CN204488997U - Doublejointed hopping robot - Google Patents

Abstract

The utility model provides a kind of doublejointed hopping robot.Comprise by right thigh, first Timing Belt, first motor, left thigh, first hangs spring connecting panel, left extension spring stay bearing plate, second hangs spring connecting panel, thigh axle, left leg, first shank synchronous pulley, second Timing Belt, second motor, second shank synchronous pulley, the left connecting panel of sole, sole left support plate, 4th hangs spring connecting panel, sole left bottom plate, shank axle, the right connecting panel of sole, the right base plate of sole, sole right support plate, 3rd hangs spring connecting panel, right leg, first thigh synchronous pulley, right extension spring stay bearing plate, first adapter plate, second adapter plate, second thigh synchronous pulley, second hangs the large leg mechanism that spring formation hung by spring and first, little leg mechanism and Sole mechanism.The utility model adopts doublejointed, drives with two motors, application spring energy-storage, and structure is simple, and physical construction flexibility and good buffer effect, therefore jump performance is fine.

Description

Doublejointed hopping robot

Technical field

The utility model relates to a kind of bio-robot that can realize jumping.

Background technology

At present along with the development of Robotics, when in the face of rugged environment and complicated landform, robot bouncing function is used to strengthen its landform and paleocinetic ability, be development in recent years faster a kind of Robotics compare wheeled or caterpillar type robot, hopping robot has outstanding obstacle climbing ability, and the skip motion mode of hopping robot has the feature of low energy consumption.There are now some about the open report of bionic kangaroo-hopping robot.But be all physical construction flexibility and buffering weak effect mostly, cause jump steady not.Application number is in the patent document of 201210279364.9, disclosing a kind of imitative frog hopping robot, is that existing hopping robot is relatively suitable for, by the reasonable setting to front and back limb, improve the degree of utilization of driver element, optimize leg structure, but the bionical degree of its back leg is not high, have ignored the integraty of leg structure, do not meet bionics principle, and its buffering effect is bad, have impact on the efficiency of take-off, cause jump performance good not.

Summary of the invention

The purpose of this utility model is to provide a kind of flexible and good buffer effect, can realize the doublejointed hopping robot of vertical jump in succession.

The purpose of this utility model is achieved in that and comprises large leg mechanism, little leg mechanism and Sole mechanism;

In large leg mechanism, left thigh and right thigh bottom are connected on thigh axle by bearing, connected by adapter plate in the middle of two left thighs, first motor is arranged on adapter plate, first thigh synchronous pulley is connected with the first motor output shaft, second thigh synchronous pulley is installed and is connected on thigh axle, and the first Timing Belt is arranged between two thigh synchronous pulleys, connects first and hang spring connecting panel between two thighs;

In little leg mechanism, left leg is connected with left thigh and right thigh by thigh axle respectively with right leg upper end, second extension spring connecting panel and the 3rd is hung spring connecting panel and is arranged between two shanks, second motor is arranged on a shank, second motor output shaft is connected with the first shank synchronous pulley through another shank, second shank synchronous pulley is arranged on shank axle, and the second Timing Belt is arranged between two shank synchronous pulleys, and the bottom of left leg and right leg is connected on shank axle by bearing;

In Sole mechanism, the left connecting panel of sole and the right connecting panel of sole are connected on shank axle by bearing, 4th hangs spring connecting panel is arranged between the left connecting panel of two soles, sole left support plate and sole right support plate are arranged on the left connecting panel of sole and the right connecting panel of sole respectively, and sole left bottom plate and the right base plate of sole are arranged on below sole left support plate and sole right support plate respectively;

First extension spring connecting panel and second is hung between spring connecting panel and is arranged the first extension spring, and the 3rd extension spring connecting panel and the 4th is hung between spring connecting panel and arranged the second extension spring.

The utility model can also comprise:

1, thigh synchronous pulley and shank synchronous pulley are positioned at not homonymy.

2, the thigh with the side of thigh synchronous pulley is provided with the compression pin making Timing Belt tensioning.

The deficiency of the jump performance difference that the flexible and buffering effect of the physical construction that the utility model exists for current bionic kangaroo-hopping robot is bad etc. causes, propose a kind of novel doublejointed hopping robot, apply simple physical construction, mainly reach the doublejointed robot that can realize vertical jump in succession.

During work, first the first motor slowly rotates forward, drive the first thigh synchronous pulley to rotate thus drive the first Timing Belt motion, left thigh and right thigh are rotated around thigh axle, thigh declining forward is suitable angle tiltedly, extension spring is elongated, then the second motor slowly rotates forward, drive the first shank synchronous pulley to rotate thus drive the second Timing Belt motion, thus left leg and right leg rotate around shank axle, make shank inclined downward certain angle backward, extension Huang is elongated, prepare take-off, first motor and the second motor be reversion fast simultaneously, robot obtains transient acceleration take-off, aloft moment robot thigh and shank are stretched out get back to incipient state completely, when that moment of landing, the first motor and the second motor rotate forward, have a down dip after making the oblique shank picture of thigh declining forward, make robot land the moment to be able to buffering and to stop, and then jump next time, first motor and the second motor slowly reversion simultaneously when stopping until last, robot is made to return to incipient state.

Although it is similar that the utility model and indivedual prior art exist on Some principles, carry out the innovation of structure on its basis again.The utility model adopts doublejointed, drives with two motors, application spring energy-storage, and structure is simple, and physical construction flexibility and good buffer effect, therefore jump performance is fine.The utility model is novel in design, and structure is simple, reliable, rationally distributed, has been more suitable for the jump task of various complex environment.

Accompanying drawing explanation

Fig. 1 the first axonometric drawing of the present utility model;

Fig. 2 the second axonometric drawing 2 of the present utility model;

The right elevation of Fig. 3 Fig. 1.

Detailed description of the invention

For a more detailed description to the utility model below in conjunction with accompanying drawing:

Main constituent elements of the present utility model comprises: right thigh 1, first Timing Belt 2, compress pin 3, first motor 4, left thigh 5, first hangs spring connecting panel 6, left extension spring stay bearing plate 7, second hangs spring connecting panel 8, thigh axle 9, left leg 10, first shank synchronous pulley 11, second Timing Belt 12, second motor 13, second shank synchronous pulley 14, the left connecting panel 15 of sole, sole left support plate 16, 4th hangs spring connecting panel 17, sole left bottom plate 18, shank axle 19, the right connecting panel 20 of sole, the right base plate 21 of sole, sole right support plate 22, 3rd hangs spring connecting panel 23, right leg 24, first thigh synchronous pulley 25, right extension spring stay bearing plate 26, first adapter plate 27, second adapter plate 28, second thigh synchronous pulley 29, second hangs spring 30, first hangs spring 31.

Composition graphs 1 to Fig. 3, in large leg mechanism, there are left thigh 5 and right thigh 1, left and right lower leg and thigh is connected on thigh axle 9 by bearing, and can rotate around it, left thigh 5 is connected with the second adapter plate 28 by the first adapter plate 27 with in the middle of right thigh 1, first motor 4 is arranged on the first adapter plate 27, first thigh synchronous pulley 25 is connected with the first motor 4 output shaft by key, second thigh synchronous pulley 29 is connected on thigh axle 9 by key, first thigh synchronous pulley 25 and the second thigh synchronous pulley 29 are all on the right side of right thigh 1, first Timing Belt 2 is arranged on the first thigh synchronous pulley 25 and the second thigh synchronous pulley 29, centre has the compression pin 3 be arranged on right thigh 1 to make Timing Belt 2 tensioning.First motor 4 rotates and drives first leg synchronous pulley 25 to rotate, thus drives the second thigh synchronous pulley 29 to rotate by the first Timing Belt 2, thus left thigh 5 and right thigh 1 can be rotated around thigh axle 9.

Composition graphs 1 to Fig. 3, in little leg mechanism, left leg 10 is connected with right thigh 1 with left thigh 5 by thigh axle 9 respectively with right leg 24, second extension spring connecting panel 8 and the 3rd extension spring connecting panel 23 are arranged in the middle of left leg 10 and right leg 24, and play fixation, second motor 213 is arranged on right leg 24, second motor 13 output shaft is connected by key with the first shank synchronous pulley 11 through left leg 10, second shank synchronous pulley 14 is arranged on shank axle 19 by key, second Timing Belt 12 is arranged on the first shank synchronous pulley 11 and the second shank synchronous pulley 14.The bottom of left leg 10 and right leg 24 is connected on shank axle 19 by bearing.Second motor 13 rotates drive first shank synchronous pulley 11 and rotates, thus drives the second shank synchronous pulley 14 to rotate by the second Timing Belt 12, thus left leg 10 and right leg 24 can be rotated around shank axle 19.

Composition graphs 1 to Fig. 3, in Sole mechanism, the left connecting panel of sole 15 and the right connecting panel 20 of sole are connected on shank axle 19 by bearing, 4th hangs spring connecting panel 17 is arranged on the left connecting panel of sole 15 and the right connecting panel 20 of sole, sole left support plate 16 and sole right support plate 22 are arranged on the both sides of the left connecting panel of sole 15 and the right connecting panel 20 of sole, and sole left bottom plate 18 and the right base plate 21 of sole are arranged on below sole left support plate 16 and sole right support plate 22.

During work, first the first motor 4 slowly rotates forward, drive the first thigh synchronous pulley 25 to rotate thus drive the first Timing Belt 2 to move, left thigh 5 and right thigh 1 are rotated around thigh axle 9, thigh declining forward is suitable angle tiltedly, extension spring is elongated, then the second motor 13 slowly rotates forward, drive the first shank synchronous pulley 11 to rotate thus drive the second Timing Belt 12 to move, thus left leg 10 and right leg 24 rotate around shank axle 19, make shank inclined downward certain angle backward, extension Huang is elongated, prepare take-off, first motor 4 and the second motor 13 be reversion fast simultaneously, robot obtains transient acceleration take-off, aloft moment robot thigh and shank are stretched out get back to incipient state completely, when that moment of landing, the first motor 4 and the second motor 13 rotate forward, have a down dip after making the oblique shank picture of thigh declining forward, make robot land the moment to be able to buffering and to stop, and then jump next time, first motor 4 and the second motor 13 slowly reversion simultaneously when stopping until last, robot is made to return to incipient state.

Claims (3)

1. a doublejointed hopping robot, comprises large leg mechanism, little leg mechanism and Sole mechanism, it is characterized in that:

In large leg mechanism, left thigh and right thigh bottom are connected on thigh axle by bearing, connected by adapter plate in the middle of two left thighs, first motor is arranged on adapter plate, first thigh synchronous pulley is connected with the first motor output shaft, second thigh synchronous pulley is installed and is connected on thigh axle, and the first Timing Belt is arranged between two thigh synchronous pulleys, connects first and hang spring connecting panel between two thighs;

In little leg mechanism, left leg is connected with left thigh and right thigh by thigh axle respectively with right leg upper end, second extension spring connecting panel and the 3rd is hung spring connecting panel and is arranged between two shanks, second motor is arranged on a shank, second motor output shaft is connected with the first shank synchronous pulley through another shank, second shank synchronous pulley is arranged on shank axle, and the second Timing Belt is arranged between two shank synchronous pulleys, and the bottom of left leg and right leg is connected on shank axle by bearing;

In Sole mechanism, the left connecting panel of sole and the right connecting panel of sole are connected on shank axle by bearing, 4th hangs spring connecting panel is arranged between the left connecting panel of two soles, sole left support plate and sole right support plate are arranged on the left connecting panel of sole and the right connecting panel of sole respectively, and sole left bottom plate and the right base plate of sole are arranged on below sole left support plate and sole right support plate respectively;

First extension spring connecting panel and second is hung between spring connecting panel and is arranged the first extension spring, and the 3rd extension spring connecting panel and the 4th is hung between spring connecting panel and arranged the second extension spring.

2. doublejointed hopping robot according to claim 1, is characterized in that: thigh synchronous pulley and shank synchronous pulley are positioned at not homonymy.

3. doublejointed hopping robot according to claim 1 and 2, is characterized in that: the thigh with the side of thigh synchronous pulley is provided with the compression pin making Timing Belt tensioning.