CN204976634U - Asymmetric parallel robot mechanism with two change one moves three degrees of freedom - Google Patents

Abstract

The utility model relates to an industrial robot mechanism field has especially involved an asymmetric parallel robot mechanism with two change one moves three degrees of freedom. The utility model discloses an asymmetric parallel robot mechanism with two change one moves three degrees of freedom adopts that a single open chain and combination chain will move, quiet platform is connected, in the course of the work, when the first removal of drive vice, the 8th remove pair and during the third revolute pair, move the platform and can rotate one -dimensional removal output by the implementation space two -dimensional. The jacobian matrix of mechanism is 33 diagonal matrixs, is the one -to -one relation so move the output of platform with the initiative input. Moving one of platform motion output and only needing the defeated entry control of a driver, the problem of the poor control design difficulty of parallel robot decoupling zero nature has been solved in the influence between the chain of respectively moving that has significantly reduced.

Description

A kind of asymmetric parallel robot mechanism with two turn of one shift three degrees of freedom

Technical field

The utility model relates to industrial robot field of mechanisms, has particularly related to a kind of asymmetric parallel robot mechanism with two turn of one shift three degrees of freedom.

Background technology

Parallel institution, also known as parallel robot, is one of focus of theory of mechanisms and robot field's research in recent years.The advantages such as rigidity is large, bearing capacity is strong, deviation accumulation is little owing to having, dynamic property is good, compact conformation, parallel institution is widely used in numerous technical field in recent years.

Parallel robot is divided into six-DOF robot and Limited-DOF Parallel Robot.Limited-DOF Parallel Robot parallel institution for traditional tandem mechanism has the features such as structure is simple, control is comparatively easy, low cost of manufacture.At present, existing many scholars design multiple Three Degree Of Freedom one-dimensional movement two-dimensional rotary parallel robot, such as publication No. is CN102909569A, date of publication is a kind of 1T2R three-freedom degree spatial parallel structure disclosed in the Chinese patent on February 6th, 2013, publication No. is CN102360160A, date of publication is a kind of 2R1T three-dimensional space flexible precision positioning platform disclosed in the Chinese patent on February 22nd, 2012, publication No. is CN102626919A, date of publication is that the disclosed symmetry two without junction axis of the Chinese patent on August 8th, 2012 is rotated with mobile parallel connection mechanism and publication No. as CN104029195A, a kind of two rotations one disclosed in the Chinese patent on September 10th, 2014 of publication No. day are moved Planar Mechanisms parallel institution etc. and are all described in the relevant content of minority carrier generation lifetime, but there are sharp movement coupling in these mechanisms.For general parallel institution, because its sports coupling is all strong, cause kinematic solution to have many groups, thus make difficulty in trajectory planning and control design case.And to have full decoupled 3-freedom parallel mechanism be a very important class in Limited-DOF Parallel Robot, be applicable to the fields such as industrial robot, medical robot and micromanipulator.

Utility model content

The purpose of this utility model is to provide a kind of asymmetric parallel robot mechanism with two turn of one shift three degrees of freedom, to solve the problem of the decoupling difference of existing minority carrier generation lifetime.

In order to solve the problem, the asymmetric parallel robot mechanism with two turn of one shift three degrees of freedom of the present utility model is by the following technical solutions: the asymmetric parallel robot mechanism with two turn of one shift three degrees of freedom, comprise silent flatform, moving platform and be connected to two sub-chains between dynamic and static platform, article two, one in sub-chain is single open chain, and another is combination chain, combination chain comprises the 7th revolute pair of closed-loop path, a space and extremely series connection with it, closed-loop path, space comprises the first sub-branch and the second sub-branch, first sub-branch comprises and starts from silent flatform the 3rd revolute pair that connects successively, 4th universal hinge, 5th moving sets and the 6th universal hinge, mutually vertical with the pivot center of the 3rd revolute pair with the pivot center of the 3rd revolute pair adjacent part in 4th universal hinge, the pivot center that another pivot center is connected with the 5th moving sets in the 6th universal hinge is parallel to each other, other two axis in 4th universal hinge and the 6th universal hinge are parallel to each other, second sub-branch comprises first moving sets and the second revolute pair of connecting successively from silent flatform, the axis of the first moving sets is mutually vertical with the axis of the second revolute pair, first moving sets and the 3rd revolute pair are respectively driving pair, described first sub-branch, second sub-branch is connected with moving platform by the 7th revolute pair, and the second revolute pair is mutually vertical with the 7th revolute pair axis, single open chain comprises the 8th moving sets of connecting successively from silent flatform to moving platform, 9th universal hinge, tenth moving sets and the 11 universal hinge, wherein the 8th moving sets, the axis be connected with the tenth moving sets in 9th universal hinge is parallel to each other with the axis be connected with the tenth moving sets in the 11 universal hinge and perpendicular to the tenth moving sets, the axis of the axis be connected with the 8th moving sets in the 9th universal hinge and the part of the close moving platform of the 11 universal hinge in same plane and extended line to intersect and mutually vertical, simultaneously perpendicular to the axis of the 8th moving sets, the axis being parallel be connected with moving platform in 11 universal hinge is in the pivot center with the 7th revolute pair be connected with moving platform, 8th moving sets is driving pair.

The locus of described 8th moving sets is higher than the 3rd revolute pair and the first moving sets.

The asymmetric parallel robot mechanism with two turn of one shift three degrees of freedom of the present utility model adopts a single open chain to be connected by dynamic and static platform with a combination chain, in the course of the work, when driving first moving sets, the 8th moving sets and the 3rd revolute pair, described moving platform can rotate one-dimensional movement output by implementation space bidimensional.The Jacobian matrix of mechanism is 3 × 3 diagonal matrixs, therefore the output of moving platform is one-to-one relationship with initiatively inputting.A movement output of moving platform only needs a driver input control, greatly reduces the impact between each kinematic chain, solves the problem of parallel robot decoupling difference control design case difficulty.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of the embodiment of the asymmetric parallel robot mechanism with two turn of one shift three degrees of freedom;

Fig. 2 is the structural representation of the embodiment of the asymmetric parallel robot mechanism with two turn of one shift three degrees of freedom.

Detailed description of the invention

Have the embodiment of the asymmetric parallel robot mechanism of two turn of one shift three degrees of freedom, as shown in Figure 1, this mechanism comprises silent flatform 9, moving platform 10 and connects combination chain and the single open chain of silent flatform 9 and moving platform 10.Moving platform 10 adopts deck plate.

Combination chain by space closed-loop path structure and the 7th revolute pair R7 in series, closed-loop path, described space structure is made up of the first sub-branch and the second sub-branch.

First sub-branch comprises the 3rd revolute pair R3, the 4th universal hinge U4, the 5th moving sets P5 and the 6th universal hinge U6.3rd revolute pair R3 is connected by connecting rod 1 with the 4th universal hinge U4, and the 4th universal hinge U4 is connected by connecting rod 2 with the 5th moving sets P5, and the 5th moving sets P5 is connected by connecting rod 3 with the 6th universal hinge U6.The pivot center of the 3rd revolute pair R3 is with the 4th universal to cut with scissors the axis be connected with connecting rod 1 in U4 mutually vertical, the 4th universal pivot center that be connected with connecting rod 2 of hinge U4 universally cuts with scissors the axis that U6 is connected with connecting rod 3 with the 6th and is parallel to each other, and the 4th universal hinge U4 and the 6th universal other two axis cut with scissors in U6 are also parallel to each other.Second sub-branch is made up of the first moving sets P1 and the second revolute pair R2, and they are connected by connecting rod 5.In second sub-branch the axis of the first moving sets P1 and the axis of the second revolute pair R2 mutually vertical.The first moving sets P1 in this side chain and the 3rd revolute pair R3 distinguishes the driving pair of parallel institution for this reason.Described first sub-branch, the second sub-branch are connected with moving platform with the 7th revolute pair R7 by connecting rod 4, and the second revolute pair R2 is mutually vertical with the 7th revolute pair R7 axis.

Single open chain is single open chain, the 8th moving sets P8 that it is set gradually to moving platform 10 by silent flatform 9, the 9th universal hinge U9, the tenth moving sets P10 and the 11 universal hinge U11 are in series successively, wherein the position of the 8th moving sets P8 is higher than the 3rd revolute pair R3 and the first moving sets P1, it is connected by connecting rod 8 with the 9th universal U9 that cuts with scissors, 9th universal hinge U9 is connected by connecting rod 7 with the tenth moving sets P10, and the tenth moving sets P10 is connected by connecting rod 6 with the 11 universal hinge U11.9th universal hinge U9 with in the 11 universal hinge U11 respectively the axis of the axis that is connected with connecting rod 7 of connecting rod 6 and the 8th moving sets P8 to be parallel to each other and perpendicular to the tenth moving sets P10, another two axis in 9th universal hinge U9 and the 11 universal hinge U11 in same plane but mutually vertical (extended line intersection), and perpendicular to the axis of the 8th moving sets P8.The axis being parallel be connected with moving platform 10 in 11 universal hinge U11 is in same the 7th revolute pair R7 axis be connected with moving platform 10.The 8th moving sets P8 be connected with silent flatform 9 is driving pair.

Guide rail 11 as the guide rail 7 of Fig. 2 first moving sets P1, the base 1 of the 3rd revolute pair R3 and the 8th moving sets P8 is connected with silent flatform.The axis of moving sets P1 is mutually vertical with the axis of revolute pair R3, and the axis of moving sets P1 is mutually vertical with the axis of moving sets P8.

In the course of the work, as driving first moving sets P1, the 8th moving sets P8 and the 3rd revolute pair R3, described moving platform can rotate one-dimensional movement output by implementation space bidimensional to the full decoupled 3-freedom parallel mechanism of the one that the utility model proposes.The Jacobian matrix of mechanism is 3 × 3 diagonal matrixs, therefore the output of moving platform is one-to-one relationship with initiatively inputting.A movement output of moving platform only needs a driver input control, greatly reduces the impact between each kinematic chain, solves the problem of parallel robot decoupling difference control design case difficulty.Initiatively the driving mechanism of moving sets is the screw mechanism of driven by motor, or servomotor, and the driving mechanism of active rotation pair is the reductor of driven by motor, the conventional design of these Dou Shi robots.This parallel institution can be used for industrial robot, medical robot and micro-manipulating robot etc.

Claims (2)

1. there is the asymmetric parallel robot mechanism of two turn of one shift three degrees of freedom, comprise silent flatform, moving platform and be connected to two sub-chains between dynamic and static platform, it is characterized in that, one in two sub-chains is single open chain, and another is combination chain, the 7th revolute pair that combination chain comprises closed-loop path, a space and connects with it, closed-loop path, space comprises the first sub-branch and the second sub-branch, first sub-branch comprises and starts from silent flatform the 3rd revolute pair that connects successively, 4th universal hinge, 5th moving sets and the 6th universal hinge, mutually vertical with the pivot center of the 3rd revolute pair with the pivot center of the 3rd revolute pair adjacent part in 4th universal hinge, the pivot center that another pivot center is connected with the 5th moving sets in the 6th universal hinge is parallel to each other, other two axis in 4th universal hinge and the 6th universal hinge are parallel to each other, second sub-branch comprises first moving sets and the second revolute pair of connecting successively from silent flatform, the axis of the first moving sets is mutually vertical with the axis of the second revolute pair, first moving sets and the 3rd revolute pair are respectively driving pair, described first sub-branch, second sub-branch is connected with moving platform by the 7th revolute pair, and the second revolute pair is mutually vertical with the 7th revolute pair axis, single open chain comprises the 8th moving sets of connecting successively from silent flatform to moving platform, 9th universal hinge, tenth moving sets and the 11 universal hinge, wherein the 8th moving sets, the axis be connected with the tenth moving sets in 9th universal hinge is parallel to each other with the axis be connected with the tenth moving sets in the 11 universal hinge and perpendicular to the tenth moving sets, the axis of the axis be connected with the 8th moving sets in the 9th universal hinge and the part of the close moving platform of the 11 universal hinge in same plane and extended line to intersect and mutually vertical, simultaneously perpendicular to the axis of the 8th moving sets, the axis being parallel be connected with moving platform in 11 universal hinge is in the pivot center with the 7th revolute pair be connected with moving platform, 8th moving sets is driving pair.

2. the asymmetric parallel robot mechanism with two turn of one shift three degrees of freedom according to claim 1, it is characterized in that, the locus of described 8th moving sets is higher than the 3rd revolute pair and the first moving sets, initiatively the driving mechanism of moving sets is that servomotor drives screw mechanism to coordinate guide rail to realize linear displacement for initiatively input, and the driving mechanism of active rotation pair is driven by motor reductor.