CN202572400U

CN202572400U - Robot hand

Info

Publication number: CN202572400U
Application number: CN 201220076680
Authority: CN
Inventors: 李端玲; 郑龙和
Original assignee: Beijing University of Posts and Telecommunications
Current assignee: Beijing University of Posts and Telecommunications
Priority date: 2012-03-01
Filing date: 2012-03-01
Publication date: 2012-12-05
Anticipated expiration: 2022-03-01

Abstract

The utility model provides a robot hand, which comprises a palm and a plurality of fingers, wherein each finger comprises a plurality of finger sections and a plurality of finger joint shafts, the palm comprises a plurality of holding units, and the adjacent holding units are connected through a hinge. The robot hand can realize the following gripping modes including 1, an independent palm gripping mode; 2, an independent finger gripping mode; and 3, a palm and finger matched gripping mode. The robot hand provided by the utility model has the advantages that the self-adaption envelope gripping function of the palm on the shape and the size of the gripped object, the gripping effect of the robot hand on an object with the unknown surface, and in addition, the palm can adaptively envelope the object surface, so the contact area between the palm and the held object is increased, the object gripping and holding reliability of the robot hand is improved, and the effects of low control difficulty and high self-adaption gripping performance are realized.

Description

Robot

Technical field

The utility model relates to robot, particularly relates to anthropomorphic robot's hand.

Background technology

Along with progress of science and technology, used Robotics in the increasing manufacturing.The anthropomorphic robot is the focus in robot research field.One of assembly that the anthropomorphic robot is important is exactly a robot, and the ability direct relation of its grasping objects, adaptation unknown object surface, shape the use value of robot.Staff has more than 20 free degree, mainly is distributed on the finger, and the control method of present these frees degree of control mainly contains two.A kind of method is all to adopt Electric Machine Control, and the advantage of this method is to carry out independent control to each free degree, and the robot motion is dexterous.But the control of this method is very difficult, and often a kind of realization of simple extracting pattern also need be controlled a plurality of motors simultaneously.Another kind method is to reduce number of motors, uses several frees degree of less relatively Electric Machine Control machine staff.The advantage of this method is to have reduced the control difficulty, simultaneously the grip reliable and stable.

The palm of existing robot is complete parts basically, and its palm medial surface is plane or curved surface to a certain degree.The palm medial surface be the robot on plane when grasping the object of band curved surface, the contact area of palm and body surface is very limited, mainly be the envelope that refers to of armrest, palm medial surface with curved face object contact the extracting of realization to object, as grasp a baseball.And the palm medial surface is that robot with to a certain degree curved surface is when grasping the object of band curved surface; Though palm can increase than the robot that above-mentioned palm medial surface is the plane with the contact area of object to some extent; But because the curved surface of this palm medial surface is changeless; The object that can not adapt to multiple different curve during extracting when also just being difficult to realize grasping the object of different curve, still keeps good contact effect.The robot that this palm medial surface of while is a curved surface has the little shortcoming of real contact area again when extracting does not have the object of curved surface.

The utility model content

The purpose of the utility model is to provide a kind of robot; Make palm has has the extracting of self adaptation envelope to shape, the size of grabbing object function; Improve the grip of robot to unknown shape, big wisp, and palm inclusion complex surface adaptively, thereby increase palm and held the contact area between the object; Improve the reliability of robot grasping objects, realize the control effect that difficulty is low, the self-adapting grasping performance is high.The utility model can realize grasping as follows pattern: 1) palm independence extracting pattern; 2) the independent extracting pattern of finger; 3) palm cooperates the extracting pattern with finger.

The utility model adopts following technical scheme:

A kind of robot comprises a plurality of fingers and palm, and finger comprises a plurality of finger section and a plurality of finger-joint axle, it is characterized in that palm comprises a plurality of unit that grip, and gripping between the unit of adjacency is connected through the hinge.

In addition, above-mentioned robot is characterised in that a plurality of unit that grip of described palm can rotate through described hinge, makes the palm can be around the hinge axial bending, and the self adaptation envelope is held object.

And above-mentioned robot is characterised in that, axially being parallel to each other of described each hinge.

In addition, above-mentioned robot is characterised in that, described grip hinge between the unit axially, and perpendicular to palmar aspect and the Plane intersects parallel with the finger-joint axle.

And above-mentioned robot is characterised in that, described grip hinge between the unit axially, with vertical perpendicular to palmar aspect and the plane parallel with the finger-joint axle.

In addition, the robot of the above is characterised in that the described unit that respectively grips is connected with finger through joint shaft.

And above-mentioned robot is characterised in that described each hinge is by motor-driven.

In addition, above-mentioned robot is characterised in that the said quantity that grips the unit is three at least.

The utility model and prior art relatively have the following advantages and the high-lighting effect:

The purpose of the utility model is to provide a kind of robot; Make palm has has the extracting of self adaptation envelope to shape, the size of grabbing object function; Improve the grip of robot to the object of unknown shape, size, and palm inclusion complex surface adaptively, thereby increase palm and held the contact area between the object; Improve the reliability of robot grasping objects, realize the control effect that difficulty is low, the self-adapting grasping performance is high.

Description of drawings

Fig. 1 is the front appearance figure of a kind of embodiment of being of the robot that provides of the utility model.

Fig. 2 is the front section view that grips the unit of the robot of present embodiment.

Fig. 3 is the back stereogram of the robot of present embodiment.

Fig. 4 is the exemplary plot of the state that grips unit envelope object of the robot of present embodiment.

Fig. 5 is a kind of extracting exemplary plot of the robot of present embodiment.

Fig. 6 is the stereogram that grips the unit behind the dismounting finger from the robot of present embodiment.

Fig. 7 is the vertical view that grips the unit behind the dismounting finger from the robot of present embodiment.

Fig. 8 is the drive principle figure that grips the unit of the robot of present embodiment.

Symbol description:

11-first grips the unit, and 12-second grips the unit, and 13-the 3rd grips the unit, and 14-the 4th grips the unit,

21-first hinge, 22-second hinge, 23-the 3rd hinge,

31-first finger, the 32-second finger, 33-the 3rd finger, 34-the 4th finger, 35-the 5th finger,

41-first rope sheave, 42-second rope sheave, 43-the 3rd rope sheave, 44-the 4th rope sheave,

51-first hinge axis, 52-second hinge axis, 53-the 3rd hinge axis,

71-first joint shaft, 72-second joint axle, 73-the 3rd joint shaft, 74-the 4th joint shaft,

81-first motor, 82-first decelerator, 83-first fixing hole, 84-second fixing hole, 85-rope sheave pin,

91-first tendon rope, 91-second tendon rope.

The specific embodiment

Further introduce concrete structure, the operation principle of the utility model below in conjunction with accompanying drawing and embodiment.

The embodiment of a kind of robot of the utility model design like Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5 and shown in Figure 8, comprises first finger 31, second finger 32, the 3rd finger the 33, the 4th finger the 34 and the 5th finger 35; First grips unit 11, second grips unit the 12, the 3rd and grips unit 13 and the 4th and grip unit 14; First finger 31 is socketed on first joint shaft 71; First grips unit 11 is socketed on first joint shaft 71, and second finger 32 is socketed on the second joint axle 72, and second grips unit 12 is socketed on the second joint axle 72; The 3rd finger 33 is socketed on the 3rd joint shaft 73; The 3rd grips unit 13 is socketed on the 3rd joint shaft 73, and the 4th finger 34 is socketed on the 4th joint shaft 74, and the 4th grips unit 14 is socketed on the 4th joint shaft 74;

First grips unit 11 and second grips unit 12 and is connected through first hinge 21; And first grips unit 11 and second grips unit 12 and can rotate around first hinge axis 51; Second grips unit 12 and the 3rd grips unit 13 and is connected through second hinge 22; And second grips unit 12 and the 3rd grips unit 13 and can rotate around second hinge axis 52; The 3rd grips unit 13 and the 4th grips unit 14 and is connected through the 3rd hinge 23, and the 3rd grips unit 13 and the 4th and grip unit 14 and can rotate around the 3rd hinge axis 53;

The embodiment of a kind of robot of the utility model design comprises that also first rope sheave 41, second rope sheave 42, the 3rd rope sheave 43, the 4th rope sheave 44, rope sheave pin 85, first motor 81, first decelerator, 82, the first tendons rope, 91 and second tendon restrict 92; The output shaft of first motor 81 links to each other with the power shaft of first decelerator 82; First rope sheave 41 is socketed on first hinge axis 51; Second rope sheave 42 is socketed on second hinge axis 52, and the 3rd rope sheave 43 is socketed on the 3rd hinge axis 53, and the 4th rope sheave 44 is fixed on the output shaft of first decelerator 82; As shown in Figure 8; After one end of first tendon rope 91 passes the pin-and-hole of the 4th rope sheave 44, with counterclockwise behind the 4th rope sheave 44 1 circles, again with counterclockwise after first rope sheave, 41 1 circles; Again with counterclockwise after second rope sheave, 42 1 circles; Again with counterclockwise after the 3rd rope sheave 43 1 circles, be fixed on the 4th grip fixing hole 83, the first tendons rope 91 of unit 14 the other end and second tendon one end of restricting fixed; The other end of second tendon rope 92 is with in a clockwise direction behind the 4th rope sheave 44 1 circles; Again in a clockwise direction after first rope sheave, 41 1 circles; Again in a clockwise direction after second rope sheave, 42 1 circles; Again in a clockwise direction after the 3rd rope sheave 43 1 circle, be fixed on the 4th grip unit 14 fixing hole 84.Use rope sheave pin 85 to be fixed in the 4th rope sheave 44 on the output shaft of first decelerator 82.

In the present embodiment, explained to comprise five fingers and four examples that grip the unit, but finger and the quantity that grips the unit are not limited thereto.But consider that from the effect aspect of considering the grasping object quantity that grips the unit is preferably more than three.

The operation principle of the utility model combines Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5, Fig. 6, Fig. 7 and Fig. 8, narrates as follows:

In the present embodiment, finger has adopted the finger structure of finger bend self-adapting grasping object, and this structure Design scheme is the disclosed common technique scheme of art technology, so do not do explanation.

Below the palm of explanation present embodiment realizes gripping the operation principle of action through a plurality of inter-workings that grip between the unit.

Present embodiment adopts first motor 81, first decelerator 82, first rope sheave 41, second rope sheave 42, the 3rd rope sheave 43, the 4th rope sheave 44, rope sheave pin 85, tendon rope 91 and tendon rope 92 to realize gripping the motion of the self adaptation envelope grasping objects of unit.

When not gripping object, palm is in initial position as shown in Figure 1, grips unit 11 this moment, grips unit 12, grips unit 13 and grip the medial surface of unit 14 parallel to each other, and palm is in straight configuration.If the dextrorotation veer of first motor, 81 output shafts is its positive veer, when using the robot grasping objects of present embodiment, like Fig. 7 and shown in Figure 8; First motor 81 is just changeing, and the output shaft of first motor 81 rotates, and drives the 4th rope sheave 44 through first decelerator 82 and clockwise rotates; First tendon rope 91 is wrapped on the 4th rope sheave 44; Along with first tendon rope 91 is wrapped on the 4th rope sheave 44, first rope sheave 41, second rope sheave 42, the 3rd rope sheave 43 also clockwise rotate, and make first tendon rope 91 unwinding on the 3rd rope sheave 43; Simultaneously; The 4th rope sheave 44 clockwise rotates and can make second tendon rope 92 unwinding on the 4th rope sheave 44, and along with first rope sheave 41, second rope sheave 42, the 3rd rope sheave 43 clockwise rotate second tendon rope 92 is twined on the 3rd rope sheave 43, grips unit 12 and clockwise rotates around first hinge axis 51 thereby make; Make and grip unit 13 and clockwise rotate around second hinge axis 52; Make to grip unit 14 and clockwise rotate, thereby realize palm, realizes that the self adaptation of a plurality of free degree bending motions of a motor 81 drives owes to drive the motion of envelope object to a lateral bending Qu Yundong around the 3rd hinge axis 53; At this moment, second grips unit the 12, the 3rd grips unit 13 and the 4th and grips unit 14 and can rely on object, grips unit 14 up to the 4th and contacts with body surface, and then make 81 stalls of first motor, and then the self-adapting grasping process finishes; If, contact the 4th of object at first and grip unit 14, and then make 81 stalls of first motor, then the self-adapting grasping process finishes.

From grasping the process that finishes to return to original state, narration as follows.81 counter-rotatings of first motor; The output shaft of first motor 81 rotates; Drive the 4th rope sheave 44 through first decelerator 82 and rotate counterclockwise, second tendon rope 92 is wrapped on the 4th rope sheave 44, along with second tendon rope 92 is wrapped on the 4th rope sheave 44; First rope sheave 41, second rope sheave 42, the 3rd rope sheave 43 also rotate counterclockwise, and make second tendon rope 92 unwinding on the 3rd rope sheave 43; The 4th rope sheave 44 rotates counterclockwise and makes first tendon rope 91 unwinding on the 4th rope sheave 44 simultaneously; And along with first rope sheave 41, second rope sheave 42, the 3rd rope sheave 43 rotate counterclockwise; First tendon rope 91 is twined on the 3rd rope sheave 43, grip unit 12 and rotate counterclockwise, make to grip unit 13 and rotate counterclockwise around second hinge axis 52 around first hinge axis 51 thereby make; Make and grip unit 14 and rotate counterclockwise around the 3rd hinge axis 53; Thereby realize the bending motion of palm, realize that a motor 81 drives the drive movement of owing of a plurality of free degree bending motions, stretches palm to an opposite side.At this moment, second grips unit the 12, the 3rd grips unit 13 and the 4th and grips unit 14 and can deviate from object, till palm stretches fully, and then 81 stalls of first motor, the palm process of stretching is finished.

In this process, first rope sheave 41, second rope sheave 42 and the 3rd rope sheave 43 play the effect of the tension force that transmits first tendon rope, 91 and second tendon rope 92.

The robot of present embodiment can adopt following extracting pattern when grasping objects.

1) only through finger bend, realize the independent extracting pattern of finger, at this moment, palm grip between the unit not inter-working.

2) only through the driving of first motor 81, make the palm independence extracting pattern that grasping objects is realized in the unit that grips of palm, at this moment, the motor of control finger is not worked, and promptly finger does not carry out the action of grasping objects, and is as shown in Figure 4.

3) carry out grasping movement simultaneously through palm and finger, realize that palm and finger cooperate the extracting pattern, at this moment, first motor 81 is worked with the motor that drives other fingers simultaneously, realizes the interoperation of palm and finger, and is as shown in Figure 5.

Can suitably select the pattern of the grasping objects of robot according to the size of object to be crawled and shape etc.The robot palm of the utility model has the function that shape, the size of grabbing object is had the extracting of self adaptation envelope; Can improve the grip of robot to the object of unknown shape, size; And palm inclusion complex surface adaptively; Thereby increase palm and held the contact area between the object, improve the reliability of robot grasping objects, realize the control effect that difficulty is low, the self-adapting grasping performance is high.

Claims

1. a robot comprises palm and a plurality of finger, and described finger comprises a plurality of finger section and a plurality of finger-joint axle, it is characterized in that,

Palm comprises a plurality of unit that grip, and gripping between the unit of adjacency is connected through the hinge.

2. robot according to claim 1 is characterized in that,

A plurality of unit that grip of described palm can rotate through described hinge, make the palm can be around the hinge axial bending, and the self adaptation envelope is held object.

3. robot according to claim 1 is characterized in that,

Axially being parallel to each other of described each hinge.

4. robot according to claim 1 is characterized in that,

Described grip hinge between the unit axially, and perpendicular to palmar aspect and the Plane intersects parallel with the finger-joint axle.

5. robot according to claim 1 is characterized in that,

Described grip hinge between the unit axially, with vertical perpendicular to palmar aspect and the plane parallel with the finger-joint axle.

6. robot according to claim 1 is characterized in that,

The described unit that respectively grips is connected with finger through joint shaft.

7. robot according to claim 1 is characterized in that,

Described each hinge is by motor-driven.

8. robot according to claim 1 is characterized in that,

The described quantity that grips the unit is three at least.