by the switching of different moves
State, in flat road surface, high-efficient using in-wheel driving, speed is fast;It skids in the complex road surfaces such as slope or wheel depression
When, electromagnetic clutch switches walking manner for gait walking, and by different gait walking manners, improves the operation of celestial body vehicle
Efficiency improves the passability of celestial body vehicle.
The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all in essence of the invention
Within mind and principle, any modification, equivalent replacement, improvement and so on be should all be included in the protection scope of the present invention.
Claims (10)
1. a kind of single-motor double swing rod swing mechanism characterized by comprising a motor (1), linking arm (7), rotating arm (17)
With wheel (18);Fast pulley (8) and the first synchronizing wheel (10), first synchronizing wheel (10) are provided in the linking arm (7)
It is connect with the fast pulley (8) by the first synchronous belt (9), wherein one end of the first synchronizing wheel (10) axial direction and the company
Arm (7) pivot joint is connect, the other end is fixedly connected with the rotating arm (17), and the wheel (18) and the rotating arm (17) are pivotally connected;
The motor (1) is suitable for that the linking arm (7) is driven to rotate around the fast pulley (8), and first synchronizing wheel (10) drives institute
State rotating arm (17) rotation.
2. single-motor double swing rod swing mechanism according to claim 1, which is characterized in that the single-motor double swing rod revolution
Mechanism further include: first planetary gear mechanism (4), the first planetary gear mechanism (4) include the first sun gear, the first planet
Frame and the first outer gear ring, the motor (1) and first sun gear are pivotally connected;The motor (1) is further adapted for driving described first
Outer gear ring drives the linking arm (7) to rotate around the fast pulley (8).
3. single-motor double swing rod swing mechanism according to claim 2, which is characterized in that single-motor double swing rod swing mechanism
Further include: the second planetary gear mechanism (6), second planetary gear mechanism (6) include the second sun gear, the second planet carrier and
Second outer gear ring, second sun gear and first outer gear ring are pivotally connected, the linking arm (7) and the second outer gear ring pivot
It connecing, first outer gear ring drives the second sun gear rotation, and second sun gear drives the second outer gear ring rotation,
Second outer gear ring drives the linking arm (7) to rotate around the fast pulley (8).
4. single-motor double swing rod swing mechanism according to claim 3, which is characterized in that also set in the linking arm (7)
It is equipped with second synchronizing wheel (11) and third synchronizing wheel (12), axial wherein one end of second synchronizing wheel (11) and the
The connection of one planet carrier, second synchronizing wheel (11) and the third synchronizing wheel (12) are connected by the second synchronous belt (13);
Be provided with the 4th synchronizing wheel (14) and the 5th synchronizing wheel (16) in the rotating arm (17), the 4th synchronizing wheel (14) and
5th synchronizing wheel (16) is connected by third synchronous belt (15), wherein one end of the 4th synchronizing wheel (14) axial direction and institute
State axial wherein one end connection of third synchronizing wheel (12), wherein one end of the 5th synchronizing wheel (16) axial direction and the vehicle
Take turns (18) connection;
The first planet carrier rotation drives the second synchronizing wheel (11) rotation, and the second synchronizing wheel (11) rotation drives institute
State third synchronizing wheel (12);Third synchronizing wheel (12) rotation drives the 4th synchronizing wheel (14) rotation, and the described 4th is same
Step wheel (14) rotation drives the 5th synchronizing wheel (16) rotation, and the 5th synchronizing wheel (16) drives the wheel (18) to turn
It is dynamic.
5. according to any single-motor double swing rod swing mechanism of claim 2-4, which is characterized in that the single motor double pendulum
Bar swing mechanism further include: wheel row brake (2), the wheel row brake (2) are fixedly installed in the fixed arm (3), institute
State the braking that wheel row brake (2) is suitable for the first planet carrier.
6. single-motor double swing rod swing mechanism according to claim 5, which is characterized in that the single-motor double swing rod revolution
Mechanism further include: walking brake (5), the walking brake (5) are fixedly connected with the fixed arm (3), the walking system
Dynamic device (5) are suitable for the braking of second outer gear ring.
7. single-motor double swing rod swing mechanism according to claim 4, which is characterized in that second synchronizing wheel (11) and
The distance between axle center of the third synchronizing wheel (12) is d1, the 4th synchronizing wheel (14) and the 5th synchronizing wheel (16)
The distance between axle center be d2, d1=d2.
8. single-motor double swing rod swing mechanism according to claim 4, which is characterized in that the output shaft of the motor (1),
First sun gear, second sun gear, the fast pulley (8) and second synchronizing wheel (11) are concentric.
9. a kind of celestial body vehicle characterized by comprising car body (20) and any single-motor double swing rod of claim 1-8
Swing mechanism, the single-motor double swing rod swing mechanism are connect by cantilever (19) with the car body (20).
10. a kind of celestial body vehicle moving method, the celestial body vehicle moving method is based on celestial body vehicle as claimed in claim 9, the list
There are four motor double swing-bar swing mechanisms, and wherein two single-motor double swing rod swing mechanisms on front side of car body (20) are respectively
First forearm and the second forearm, two single-motor double swing rod swing mechanisms on rear side of the car body (20) are respectively after first
Arm and the second postbrachium, first forearm and first postbrachium are located at ipsilateral, second forearm and second postbrachium position
In ipsilateral, which is characterized in that the celestial body vehicle moving method includes:
First forearm and second postbrachium execute the second movement, and second forearm and first postbrachium execute the 4th
Movement, wherein second movement is that walking brake (5) disengage, and simultaneous wheels row brake (2) disengages;4th movement
For walking brake (5) braking, simultaneous wheels row brake (2) braking;
When first forearm and second postbrachium, which execute second movement, runs to the second setting position, described second
Forearm and first postbrachium execute second movement, and it is dynamic that first forearm and second postbrachium execute the described 4th
Make;
When second forearm and first postbrachium, which execute second movement, runs to the second setting position, described first
Postbrachium, second postbrachium, first forearm and second forearm are performed simultaneously the third movement;Wherein, described
Three movements are that the walking brake (5) disengages, while the wheel row brake (2) is braked;
When the single-motor double swing rod swing mechanism runs to third setting position, the aforementioned all steps of operating are repeated in,
Realize diagonal two gaits walking.
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CN108394270A (en) * | 2018-04-26 | 2018-08-14 | 北京理工大学 | A kind of rocker arm suspension, wheel leg type motor platform |
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CN101997361A (en) * | 2009-08-10 | 2011-03-30 | 日驰企业股份有限公司 | Motor speed change mechanism |
CN205034207U (en) * | 2015-05-26 | 2016-02-17 | 上海大学 | Small -size bionical four -footed robot of electric drive |
US20170152946A1 (en) * | 2015-11-27 | 2017-06-01 | Team Industries, Inc. | Sequential shift transmission |
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