CN107030729B - A kind of apery elbow joint - Google Patents

Abstract

The present invention relates to bio-robot joint technical fields, and in particular to a kind of apery elbow joint comprising forearm, large arm and elbow joint runner assembly；One end of the forearm and large arm is connected together by central axle sleeve, and elbow joint runner assembly includes slide bar, spring leaf, runner frame, connecting rod, the first lead screw, the first driving motor；The both ends of slide bar are stuck in the resigning sliding slot that forearm front end two sides open up, centre is fixedly connected with one end of spring leaf, the other end of spring leaf is fixedly connected on the surface of runner frame front end, runner frame is set in forearm and the cavity of large arm junction, the centre of runner frame passes through bearing holder (housing, cover) on center shaft, one end of runner frame end connection connecting rod, the other end of connecting rod is connected with sliding block, sliding block is fixed on the end of the first lead screw, first lead screw is fixedly connected with the first driving motor, and the first driving motor is fixed on the inside of the other end of large arm.The configuration of the present invention is simple, easy for installation, flexible, small in size, light-weight, production cost substantially reduces, easy to use.

Description

A kind of apery elbow joint

Technical field

The present invention relates to bio-robot joint technical fields, and in particular to a kind of apery elbow joint knot.

Background technique

With the development of robot technology, such as healing robot, wearable robot, intelligent artificial limb, walking robot Robot focusing on people is more and more, and physical human-computer interaction also increases as, and human-computer interaction security and environment adapt to Property is also by more extensive concern.In order to meet the requirement that robot is high to control precision, responds fast control simplification, pass through electricity Machine driving method guarantees that the execution precision of robot end still, also has Gao Gang by more and more robot applications The characteristics of spending, and high rigidity characteristic is unfavorable for the requirement of human-computer interaction security.

In terms of sport biomechanics angle, muscle is the power resources of human motion system, and the power for passing through contraction of muscle Amount maintains or the execution of execution.Muscle have nonlinear variable-stiffness characteristic, certain collision can be buffered, moreover it is possible to absorb and Storage energy designs the joint with bionic muscle characteristic if it is possible to use for reference human skeleton muscle system, can Improve the high rigidity characteristic of traditional robot, to improve safety and the environmental suitability of human-computer interaction.

Currently, there are many implementation for imitating skeletal muscle, such as electroluminescent polymerization species artificial-muscle, shape memory is closed Gold, Pneumatic artificial muscle, variation rigidity driver with elastic element etc., but the implementation of above-mentioned imitation skeletal muscle still without Method simulates the characteristic of human joint completely, and not only there is power outputs compared with small, weight is big, motion range is small, rigidity is smaller etc. Shortcoming, structure is complicated there is also having, and volume is big, assembles the defects of cumbersome.

Summary of the invention

(1) technical problems to be solved

In order to solve the above problem of the prior art, the present invention provides a kind of apery elbow joint, and structure is simple, volume It is small, easy to assembly, flexible, the joint with nonlinear variable-stiffness muscle property can be simulated, the peace of human-computer interaction is effectively improved Full property and environmental suitability.

(2) technical solution

In order to achieve the above object, the main technical schemes that the present invention uses include:

A kind of apery elbow joint comprising forearm (1), large arm (11) and elbow joint runner assembly, the forearm (1) and big One end of arm (11) is connected together by central axis (9), the elbow joint runner assembly include slide bar (2), spring leaf (6), Runner frame (7), connecting rod (15), the first lead screw (17), the first driving motor (18)；The both ends of the slide bar (2) are stuck in described small In the resigning sliding slot (5) that arm (1) front end two sides open up, centre is fixedly connected with one end of the spring leaf (6), the spring leaf (6) the other end is fixedly connected on the surface of the runner frame (7) front end, and the runner frame (7) is set to the forearm (1) and in the cavity of the large arm (11) junction, the centre of the runner frame (7) is by bearing holder (housing, cover) in the central axis (9) On, runner frame (7) end connects one end of the connecting rod (15), and the other end of the connecting rod (15) is connected with sliding block (16), the sliding block (16) is fixedly connected on the end of the first lead screw (17), and first lead screw (17) is fixedly connected with described One driving motor (18), first driving motor (18) are fixed on the inside of the other end of the large arm (11).

It further include stiffness variation executive module, the rigidity as a kind of preferred embodiment of apery elbow joint as described above Variation executive module includes moving sliding base (3), the second lead screw (20) and the second driving motor (10), the moving sliding base (3) Centre is equipped at least a pair of of gag lever post (4), gap of the spring leaf (6) across the pair of gag lever post (4), the shifting The two sides of dynamic slide (3) are equipped with raised (12), which is fastened on the runner frame (7) front end two sides and opens If slideway in；Second driving motor is fixed at the runner frame (7) end, and close to the central axis (9) position Setting, second driving motor pass through second lead screw (20) connection moving sliding base (3).

As a kind of preferred embodiment of apery elbow joint as described above, the spring leaf (6) is set as two, respectively described The upper and lower two sides of runner frame (7) are symmetrical arranged, and accordingly, the upper and lower end of the moving sliding base (3) is respectively provided with two gag lever posts (4), the slide bar (2) is set as two, there are two the resigning sliding slot (5) opens up above and below same side.

As a kind of preferred embodiment of apery elbow joint as described above, it is described protrusion (12) be all provided in one side there are two.

As a kind of preferred embodiment of apery elbow joint as described above, the protrusion (12) is set as rectangular or cylindrical.

As a kind of preferred embodiment of apery elbow joint as described above, the large arm (11) two parallel arms of connection it is interior Linear guide (14) are equipped in parallel on wall, the sliding block (16) is slidably fixed on the linear guide (14).

As a kind of preferred embodiment of apery elbow joint as described above, time of the connecting rod (15) and the runner frame (7) Turn centerline offset of the center relative to the runner frame (7).

As a kind of preferred embodiment of apery elbow joint as described above, the sliding block (16) and the connecting rod (15) hinge connect It connects, the connecting rod (15) connect with the runner frame (7) hinge.

As a kind of preferred embodiment of apery elbow joint as described above, the connecting rod (15) includes the U-shaped company integrally synthesized Fitting and connecting rod, the open end of the U-shaped connector can be connected to the runner frame (7) end with rotating upwardly and downwardly, described U-shaped Two brachiocylloosis of connector open end are arranged, and the connecting rod hinge connects the sliding block (16).

As a kind of preferred embodiment of apery elbow joint as described above, the open end of the U-shaped connector is in two inner sidewalls It is equipped with clip-connecting rod, the through-hole being mutually adapted with the clip-connecting rod, the clamping are equipped on the runner frame (7) end two sides Column passes through through-hole, is equipped with bayonet lock in the end of the clip-connecting rod.

As a kind of preferred embodiment of apery elbow joint as described above, the elbow of the large arm (11), forearm (1) and human body is closed Section ruler cun is almost the same.

(3) beneficial effect

The beneficial effects of the present invention are: compared with prior art, apery elbow joint provided by the invention is not only functionally The joint with nonlinear variable-stiffness muscle property can be simulated, and dimensionally consistent with the elbow joint of human body, maximally Realize apery structure；The present invention uses spring leaf as stiffness tuning component, and spring leaf is as force transmission member, rigidity It can be changed according to action length and be changed, for the adjusting for meeting spring leaf action length, the present invention is cooperated by motor and lead screw It uses, and can easily adjust the action length of spring leaf by the sliding of moving sliding base.

Present invention can be implemented in rigidity it is constant in the case where, only joint structure is enabled to rotate, that is, meets permanent rigidity condition The position of ShiShimonoseki section structure adjusts；The present invention can also be achieved in the case where joint structure does not rotate, and only change joint knot The rigidity of structure, to meet the joint operation requirement under setting rigidity condition.The configuration of the present invention is simple, easy for installation, flexible, body Product is small, and light-weight, production cost substantially reduces, easy to use.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of a preferred apery elbow joint of the invention；

Fig. 2 is the structural schematic diagram removed at the runner frame of spring leaf；

Fig. 3 is the structural schematic diagram of a preferred apery elbow joint solid of the invention；

Fig. 4 is the structural schematic diagram of moving sliding base；

Schematic diagram when Fig. 5 is preferred apery elbow joint rotation of the invention.

[description of symbols]

1: forearm；

2: slide bar；

3: moving sliding base；

4: gag lever post；

5: resigning sliding slot；

6: spring leaf；

7: runner frame；

8: the second motor support bases；

9: central axis；

10: the second driving motors；

11: large arm；

12: protrusion；

13: bearing；

14: linear guide；

15: connecting rod；

16: sliding block；

17: the first lead screws；

18: the first driving motors；

19: slideway；

20: the second screw rods；

21: gap.

Specific embodiment

In order to preferably explain the present invention, in order to understand, with reference to the accompanying drawing, by specific embodiment, to this hair It is bright to be described in detail.

Embodiment 1

As shown in Figure 1, a kind of apery elbow joint comprising forearm 1, large arm 11, elbow joint runner assembly, forearm 1 can be set For U-bracket, large arm 11 can be intermediate two parallel legs connected by upper surface portion, open end and the forearm 1 of large arm 11 Open end is socketed on central axis 9 by bearing, leads to large arm 11 and central axis 9 is perpendicular；Forearm 1 and central axis 9 are perpendicular, small The opening end cap of arm 1 is between the parallel leg of large arm 11；Elbow joint runner assembly include slide bar 2, spring leaf 6, runner frame 7, Connecting rod 15, the first lead screw 17, the first driving motor 18；The resigning sliding slot 5 opened up on the front end two sides of forearm 1, the two of slide bar 2 End is stuck in resigning sliding slot, and slide bar 2 can slide in resigning sliding slot, and one end of spring leaf 6, spring are fixedly connected among slide bar 2 The other end of piece 6 is fixedly connected on the surface of 7 front end of runner frame；Runner frame 7 is set to the sky between forearm 1 and large arm 11 Intracavitary, the centre of runner frame 7 offers slot on two sides, and slot is embedded to be cased with bearing 13,13 sets of the bearing on central axis 9, Runner frame 7 is fixed on central axis 9, runner frame 7 can be rotated around central axis 9；7 end of runner frame is fixedly connected with the one of connecting rod 15 End, the other end of connecting rod 15 are connect with sliding block 16, and sliding block 16 is fixed on the end of the first lead screw 17, and the first driving motor 18 is fixed The first lead screw 17 is connected, the first driving motor 18 is fixedly mounted on the inside of the end of large arm 11.

Apery elbow joint is additionally provided with stiffness variation executive module, is set in runner frame, the stiffness variation executive module For changing the elastic force of the spring leaf, and then change the rigidity of entire elbow joint structure.As shown in Fig. 2, stiffness variation executes Component includes moving sliding base 3, the second lead screw 20 and the second driving motor 10, and moving sliding base 3 is set to the front end of runner frame 7, and can It slidably reciprocates in the front end of runner frame 7, the second driving motor 10 is fixed at the end of runner frame 7, and moving sliding base 3 and second drive It is connected between dynamic motor 10 by the second lead screw 20.Specifically, it is set between two parallel-plates of moving sliding base 3 there are two gag lever post 4, The parallel-plate in gap of the spring leaf 6 across two gag lever posts 4,3 two sides of moving sliding base is equipped with protrusion, which is fixed In in the slideway 19 opened up on 7 front end two sides of runner frame, protrusion can be set as rectangular or cylindrical；In the end of moving sliding base 3 It is equipped with the second motor cabinet 8 close to the position of central axis 9, the second driving motor 10 is fixed in the second motor cabinet 8, second drives Dynamic motor is spindle motor, is fixedly connected with the second lead screw, the second lead screw 20 is fixedly connected with moving sliding base 3.Second driving motor fortune Turn to drive the second lead screw 20 flexible, related moving sliding base 3 in slideway 19 forward, slide backward, such spring leaf 6 is located at limit Length between bar 4 and slide bar 2 can change therewith.

It is equipped with a sliding block 16 in the junction of the first screw rod 17 and connecting rod 15, is used to connect two parallel branch in large arm 11 Linear guide 14 is fixed on the inside of arm upper surface, linear guide 14 is arranged in parallel between two parties in large arm 11, and sliding block 16 is fixed In linear guide 14, sliding block 16 can be slided in linear guide along linear guide.First screw rod 17 is fixedly connected with sliding block 16, Sliding block 16 is connect by hinge with connecting rod 15.Sliding block play the guiding role, and keeps screw rod transmission precision high.

Rotate elbow joint to a direction, 15 other end of connecting rod is connect by hinge with runner frame 7, connecting rod 15 and sliding slot Centerline offset of the centre of gyration of frame 7 relative to runner frame 7, that is to say, that the centre of gyration and cunning of connecting rod 15 and runner frame 7 The out-of-line setting of the center line of truss 7, connecting rod 15 and the centre of gyration of sliding block 16 are set on the center line of runner frame 7 It sets.

It is of the invention use process is as follows:

A. in the case where rigidity is constant, apery elbow joint of the invention is only enabled to rotate:

Start the first driving motor 18, drives first motor lead screw 17 to rotate by the first driving motor 18, and then drive Sliding block 16 is mobile, is rotated by the mobile drive connecting rod 15 of sliding block 16, and then runner frame 7 is driven to rotate, at this time the second driving electricity Machine 10 is rotated together with runner frame 7, and rotating drive spring leaf 6 by runner frame 7, deformation occurs, and 4 position of gag lever post is constant at this time, I.e. moving sliding base 3 is not displaced, and is rotated by 6 deformation band moving slide-bar 2 of spring leaf, and then forearm 1 is driven to rotate.

B. in the case where joint structure of the invention does not rotate, change the rigidity of joint structure:

Start the second driving motor 10, the rotation of the second lead screw 20 is driven by the second driving motor 10, and then drive movement Slide 3 is mobile, by length of the mobile change spring leaf 6 of moving sliding base 3 between gag lever post 4 and slide bar 2, due to being located at Spring leaf 6 between gag lever post 4 and slide bar 2 is for transmitting forces, and spring leaf 6 is in power transmittance process, rigidity It is determined completely by its length, the spring when moving sliding base 3 is mobile to 9 direction of central axis, between gag lever post 4 and slide bar 2 6 length of piece, rigidity become smaller, conversely, being located at gag lever post 4 when moving sliding base 3 is mobile far from 9 direction of central axis and sliding 6 length of spring leaf between bar 2 shortens, and rigidity becomes larger.

After adjusting 6 corresponding length of spring leaf between gag lever post 4 and slide bar 2 through the above way, when forearm 1 by When being forced to rotate joint structure to external force, spring leaf 6 can bend, and slide bar 2 can be slided in resigning sliding slot and be realized at this time It is servo-actuated, until the bending degree of spring leaf 6 is stablized, at this point, apery axis joint of the invention has fully met setting rigidity condition Under joint operation requirement.

Embodiment 2

In order to keep the structure of apery elbow joint more stable, entire rigidity is more easier to control, on the basis of embodiment 1 On, spring leaf is set as two panels, as shown in figure 3, two spring leafs 6 are symmetrical arranged in the upper and lower two sides of runner frame 7, correspondingly, The correspondence of slide bar 2 is set as two, opens up in forearm front end there are two resigning sliding slot 5, meanwhile, the upper and lower end of moving sliding base 3 is respectively set There are two gag lever posts 4, and specifically as shown in figure 4, interval has the gap 21 between two adjacent gag lever posts 4, spring leaf 6 passes through the seam One end of gap, spring leaf 6 is fixed among the slide bar 2 of opposite position, and the other end is fixed on close to the surface of 7 front end of runner frame On；It is all provided on the two sides of moving sliding base there are two protrusion 12, protrusion 12 can be entrenched in the slideway 19 of sliding rack two sides setting Interior sliding is set as two protrusions, keeps structure more stable.

Connecting rod is connected with sliding block hinge, as shown in figure 5, specific connecting rod 15 can be set as U-shaped connector by integrally synthesizing with Connecting rod composition, the open end of U-shaped connector is fixedly connected on the runner frame end, two support arms of U-shaped connector open end Bending setting, part U-shaped in this way can prevent from generating collision with the second lead screw stretched out from the second driving motor, while can increase The rotation angle of forearm, by being provided inwardly with clip-connecting rod on two support arms of U-shaped connector, close to open end, at runner frame end End two sidewalls are equipped with the through-hole being mutually adapted with clip-connecting rod, and clip-connecting rod passes through through-hole, are equipped with bayonet lock in the end of clip-connecting rod, will U-shaped connector is stably fixed on runner frame, and will not be fallen off from runner frame；Connecting rod is fixedly connected with the sliding block.Sliding block It is connected by a hinge with the connecting rod.

Apery elbow joint of the invention, which can be used for being connected in robot, to be used, and is directly connect with shoulder joint by large arm.

The above described is only a preferred embodiment of the present invention, being not the limitation for doing other forms to the present invention, appoint What those skilled in the art changed or be modified as possibly also with the technology contents of the disclosure above equivalent variations etc. Imitate embodiment.But without departing from the technical solutions of the present invention, according to the technical essence of the invention to above embodiments institute Any simple modification, equivalent variations and the remodeling made, still fall within the protection scope of technical solution of the present invention.

Claims (9)

1. a kind of apery elbow joint, which is characterized in that it includes forearm (1), large arm (11) and elbow joint runner assembly, described small Arm (1) and one end of large arm (11) are connected together by central axis (9), and the elbow joint runner assembly includes slide bar (2), bullet Reed (6), runner frame (7), connecting rod (15), the first lead screw (17), the first driving motor (18)；The both ends card of the slide bar (2) In the resigning sliding slot (5) that the forearm (1) front end two sides open up, centre is fixedly connected with one end of the spring leaf (6), described The other end of spring leaf (6) is fixedly connected on the surface of the runner frame (7) front end, and the runner frame (7) is set to institute In the cavity for stating forearm (1) and the large arm (11) junction, the centre of the runner frame (7) is by bearing holder (housing, cover) at the center On axis (9), runner frame (7) end connects one end of the connecting rod (15), and the other end of the connecting rod (15) is connected with cunning Block (16), the sliding block (16) are fixed on the end of first lead screw (17), and first lead screw is fixedly connected with described first Driving motor (18), first driving motor (18) are fixed on the inside of the other end of the large arm (11)；The connecting rod (15) Centerline offset with the centre of gyration of the runner frame (7) relative to the runner frame (7).

2. apery elbow joint as described in claim 1, which is characterized in that further include stiffness variation executive module, the rigidity Variation executive module includes moving sliding base (3), the second lead screw (20) and the second driving motor (10), the moving sliding base (3) Centre is equipped with gap (21) of at least a pair of of gag lever post (4) spring leaf (6) across the pair of gag lever post, the shifting The two sides of dynamic slide (3) are equipped with raised (12), which is fastened on the runner frame (7) front end two sides and opens If slideway (19) in；Second driving motor (10) is fixed at the end of the runner frame (7), and close to the center Axis (9) setting, second driving motor (10) connect the moving sliding base (3) by second lead screw (20).

3. apery elbow joint as claimed in claim 2, which is characterized in that the spring leaf (6) is set as two, respectively described The upper and lower two sides of runner frame (7) are symmetrical arranged, and accordingly, the upper and lower end of the moving sliding base (3) is respectively provided with one group of gag lever post (4), the slide bar (2) is set as two, there are two the resigning sliding slot (5) opens up above and below same side.

4. apery elbow joint as claimed in claim 2, which is characterized in that the protrusion (12) is set as two in one side.

5. apery elbow joint as claimed in claim 2, which is characterized in that the protrusion (12) is set as rectangular or cylindrical.

6. apery elbow joint as described in claim 1, which is characterized in that the large arm (11) two parallel arms of connection it is interior Linear guide (14) are equipped in parallel on wall, the sliding block (16) is slidably fixed on the linear guide (14).

7. apery elbow joint as described in claim 1, which is characterized in that the sliding block (16) and the connecting rod (15) hinge connect It connects, the connecting rod (15) connect with the runner frame (7) hinge.

8. such as apery elbow joint of any of claims 1-7, which is characterized in that the connecting rod (15) includes that one is closed At U-shaped connector and connecting rod, the open end of the U-shaped connector can be connected to rotating upwardly and downwardly the runner frame (7) end End, two brachiocylloosis setting of the U-shaped connector open end, the connecting rod hinge connect the sliding block (16).

9. apery elbow joint as claimed in claim 8, which is characterized in that the open end of the U-shaped connector is in two inner sidewalls It is equipped with clip-connecting rod, the through-hole being mutually adapted with the clip-connecting rod, the clamping are equipped on the runner frame (7) end two sides Column passes through through-hole, is equipped with bayonet lock in the end of the clip-connecting rod.