阅读说明：本技术 一种用于火星探测的可重构轮腿移动装置 (Reconfigurable wheel leg moving device for Mars detection ) 是由 王储 邹猛 于 2021-08-30 设计创作，主要内容包括：本发明公开了一种用于火星探测的可重构轮腿移动装置,包括：前悬架和后悬架结构相同且分别安装在中悬架的两对侧,在前悬架和后悬架以及中悬架上均安装有轮腿机构,伸缩机构具有两个相对布置的伸缩端且各自安装有轮腿机构；关节转接件通过髋偏航关节与前悬架、后悬架以及伸缩机构上的两个伸缩端固定,大腿臂通过髋俯仰关节与关节转接件连接,小腿臂通过膝关节与大腿臂连接,小腿臂的末端安装有驱动轮。本发明中的轮腿机构能够同时实现轮式移动模式和足式行走模式两种行走方式,使得该可重构轮腿移动装置同时兼具在平坦地面快速行驶的高效性和在星表未知、非结构环境中稳定步行的适应性。(The invention discloses a reconfigurable wheel leg moving device for Mars detection, which comprises: the front suspension and the rear suspension are identical in structure and are respectively installed on two opposite sides of the middle suspension, wheel leg mechanisms are respectively installed on the front suspension, the rear suspension and the middle suspension, and each telescopic mechanism is provided with two telescopic ends which are oppositely arranged and is respectively provided with a wheel leg mechanism; the joint adapter is fixed with the front suspension, the rear suspension and two telescopic ends on the telescopic mechanism through a hip yaw joint, the thigh arm is connected with the joint adapter through a hip pitching joint, the shank arm is connected with the thigh arm through a knee joint, and the tail end of the shank arm is provided with a driving wheel. The wheel-leg mechanism can simultaneously realize two walking modes of a wheel-type moving mode and a foot-type walking mode, so that the reconfigurable wheel-leg moving device has high efficiency of fast running on flat ground and adaptability of stable walking in an unknown star-table and non-structural environment.)

1. A reconfigurable wheel-leg mobility device for Mars detection, comprising: the suspension mechanism comprises a middle suspension, a front suspension (4), a rear suspension (5), wheel leg mechanisms and telescopic mechanisms, wherein one end face of the middle suspension is a datum plane, the front suspension (4) and the rear suspension (5) are identical in structure and are respectively installed on two opposite sides of the middle suspension, the wheel leg mechanisms are respectively installed on the front suspension (4) and the rear suspension (5), the telescopic mechanisms are installed on the middle suspension, the telescopic mechanisms are provided with two telescopic ends which are oppositely arranged, the telescopic directions of the telescopic ends are parallel to the datum plane, and the wheel leg mechanisms are respectively installed on the two telescopic ends of each telescopic mechanism;

the wheel leg mechanism comprises a joint adaptor (6), a hip yaw joint (7), a thigh arm (8), a hip pitch joint (9), a shank arm (10), a knee joint (11) and a driving wheel (12), the plurality of joint adaptors (6) are respectively fixed with the front suspension (4), the rear suspension (5) and two telescopic ends on the telescopic mechanism through the hip yaw joints (7), the shank arm (8) is connected with the joint adaptor (6) through the hip pitch joint (9), the shank arm (10) is connected with the thigh arm (8) through the knee joint (11), and the driving wheel (12) is installed at the tail end of the shank arm (10); the hip yaw joint (7) can drive the joint adaptor (6) to swing and its swing axis line is perpendicular with the reference surface, hip pitch joint (9) can drive thigh arm (8) swing and its swing axis line is perpendicular with the swing axis line of joint adaptor (6), knee joint (11) can drive shank arm (10) swing and its swing axis line is parallel with the swing axis line of thigh arm (8), the swing axis line of shank arm (10) with rather than being connected the wheel center line of drive wheel (12) is perpendicular.

2. A reconfigurable wheel-leg movement device for Mars detection according to claim 1, characterized in that the front suspension (4) and the rear suspension (5) are arranged symmetrically with respect to the central suspension, and that the front suspension (4) and the rear suspension (5) are each fitted with two hip yaw joints (7) at the end remote from the central suspension.

3. The reconfigurable wheel leg moving device for Mars detection according to claim 1, wherein the hip yaw joint (7) comprises a hip yaw joint base (70), a joint driving motor (71) and a joint reducer (72), the hip yaw joint bases (70) are respectively fixed with the front suspension (4), the rear suspension (5) and telescopic ends on the telescopic mechanism, the joint driving motor (71) and the joint reducer (72) are installed on the hip yaw joint base (70), the joint driving motor (71) is in transmission connection with the joint reducer (72), and one end of the joint adapter (6) is fixed with an output shaft of the joint reducer (72).

4. The reconfigurable wheel leg moving device for Mars detection according to claim 3, wherein the middle suspension comprises a first rectangular plate (1), a second rectangular plate (2) and a connecting plate (3), the first rectangular plate (1) and the second rectangular plate (2) are identical, the first rectangular plate (1) and the second rectangular plate (2) are arranged in parallel and opposite to each other, the first rectangular plate (1) and the second rectangular plate (2) are fixed through the connecting plate (3), the plate surface of the connecting plate (3) is perpendicular to the plate surface of the first rectangular plate (1), and the plate surface of the connecting plate (3) is the datum surface; the front suspension (4) is fixed with one side plate surface of the first rectangular plate (1) far away from the second rectangular plate (2), and the rear suspension (5) is fixed with one side plate surface of the second rectangular plate (2) far away from the first rectangular plate (1); the telescopic mechanism comprises a guide rail (13), a first sliding block (14), a first screw rod (15), a second screw rod (16), a second sliding block (17), a first bevel gear (18), a driving motor (19) and a second bevel gear (20), the guide rail (13) is fixedly supported on the surface of one side, close to the second rectangular plate (2), of the first rectangular plate (1), two first sliding blocks (14) are sleeved on the guide rail (13) in a sliding manner, the rail length direction of the guide rail (13) is parallel to the surface of the connecting plate (3), a first screw rod (15) and a second screw rod (16) are rotatably supported on the surface of one side, close to the first rectangular plate (1), of the second rectangular plate (2), the first screw rod (15) and the second screw rod (16) are respectively and spirally sleeved with one second sliding block (17), the first screw rod (15) and the second screw rod (16) are coaxially arranged, and the axial leads of the first screw rod (15) and the second screw rod (16) are both parallel to the rail length direction of the guide rail (13), one end of the first screw rod (15) close to the second screw rod (16) is fixedly provided with a first bevel gear (18) in the same shaft sleeve, one end of the second screw rod (16) close to the first screw rod (15) is fixedly provided with a first bevel gear (18) in the same shaft sleeve, one side of the rectangular plate (2) far away from the rectangular plate (1) is fixedly provided with the driving motor (19), an output shaft of the driving motor (19) vertically penetrates through the plate surface of the rectangular plate (2) and then is coaxially sleeved with a second bevel gear (20), the second bevel gear (20) is simultaneously meshed with the two first bevel gears (18), the second slider (17) sleeved on the first screw rod (15) and the first slider (14) sleeved on the guide rail (13) are jointly fixed with the hip joint base (70), and the second slider (17) sleeved on the second screw rod (16) and the other one slider (17) sleeved on the guide rail (13) are fixedly arranged on the guide rail (13) The first sliding blocks (14) are jointly fixed with a hip yaw joint base (70).

5. The reconfigurable wheel-leg moving device for Mars detection according to claim 3, wherein the hip pitch joint (9) comprises a first base (90), a first motor (91), a first speed reducer (92) and a first joint connector (93), the first base (90) is fixed with one end, away from the shank arm (10), of the thigh arm (8), the first motor (91) and the first speed reducer (92) are installed on the first base (90), the first motor (91) is in transmission connection with the first speed reducer (92), one end of the first joint connector (93) is fixed with an output shaft of the first speed reducer (92), and the other end of the first joint connector (93) is fixed with one end, away from the hip yaw joint base (70), of the joint adapter (6); knee joint (11) are including two base (110), two (111) of motor, two (112) of reduction gear and joint connection spare (113), two base (110) with thigh arm (8) are kept away from the one end of one base (90) is fixed, install on two base (110) two motor (111) with two (112) of reduction gear, two (111) of motor with two (112) transmission of reduction gear are connected, the one end of two (113) of joint connection spare with the output shaft of two (112) of reduction gear is fixed, the other end of two (113) of joint connection spare with shank arm (10) is kept away from the one end of drive wheel (12) is fixed.

6. A reconfigurable wheel-leg moving device for Mars detection according to claim 1, characterized in that, it further comprises a wheel-row driving motor (21) and a wheel axle (22), the wheel axle (22) is rotatably supported on one end of the shank arm (10) far away from the thigh arm (8), the driving wheel (12) is sleeved on the wheel axle (22), and the driving motor (19) is fixed on one side wall of the shank arm (10) and is in transmission connection with the wheel axle (22).

Technical Field

The invention relates to the field of aircrafts, in particular to a reconfigurable wheel leg moving device for Mars detection.

Background

The wheel type detector is high in moving efficiency, simple in control strategy and good in control directivity. At present, in the field of space exploration, a wheel type detector is mainly applied to complete tasks such as extraterrestrial celestial body exploration and unknown area exploration. Based on the early detection result, the Mars surface is mostly in rugged, discrete and discontinuous terrain and landform characteristics, and the factor also greatly restricts the selection of the reachable area of the wheel type detector in the Mars surface detection task. Compared with a wheel type detector, the leg-foot type mobile robot and the bearing surface are in mutual contact through discrete foot falling points, and the characteristic enables the leg-foot type mobile robot to be effectively suitable for various complex landforms and extreme space environments on the surface of a mars, and to walk freely on the surface of the mars, so that the leg-foot type mobile robot has the advantages of strong adaptability, high trafficability and the like in the field of mars detection. Therefore, the wheel-type mobile device and the leg-foot type mobile device are designed into a coupling system, the wheel-type mobile device and the leg-foot type mobile device can quickly pass through flat ground in a wheel-walking mode, and the walking mode can flexibly pass through rugged and rough road surfaces with larger gradients, so that efficient and reliable movement on a complex star surface is realized. The invention patent publication CN201710271810.4 proposes a wheel-leg hexapod mobile device with a suspension system, which, although it realizes switching between a wheeled mobile mode and a foot mobile mode, has a limited height of the mobile device leg from the ground in a wheel-walking mode configuration condition, in which the passing performance of the mobile device is extremely limited, and it is difficult to realize its wheeled mobile on extraterrestrial celestial bodies or rough road surfaces.

Although many mobile devices have wheel type and foot type moving functions at the same time, most mobile devices are difficult to pass through small undulations or grooves in the wheel-row mode moving process due to the structural design of the wheel legs, that is, the wheel-row mode obstacle has poor passing performance and the bumpy road surface adaptability is not enough. Meanwhile, in the walking mode, the mobile device is turned over due to the possibility of slippage when the foot end is in contact with the non-structural ground, i.e. the walking mode is weak in stability.

Therefore, how to provide a reconfigurable wheel leg moving device for mars detection makes it possible to overcome the above-mentioned problems. Is a problem that needs to be solved by those skilled in the art.

Disclosure of Invention

In view of the above, the present invention provides a reconfigurable wheel-leg moving device for Mars detection.

In order to achieve the purpose, the invention adopts the following technical scheme:

a reconfigurable wheel leg mobility device for mars detection, comprising: the suspension comprises a middle suspension, a front suspension, a rear suspension, wheel leg mechanisms and telescopic mechanisms, wherein one end face of the middle suspension is a datum plane, the front suspension and the rear suspension are identical in structure and are respectively installed on two opposite sides of the middle suspension, the wheel leg mechanisms are respectively installed on the front suspension and the rear suspension, the telescopic mechanisms are installed on the middle suspension, the telescopic mechanisms are provided with two telescopic ends which are oppositely arranged, the telescopic directions of the telescopic ends are parallel to the datum plane, and the wheel leg mechanisms are respectively installed on the two telescopic ends of each telescopic mechanism;

the wheel leg mechanism comprises joint connectors, hip yaw joints, thigh arms, hip pitch joints, shank arms, knee joints and driving wheels, the plurality of joint connectors are fixed with the front suspension, the rear suspension and two telescopic ends on the telescopic mechanism through the hip yaw joints, the thigh arms are connected with the joint connectors through the hip pitch joints, the shank arms are connected with the thigh arms through the knee joints, and the driving wheels are mounted at the tail ends of the shank arms; the hip yaw joint can drive the joint adapter to swing, the swinging axis line of the hip yaw joint is perpendicular to the reference surface, the hip pitch joint can drive the thigh arm to swing, the swinging axis line of the hip yaw joint is perpendicular to the swinging axis line of the joint adapter, the knee joint can drive the shank arm to swing, the swinging axis line of the knee joint is parallel to the swinging axis line of the thigh arm, and the swinging axis line of the shank arm is perpendicular to the wheel center line of the driving wheel connected with the knee joint.

According to the technical scheme, compared with the prior art, the reconfigurable wheel leg moving device for Mars detection is disclosed and provided, the wheel leg mechanism can simultaneously realize two walking modes, namely a wheel moving mode and a foot walking mode, so that the reconfigurable wheel leg moving device has high efficiency of fast running on flat ground and adaptability of stable walking in an unknown star surface and non-structural environment; the middle suspension is provided with the telescopic mechanism, the two telescopic ends of the telescopic mechanism are respectively fixed with the wheel leg mechanism, and the two wheel leg mechanisms can be synchronously and reversely stretched, so that the six wheel leg mechanisms in the reconfigurable wheel leg moving device can be changed in configuration, and the stability of the reconfigurable wheel leg moving device is improved.

Preferably, the front suspension and the rear suspension are symmetrically arranged about the middle suspension, and two hip yaw joints are mounted at one end of each of the front suspension and the rear suspension, which is far away from the middle suspension. The arrangement ensures the stable structure of the reconfigurable wheel leg moving device during moving, the middle suspension, the front suspension and the rear suspension can be reliably supported, and the reconfigurable wheel leg moving device is convenient for switching the moving mode.

Preferably, the hip yaw joint comprises a hip yaw joint base, a joint driving motor and a joint reducer, the hip yaw joint bases are respectively fixed with the front suspension, the rear suspension and telescopic ends on the telescopic mechanism, the joint driving motor and the joint reducer are mounted on the hip yaw joint base, the joint driving motor is in transmission connection with the joint reducer, and one end of the joint adapter is fixed with an output shaft of the joint reducer. The arrangement ensures that the hip yaw joint can reliably drive the joint adapter to swing.

Preferably, the middle suspension comprises a first rectangular plate, a second rectangular plate and a connecting plate, the first rectangular plate is identical to the second rectangular plate, the first rectangular plate and the second rectangular plate are parallel to each other and are oppositely arranged, the first rectangular plate and the second rectangular plate are fixed through the connecting plate, the plate surface of the connecting plate is perpendicular to the plate surface of the first rectangular plate, and the plate surface of the connecting plate is the datum plane; the front suspension is fixed with one side plate surface of the first rectangular plate far away from the second rectangular plate, and the rear suspension is fixed with one side plate surface of the second rectangular plate far away from the first rectangular plate; the telescopic mechanism comprises a guide rail, a first slide block, a first lead screw, a second slide block, a first bevel gear, a driving motor and a second bevel gear, the guide rail is fixedly supported on a side plate surface of the first rectangular plate close to the second rectangular plate, the first slide block is sleeved on the guide rail in a sliding manner, the rail length direction of the guide rail is parallel to the plate surface of the connecting plate, a first lead screw and a second lead screw are rotatably supported on a side plate surface of the second rectangular plate close to the first rectangular plate, the first lead screw and the second lead screw are respectively provided with one slide block in a spiral sleeve manner, the first lead screw and the second lead screw are coaxially arranged, the axial leads of the first lead screw and the second lead screw are both parallel to the rail length direction of the guide rail, one end of the first lead screw close to the second lead screw is fixedly provided with the first bevel gear in a sleeve manner, one end of the second lead screw close to the first lead screw is fixedly provided with the first bevel gear in a sleeve manner, the driving motor is fixed on the surface of one side, away from the first rectangular plate, of the second rectangular plate, an output shaft of the driving motor is coaxially sleeved with a second bevel gear after vertically penetrating through the surface of the second rectangular plate, the second bevel gear is meshed with the first bevel gears, the second sliding block sleeved on the first screw rod is fixed with the first sliding block sleeved on the guide rail together with the first hip yaw joint base, and the second sliding block sleeved on the second screw rod is fixed with the first sliding block sleeved on the guide rail together with the first sliding block. The arrangement ensures that the middle suspension can be reliably fixed with the front suspension and the rear suspension; the telescopic mechanism can effectively drive the two wheel leg mechanisms to stretch and retract in a reciprocating mode, and the two wheel leg mechanisms can be guaranteed to stretch and retract in a synchronous and reverse mode.

Preferably, the hip pitching joint comprises a first base, a first motor, a first speed reducer and a first joint connecting piece, the first base is fixed with one end, far away from the shank arm, of the thigh arm, the first motor and the first speed reducer are mounted on the first base, the first motor is in transmission connection with the first speed reducer, one end of the first joint connecting piece is fixed with an output shaft of the first speed reducer, and the other end of the first joint connecting piece is fixed with one end, far away from the hip yawing joint base, of the joint connecting piece; the knee joint comprises a second base, a second motor, a second speed reducer and a second joint connecting piece, the second base and one end, far away from the first base, of the thigh arm are fixed, the second base is provided with the second motor and the second speed reducer, the second motor is in transmission connection with the second speed reducer, one end of the second joint connecting piece is fixed with an output shaft of the second speed reducer, and the other end of the second joint connecting piece is fixed with one end, far away from the shank arm, of the driving wheel. The arrangement ensures that the hip pitching joint can reliably drive the thigh arm to swing, and the knee joint can reliably drive the shank arm to swing.

Preferably, the thigh arm is arranged on the lower leg arm, the thigh arm is arranged on the thigh arm, the thigh arm and the thigh arm are connected through a drive shaft, and the thigh arm is connected with the thigh arm through a drive shaft. This setting guarantees that driving motor can reliably drive the drive wheel and rotate, and simultaneously, drive wheel and shank arm can reliably be connected.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

FIG. 1 is an isometric view of a reconfigurable wheel leg movement apparatus for Mars detection in a hexagonal configuration;

FIG. 2 is a front view of FIG. 1;

FIG. 3 is an isometric view of a reconfigurable wheel leg movement for Mars detection in a rectangular configuration;

FIG. 4 is an isometric view of a reconfigurable wheel-leg shifter for Mars detection with the mid-suspension, front suspension, and rear suspension raised in a rectangular configuration;

FIG. 5 is a partial isometric view of a reconfigurable wheel leg movement for Mars detection;

FIG. 6 is a partial isometric view of a reconfigurable wheel leg movement apparatus for Mars detection;

FIG. 7 is a partial isometric view of a reconfigurable wheel leg movement for Mars detection;

FIG. 8 is a partial isometric view of a reconfigurable wheel leg movement for Mars detection;

FIG. 9 is a partial isometric cut-away view of a reconfigurable wheel leg movement for Mars detection;

FIG. 10 is an isometric view of a hip yaw joint in a reconfigurable wheel-leg shifter for Mars detection;

FIG. 11 is an isometric view of a hip pitch joint in a reconfigurable wheel-leg mobility device for Mars detection;

fig. 12 is a front view of fig. 11.

In the figure:

the device comprises a base, a rectangular plate I1, a rectangular plate II 2, a connecting plate 3, a front suspension 4, a rear suspension 5, a joint adapter 6, a hip yaw joint 7, a hip yaw joint base 70, a shutdown driving motor 71, a joint reducer 72, a thigh arm 8, a hip pitch joint 9, a base I90, a motor I91, a reducer I92, a joint connector I93, a shank arm 10, a knee joint 11, a base II 110, a motor II 111, a reducer II 112, a joint connector II 113, a driving wheel 12, a guide rail 13, a slide block I14, a lead screw I15, a lead screw II 16, a slide block II 17, a bevel gear I18, a driving motor 19, a bevel gear II 20, a wheel row driving motor 21 and a wheel row driving motor 22.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention discloses a reconfigurable wheel leg moving device for Mars detection, wherein a wheel leg mechanism can simultaneously realize two walking modes of a wheel type moving mode and a foot type walking mode, so that the reconfigurable wheel leg moving device has high efficiency of fast running on a flat ground and adaptability of stable walking in an unknown and non-structural environment of a star surface; the middle suspension is provided with the telescopic mechanism, two telescopic ends of the telescopic mechanism are respectively fixed with the wheel leg mechanism, and the two wheel leg mechanisms can be synchronously and reversely stretched, so that six wheel leg mechanisms in the reconfigurable wheel leg moving device can be switched between a hexagonal configuration and a rectangular configuration, the stability of the reconfigurable wheel leg moving device is improved, and meanwhile, under the condition of a foot type walking mode, the reconfigurable wheel leg moving device can move in a moving mode of insects or mammals to adapt to the complex appearance condition of a star watch; by the movements of the hip pitch joint 9 and the knee joint 11, the raising and lowering of the middle suspension, the front suspension 4 and the rear suspension 5 can be achieved in the wheeled locomotion mode.

Examples

Referring to fig. 1-12, which are schematic structural diagrams of a reconfigurable wheel leg moving device for Mars detection according to an embodiment of the present invention, in whole or in part, the present invention specifically discloses a reconfigurable wheel leg moving device for Mars detection, comprising: the wheel leg mechanism comprises a middle suspension, a front suspension 4, a rear suspension 5, wheel leg mechanisms and telescopic mechanisms, wherein one end face of the middle suspension is a datum plane, the front suspension 4 and the rear suspension 5 are identical in structure and are respectively installed on two opposite sides of the middle suspension, the front suspension 4 and the rear suspension 5 are respectively provided with a plurality of wheel leg mechanisms, the middle suspension is provided with the telescopic mechanisms, the telescopic mechanisms are provided with two telescopic ends which are oppositely arranged, the telescopic directions of the two telescopic ends are parallel to the datum plane, and the two telescopic ends of each telescopic mechanism are respectively provided with one wheel leg mechanism;

the wheel leg mechanism comprises joint adapters 6, hip yaw joints 7, thigh arms 8, hip pitch joints 9, shank arms 10, knee joints 11 and driving wheels 12, the joint adapters 6 are respectively fixed with the front suspension 4, the rear suspension 5 and two telescopic ends on the telescopic mechanisms through the hip yaw joints 7, the thigh arms 8 which are hollow inside and rectangular in section are connected with the joint adapters 6 through the hip pitch joints 9, the shank arms 10 which are hollow inside and rectangular in section are connected with the thigh arms 8 through the knee joints 11, and the driving wheels 12 are installed at the tail ends of the shank arms 10; the hip yaw joint 7 can drive the joint adapter 6 to swing, the swing axis line of the hip yaw joint is perpendicular to the reference plane, the hip pitch joint 9 can drive the thigh arm 8 to swing, the swing axis line of the hip pitch joint is perpendicular to the swing axis line of the joint adapter 6, the knee joint 11 can drive the shank arm 10 to swing, the swing axis line of the knee joint is parallel to the swing axis line of the thigh arm 8, and the swing axis line of the shank arm 10 is perpendicular to the wheel center line of the driving wheel 12 connected with the shank arm 10.

More specifically, the front suspension 4 and the rear suspension 5 are symmetrically arranged about the middle suspension, and two hip yaw joints 7 are mounted at one ends of the front suspension 4 and the rear suspension 5 far away from the middle suspension.

More specifically, the hip yaw joint 7 includes a hip yaw joint base 70, a joint driving motor 71 and a joint reducer 72, the hip yaw joint base 70 is a frame-shaped sheet metal part, the hip yaw joint bases 70 are respectively fixed with the front suspension 4, the rear suspension 5 and the telescopic ends of the telescopic mechanisms, the joint driving motor 71 and the joint reducer 72 are fixed in the hip yaw joint base 70, the joint driving motor 71 is in transmission connection with the joint reducer 72, and one end of the joint adapter 6 is fixed with the output shaft of the joint reducer 72.

Further specifically, the middle suspension comprises a first rectangular plate 1, a second rectangular plate 2 and connecting plates 3, wherein the first rectangular plate 1 is completely identical to the second rectangular plate 2, the first rectangular plate 1 and the second rectangular plate 2 are parallel to each other in surface and are oppositely arranged, the first rectangular plate 1 and the second rectangular plate 2 are fixed through the two connecting plates 3, the surfaces of the two connecting plates 3 are perpendicular to the surface of the first rectangular plate 1, two long side walls of the first rectangular plate 1 and the second rectangular plate 2 are respectively fixed with the two connecting plates 3, the plate length of the connecting plates 3 is smaller than that of the first rectangular plate 1, and the surface of the connecting plates 3 is a reference surface; the front suspension 4 is fixed with the plate surface of one side of the rectangular plate I1, which is far away from the rectangular plate II 2, and the rear suspension 5 is fixed with the plate surface of one side of the rectangular plate II 2, which is far away from the rectangular plate I1; the telescopic mechanism comprises a guide rail 13, a first sliding block 14, a first lead screw 15, a second lead screw 16, a second sliding block 17, a first bevel gear 18, a driving motor 19 and a second bevel gear 20, wherein two guide rails 13 with circular sections and parallel to each other are fixedly supported on one side plate surface of a first rectangular plate 1 close to a second rectangular plate 2, the two guide rails 13 are sequentially arranged along the plate width direction of the first rectangular plate 1, two first sliding blocks 14 are sleeved on each guide rail 13 in a sliding manner, the rail length direction of each guide rail 13 is parallel to the plate surface of a connecting plate 3, a first lead screw 15 and a second lead screw 16 are rotatably supported on one side plate surface of the second rectangular plate 2 close to the first rectangular plate 1, the first lead screw 15 and the second lead screw 16 are respectively sleeved with a second sliding block 17 in a spiral manner, the first lead screw 15 and the second lead screw 16 are coaxially arranged, the axial leads of the first lead screw 15 and the second lead screw 16 are parallel to the rail length direction of the guide rails 13, and the sum of the lengths of the first lead screw 15 and the second lead screw 16 is equal to the length of the guide rails 13, one end of the first screw rod 15, which is close to the second screw rod 16, is fixedly provided with a first bevel gear 18 together with a shaft sleeve, one end of the second screw rod 16, which is close to the first screw rod 15, is fixedly provided with a driving motor 19 together with the shaft sleeve, an output shaft of the driving motor 19 is coaxially sleeved with a second bevel gear 20 after vertically penetrating through the plate surface of the second rectangular plate 2, the second bevel gear 20 is simultaneously meshed with the two first bevel gears 18, a second slide block 17 sleeved on the first screw rod 15 and a first slide block 14 sleeved on the guide rail 13 are jointly fixed with a hip yaw joint base 70, a second slide block 17 sleeved on the second screw rod 16 and another first slide block 14 sleeved on the guide rail 13 are jointly fixed with the hip yaw joint base 70, through the arrangement, the two wheel leg mechanisms connected with the telescopic mechanism can be reciprocally telescopic, and when the two wheel leg mechanisms are telescopic to a certain distance, two adjacent included angles in the six wheel leg structures are equal and 60 degrees, namely, the six wheel leg structures are in a hexagonal configuration, and when the six driving wheels 12 rotate simultaneously, the whole wheel leg moving device can realize in-situ turning; when the two wheel leg mechanisms connected with the telescopic mechanisms are telescopic to a certain distance, the six wheel leg structures can form a rectangular configuration, namely the geometric center connecting line of the six hip yaw joint bases 70 can be rectangular. In a foot walking mode, the reconfigurable wheel leg moving device can simulate the moving mode of insects or mammals by combining the hexagonal configuration or the rectangular configuration.

Further specifically, the hip pitching joint 9 comprises a first base 90, a first motor 91, a first speed reducer 92 and a first joint connector 93, wherein the first base 90 is a frame-shaped sheet metal part, the first base 90 is embedded in one end, far away from the shank arm 10, of the thigh arm 8 and fixed with the shank arm through a bolt, the first motor 91 and the first speed reducer 92 are fixed in the first base 90, the first motor 91 is in transmission connection with the first speed reducer 92, one end of the first joint connector 93 is fixed with an output shaft of the first speed reducer 92, and the other end of the first joint connector 93 is fixed with one end, far away from the hip yawing joint base 70, of the joint adaptor 6;

the knee joint 11 comprises a second base 110, a second motor 111, a second speed reducer 112 and a second joint connecting piece 113, the second base 110 is a frame-shaped sheet metal part, the second base 110 is embedded in one end, far away from the first base 90, of the thigh arm 8 and fixed with the first base through bolts, the second motor 111 and the second speed reducer 112 are fixed in the second base 110, the second motor 111 is in transmission connection with the second speed reducer 112, one end of the second joint connecting piece 113 is fixed with an output shaft of the second speed reducer 112, and the other end of the second joint connecting piece 113 is fixed with one end, far away from the driving wheel 12, of the shank arm 10.

More specifically, the leg arm comprises a wheel-line driving motor 21 and an axle 22, wherein the axle 22 is rotatably supported at one end of the lower leg arm 10 far away from the thigh arm 8, the axle 22 is coaxially sleeved with the driving wheel 12, and the driving motor 19 is fixed on one side wall of the lower leg arm 10 and is in transmission connection with the axle 22 through a pair of bevel gears.

The working principle of the reconfigurable wheel leg moving device is as follows:

the swing of the wheel leg mechanism is realized through the hip yaw joint 7, the hip pitch joint 9 and the knee joint 11, and then the omnibearing walking of the mobile device is realized through controlling the six wheel leg mechanisms with a certain gait plan.

The reconfigurable wheel-leg moving device is characterized in that a telescopic mechanism is arranged on a middle suspension, two telescopic ends of the telescopic mechanism are respectively connected with a wheel-leg mechanism, the two telescopic ends are driven to stretch and retract by synchronous and reverse stretching of the two telescopic ends, the two wheel-leg mechanisms connected with the telescopic mechanism are connected with the telescopic mechanism, the configuration transformation of six wheel-leg mechanisms in the reconfigurable wheel-leg moving device is realized, a foot type walking mode is converted into a wheel type moving mode, six driving wheels 12 do not rotate, and the moving of the moving device is realized by the swinging of a thigh arm 8 and a shank arm 10; the wheel-type moving mode is to realize the movement of the moving device by the rotation of six driving wheels 12. By controlling the hip pitch joint 9 and knee joint 11 movements, the raising and lowering of the middle, front and rear suspensions 4, 5 can be achieved.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.