CN111152194A

CN111152194A - Single-degree-of-freedom infinite turnover mechanism

Info

Publication number: CN111152194A
Application number: CN202010042950.6A
Authority: CN
Inventors: 姚燕安; 孙学敏; 李锐明; 荀致远; 李可峰
Original assignee: Beijing Jiaotong University
Current assignee: Beijing Jiaotong University
Priority date: 2020-01-15
Filing date: 2020-01-15
Publication date: 2020-05-15
Anticipated expiration: 2040-01-15
Also published as: CN111152194B

Abstract

A single-degree-of-freedom infinite turnover mechanism comprises first to third anti-parallelogram units (A-a, A-b and A-c), wherein the first and second anti-parallelogram units (A-a and A-b) are rotationally connected through second and third connecting joints (A-a-2-3 and A-b-1-3) of a second and fifth rod piece (A-a-2 and A-b-1), the second and third anti-parallelogram units (A-b and A-c) are rotationally connected through fourth and fifth connecting joints (A-b-2-3 and A-c-1-3) of a sixth and ninth rod piece (A-b-2 and A-c-1), and the third and first anti-parallelogram units (A-c and A-c-1-3), A-a) is rotationally connected with the sixth and first connecting joints (A-c-2-3, A-a-1-3) of the first rod piece (A-c-2, A-a-1) through the tenth; the lengths of the corresponding rod pieces of the first to third anti-parallelogram units (A-a, A-b and A-c) are the same, and the single-degree-of-freedom mechanism can realize infinite turning and can be folded into a plane.

Description

Single-degree-of-freedom infinite turnover mechanism

Technical Field

The invention relates to the field of space folding and unfolding and aerospace, in particular to a single-degree-of-freedom infinite turnover mechanism.

Background

A classic single closed-loop space 6R mechanism, namely a Bricard mechanism, can realize the functions of overturning, folding and the like, and has six rod pieces, six revolute pairs and one degree of freedom. The method is widely applied to daily life and aerospace, for example, Chinese patent CN201810223057.6 discloses a multi-stable state flexible Bricard mechanism and a stable state analysis method thereof, and a flexible mechanism is adopted to form a ring-shaped closed structure by a plurality of Bricard basic units. However, the relative rigidity of the compliant mechanism is poor, the adjacent joints of the Bricard mechanism are in different planes or have complex angles, and the processing and the manufacturing are relatively complex, so that the retaining mechanism is a rigid mechanism, two rod pieces and a rotating pair of the traditional Bricard mechanism are replaced by an anti-parallelogram unit, the space mechanism is simplified into the connection of a plane mechanism, and the mechanism has higher rigidity and is easier to process and manufacture. The obtained space mechanism is a single-degree-of-freedom infinite turnover mechanism and can be folded into a plane.

Disclosure of Invention

The invention aims to provide a single-degree-of-freedom infinite overturning mechanism which can realize infinite overturning, single-degree-of-freedom maintenance and plane folding through the design of a mechanism while maintaining the folding advantage.

The technical scheme of the invention is as follows:

the single-degree-of-freedom infinite turnover mechanism comprises first to third anti-parallelogram units A-a, A-b and A-c, wherein the first and second anti-parallelogram units A-a and A-b are in rotary connection through second and fifth rod pieces A-a-2 and A-b-1 and second and third connecting joints A-a-2-3 and A-b-1-3, the second and third anti-parallelogram units A-b and A-c are in rotary connection through sixth and ninth rod pieces A-b-2 and A-c-1 and fourth and fifth connecting joints A-b-2-3 and A-c-1-3, and the third and first anti-parallelogram units A-c and A-a are in rotary connection through tenth and first rod pieces A-c-2, The sixth and the first connecting joints A-c-2-3 and A-a-1-3 of A-a-1 realize rotary connection; the lengths of the corresponding rod pieces of the first to third anti-parallelogram units A-a, A-b and A-c are the same, and the single-degree-of-freedom mechanism can realize infinite turning and can be folded into a plane.

The first anti-parallelogram unit A-a comprises: a first rod piece A-a-1, a second rod piece A-a-2, a third rod piece A-a-3 and a fourth rod piece A-a-4.

The first anti-parallelogram unit A-a is divided into three layers, the first layer is a third rod A-a-3, the second layer is a first rod A-a-1 and a second rod A-a-2, and the third layer is a fourth rod A-a-4; the first rod piece A-a-1 and the second rod piece A-a-2 are respectively in rotary connection with the third rod piece A-a-3 and the third rod piece A-a-4, the first hole A-a-1-1 of the first rod piece A-a-1 is in rotary connection with the seventh hole A-a-4-1 of the fourth rod piece A-a-4, the second hole A-a-1-2 of the first rod piece A-a-1 is in rotary connection with the sixth hole A-a-3-2 of the third rod piece A-a-3, the third hole A-a-2-1 of the second rod piece A-a-2 is in rotary connection with the fifth hole A-a-3-1 of the third rod piece A-a-3, the fourth hole A-a-2-2 of the second rod A-a-2 is rotatably connected with the eighth hole A-a-4-2 of the fourth rod A-a-4.

The third and fourth rod components A-a-3 and A-a-4 are completely the same and respectively comprise a fifth hole A-a-3-1 and a sixth hole A-a-3-2 and a seventh hole A-a-4-1 and a-4-2.

The first rod piece A-a-1 comprises a first hole A-a-1-1, a-1-2 and a first connecting joint A-a-1-3, the axes of the first hole A-a-1-1 and the second hole A-a-1-2 are parallel, the axis of the first connecting joint A-a-1-3 is perpendicular to the axes of the first hole A-a-1-1 and the second hole A-a-1-2, and the distance from the lower bottom surface of the first connecting joint A-a-1-3 to the first hole A-a-1-1 and the first connecting joint A-a-1-2 is equal.

The second rod piece A-a-2 comprises a third hole A-a-2-1, a-2-2 and a second connecting joint A-a-2-3, the axes of the third hole A-a-2-1 and the fourth hole A-a-2-2 are parallel, the axis of the second connecting joint A-a-2-3 is perpendicular to the axes of the third hole A-a-2-1 and the fourth hole A-a-2-2, and the distance from the lower bottom surface of the second connecting joint A-a-2-3 to the third hole A-a-2-1 and the fourth hole A-a-2-2 is equal.

The second anti-parallelogram unit A-b and the third anti-parallelogram unit A-c have the same shape, mechanical structure and assembly mode as the first anti-parallelogram unit A-a.

The first to third antiparallel quadrilateral units A-a, A-b, A-c are assembled by the above connection.

The invention has the beneficial effects that:

the single-degree-of-freedom infinite overturning mechanism is a single-degree-of-freedom mechanism, can realize infinite overturning and can be folded into a plane. The mechanism only has a revolute pair through the configuration design of the mechanism, and the anti-parallelogram unit has higher rigidity than a pure connecting rod. Compared with the traditional Bricard, the connecting joints between the mechanisms are on the same plane when the adjacent axes are not coplanar or at a certain angle, and the mechanism has simple structure and is relatively easy to machine and manufacture. The mechanism can also be applied to folding and unfolding mechanisms or aerospace aviation and the like.

Drawings

FIG. 1 is an overall three-dimensional view of a single degree of freedom infinite turnover mechanism;

FIG. 2 is a first three-dimensional view of an anti-parallelogram unit;

FIG. 3 is a three-dimensional view II of an anti-parallelogram unit;

FIG. 4 is a three-dimensional view of an intermediate bar of an anti-parallelogram unit;

FIG. 5 is a first three-dimensional view of an end bar of an anti-parallelogram unit;

FIG. 6 is a two-dimensional view of the end bar of the anti-parallelogram unit;

fig. 7 is a schematic view of an infinite flipping motion.

Detailed Description

The invention will be further explained with reference to the drawings.

A single degree-of-freedom infinite tilting mechanism, as shown in fig. 1, comprising: first to third anti-parallelogram units A-a, A-b and A-c, wherein the first and second anti-parallelogram units A-a and A-b are rotationally connected through the second and third connecting joints A-a-2-3 and A-b-1-3 of the second and fifth rod pieces A-a-2 and A-b-1, the second and third anti-parallelogram units A-b and A-c are rotationally connected through the fourth and fifth connecting joints A-b-2-3 and A-c-1 of the sixth and ninth rod pieces A-b-2 and A-c-1, and the third and first anti-parallelogram units A-c and A-a are rotationally connected through the tenth and first rod pieces A-c-2, The sixth and the first connecting joints A-c-2-3 and A-a-1-3 of A-a-1 realize rotary connection; the lengths of the corresponding rod pieces of the first to third anti-parallelogram units A-a, A-b and A-c are the same, and the single-degree-of-freedom mechanism can realize infinite turning and can be folded into a plane.

As shown in fig. 2, the first anti-parallelogram unit a-a includes: a first rod piece A-a-1, a second rod piece A-a-2, a third rod piece A-a-3 and a fourth rod piece A-a-4.

The first anti-parallelogram unit A-a is divided into three layers, the first layer is a third rod A-a-3, the second layer is a first rod A-a-1 and a second rod A-a-2, and the third layer is a fourth rod A-a-4; as shown in FIG. 3, the first and second rods A-a-1 and A-a-2 are rotatably coupled to the third and fourth rods A-a-3 and A-a-4, respectively, the first hole A-a-1-1 of the first rod A-a-1 is rotatably coupled to the seventh hole A-a-4-1 of the fourth rod A-a-4, the second hole A-a-1-2 of the first rod A-a-1 is rotatably coupled to the sixth hole A-a-3-2 of the third rod A-a-3, the third hole A-a-2-1 of the second rod A-a-2 is rotatably coupled to the fifth hole A-a-3-1 of the third rod A-a-3, the fourth hole A-a-2-2 of the second rod A-a-2 is rotatably connected with the eighth hole A-a-4-2 of the fourth rod A-a-4.

As shown in FIG. 4, the third and fourth rod members A-a-3 and A-a-4 are identical and respectively comprise a fifth and sixth hole A-a-3-1 and A-a-3-2 and a seventh and eighth hole A-a-4-1 and A-a-4-2. As shown in FIG. 5, the first rod member A-a-1 includes first and second holes A-a-1-1 and A-a-1-2 and a first connection joint A-a-1-3, the axes of the first and second holes A-a-1-1 and A-a-1-2 are parallel, the axis of the first connection joint A-a-1-3 is perpendicular to the axes of the first and second holes A-a-1-1 and A-a-1-2, and the lower surface of the first connection joint A-a-1-3 is equidistant from the first and second holes A-a-1-1 and A-a-1-2.

As shown in FIG. 6, the second rod member A-a-2 includes third and fourth holes A-a-2-1 and A-a-2-2 and a second connection joint A-a-2-3, the axes of the third and fourth holes A-a-2-1 and A-a-2-2 are parallel, the axis of the second connection joint A-a-2-3 is perpendicular to the axes of the third and fourth holes A-a-2-1 and A-a-2-2, and the lower surface of the second connection joint A-a-2-3 is equidistant from the third and fourth holes A-a-2-1 and A-a-2-2.

As shown in fig. 7, a schematic diagram of the infinite turning mechanism with single degree of freedom realizing infinite turning motion is shown.

Claims

1. The utility model provides a single degree of freedom unlimited tilting mechanism which characterized in that:

the single-degree-of-freedom infinite turnover mechanism comprises first to third anti-parallelogram units (A-a, A-b and A-c), wherein the first and second anti-parallelogram units (A-a and A-b) are rotationally connected through second and third connecting joints (A-a-2-3 and A-b-1-3) of a second and fifth rod piece (A-a-2 and A-b-1), the second and third anti-parallelogram units (A-b and A-c) are rotationally connected through fourth and fifth connecting joints (A-b-2-3 and A-c-1-3) of a sixth and ninth rod piece (A-b-2 and A-c-1), and the third and first anti-parallelogram units (A-c), A-a) is rotationally connected with the sixth and first connecting joints (A-c-2-3, A-a-1-3) of the first rod piece (A-c-2, A-a-1) through the tenth; the lengths of the corresponding rod pieces of the first to third anti-parallelogram units (A-a, A-b and A-c) are the same, and the single-degree-of-freedom mechanism can realize infinite turning and can be folded into a plane.

2. First to third anti-parallelogram units (A-a, A-b, A-c) as described in claim 1, wherein:

said first anti-parallelogram unit (A-a) comprising: a first rod (A-a-1), a second rod (A-a-2), a third rod (A-a-3), a fourth rod (A-a-3, A-a-4);

the first anti-parallelogram unit (A-a) is divided into three layers, wherein the first layer is a third rod piece (A-a-3), the second layer is a first rod piece and a second rod piece (A-a-1 and A-a-2), and the third layer is a fourth rod piece (A-a-4); the first and second bars (A-a-1, A-a-2) are rotatably connected with the third and fourth bars (A-a-3, A-a-4), respectively, the first hole (A-a-1-1) of the first bar (A-a-1) is rotatably connected with the seventh hole (A-a-4-1) of the fourth bar (A-a-4), the second hole (A-a-1-2) of the first bar (A-a-1) is rotatably connected with the sixth hole (A-a-3-2) of the third bar (A-a-3), the third hole (A-a-2-1) of the second bar (A-a-2) is rotatably connected with the fifth hole (A-a-3-1) of the third bar (A-a-3) The fourth hole (A-a-2-2) of the second rod piece (A-a-2) is rotationally connected with the eighth hole (A-a-4-2) of the fourth rod piece (A-a-4);

the third rod piece and the fourth rod piece (A-a-3 and A-a-4) are identical and respectively comprise a fifth hole (A-a-3-1), a sixth hole (A-a-3-2) and a seventh hole (A-a-4-1) and an eighth hole (A-a-4-2);

the first rod piece (A-a-1) comprises a first hole (A-a-1-1), a second hole (A-a-1-1, A-a-1-2) and a first connecting joint (A-a-1-3), the axes of the first hole (A-a-1-1, A-a-1-2) are parallel, the axis of the first connecting joint (A-a-1-3) is perpendicular to the axes of the first hole (A-a-1-1), the second hole (A-a-1-2), and the distance from the lower bottom surface of the first connecting joint (A-a-1-3) to the first hole (A-a-1-1), the second hole (A-a-1-2) is equal;

the second rod piece (A-a-2) comprises third and fourth holes (A-a-2-1, A-a-2-2) and a second connecting joint (A-a-2-3), the axes of the third and fourth holes (A-a-2-1, A-a-2-2) are parallel, the axis of the second connecting joint (A-a-2-3) is perpendicular to the axes of the third and fourth holes (A-a-2-1, A-a-2-2), and the distance from the lower bottom surface of the second connecting joint (A-a-2-3) to the third and fourth holes (A-a-2-1, A-a-2-2) is equal;

the second anti-parallelogram unit (A-b) and the third anti-parallelogram unit (A-c) have the same appearance, mechanical structure and assembly mode as the first anti-parallelogram unit (A-a);

by the above connection, the assembly of the first to third anti-parallelogram units (A-a, A-b, A-c) is completed.