CN210389181U - Parallel structure with three-dimensional movement - Google Patents
Parallel structure with three-dimensional movement Download PDFInfo
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- CN210389181U CN210389181U CN201920887299.5U CN201920887299U CN210389181U CN 210389181 U CN210389181 U CN 210389181U CN 201920887299 U CN201920887299 U CN 201920887299U CN 210389181 U CN210389181 U CN 210389181U
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Abstract
The utility model discloses a parallel structure with three-dimensional movement, which comprises a movable platform and a fixed platform, wherein the movable platform is connected with a first branched chain, a second branched chain, a third branched chain and a fourth branched chain, and the movable platform is connected with the fixed platform through the first branched chain, the second branched chain, the third branched chain and the fourth branched chain respectively; the fourth branched chain comprises a sliding pair P connected with the fixed platform41Of moving pair P41The mounting platform is connected with a fifth sub-branched chain, a sixth sub-branched chain and a seventh sub-branched chain, and the mounting platform is connected with the movable platform through the fifth sub-branched chain, the sixth sub-branched chain and the seventh sub-branched chain. The parallel mechanism has two motion modes of 1R1T and 3T, and solves the problem that the motion mode of the existing mechanism is singleThe output end of the mechanism can realize various motions, thereby meeting more requirements in industrial production.
Description
Technical Field
The utility model belongs to the technical field of the robot, concretely relates to parallelly connected structure with three-dimensional removal.
Background
The parallel robot mechanism is in a space multi-degree-of-freedom multi-ring closed chain form. Since the eighties of the last century, the parallel mechanism has the characteristics of high rigidity, large bearing capacity, small accumulated error, good dynamic characteristic, compact structure and the like, and is widely applied to the industrial fields of virtual axis machine tools, micro-motion operation tables, motion simulators, multi-dimensional force sensors and the like. The parallel mechanism has 2, 3, 4, 5 or 6 degrees of freedom, at present, the parallel mechanism with 6 degrees of freedom is researched more comprehensively and deeply, but the reduction of the degrees of freedom of the parallel mechanism enables the mechanism structure to be simpler, and the manufacturing and control cost to be relatively lower, so that the parallel robot with less degrees of freedom has unique advantages under the condition of meeting the expected working requirement.
The parallel mechanism with multiple motion modes has the characteristic of motion bifurcation under the singular configuration of the mechanism, and can realize multiple motion modes through fewer driving pairs and branched chains, thereby being suitable for different work requirements. And the movement mode of the mechanism is changed without reassembling the mechanism, and the movement mode is high in changing speed and simple and convenient in process. At present, three-degree-of-freedom parallel mechanisms having a motion pattern of movement-rotation (1R1T) (the rotation and movement are parallel) and a motion pattern of three-dimensional movement (3T) are rare.
SUMMERY OF THE UTILITY MODEL
The utility model aims at providing a parallelly connected structure with three-dimensional removal has two kinds of motion modes of 1R1T and 3T, has solved the single problem of current mechanism motion mode, makes the output of mechanism can realize multiple motion to satisfy more demands in the industrial production.
The technical scheme adopted by the utility model is that the parallel structure with three-dimensional movement comprises a movable platform and a fixed platform, wherein the movable platform is connected with a first branched chain, a second branched chain, a third branched chain and a fourth branched chain, and the movable platform is respectively connected with the fixed platform through the first branched chain, the second branched chain, the third branched chain and the fourth branched chain;
the fourth branched chain comprises a sliding pair P connected with the fixed platform41Of moving pair P41A seventh connecting rod 7 and a mounting platform are sequentially connected on the base, a fifth sub-branched chain, a sixth sub-branched chain and a seventh sub-branched chain are connected on the mounting platform, and the mounting platform passes through the fifth sub-branched chain and the sixth sub-branched chainThe chain and the seventh sub-branched chain are connected with the movable platform;
the fifth sub-branch chain comprises a universal hinge U which is connected in sequence42Eighth connecting rod and universal hinge U43The universal hinge U42And is also connected with a mounting platform and a universal hinge U43The movable platform is also connected with the movable platform; the sixth sub-branch chain comprises universal hinges U which are connected in sequence44Ninth connecting rod and universal hinge U45Universal hinge U44And is also connected with a mounting platform and a universal hinge U45The movable platform is also connected with the movable platform; the seventh sub-branch chain comprises a universal hinge U which is connected in sequence46Tenth connecting rod and universal hinge U47Universal hinge U46And is also connected with a mounting platform and a universal hinge U47The movable platform is also connected with the movable platform;
the mounting platform is a triangular mounting platform, and the fifth sub-branched chain, the sixth sub-branched chain and the seventh sub-branched chain are respectively mounted at three vertex angles of the mounting platform.
The utility model is also characterized in that,
the first branch chain comprises ball pairs S connected in sequence11A first connecting rod and a sliding pair P12A second connecting rod and a ball pair S13Ball pair S11And also connected with the fixed platform, a ball pair S13And is also connected with the movable platform.
Sliding pair P12A hydraulic driving motor is connected.
The second branched chain comprises ball pairs S connected in sequence21A third connecting rod and a sliding pair P22Fourth connecting rod and ball pair S23Ball pair S21And also connected with the fixed platform, a ball pair S23And is also connected with the movable platform.
Sliding pair P22A hydraulic driving motor is connected.
The third branched chain comprises ball pairs S connected in sequence31A fifth connecting rod and a sliding pair P32Sixth connecting rod and ball pair S33Ball pair S31And also connected with the fixed platform, a ball pair S33And is also connected with the movable platform.
Sliding pair P32A hydraulic driving motor is connected.
The beneficial effects of the utility model are that, this mechanism has one and moves a motion mode of rotating (1R1T), and the motion mode of three-dimensional removal (3T), and it is single to have solved current mechanism motion mode, makes the output of mechanism can realize multiple motion, and this type of novel parallel mechanism can adapt to the motion mode of multiple difference, adapts to the work under the multiple situation, has certain application prospect in fields such as motion emulation, machine assembly, letter sorting snatch to satisfy more demands in the industrial production.
Drawings
FIG. 1 is a diagram of the present invention with three-dimensional moving parallel structure in instantaneous 4-degree-of-freedom configuration;
fig. 2 is a structural diagram of the parallel mechanism of the present invention in the configuration of 1R1T degrees of freedom;
fig. 3 is a mechanism diagram of the parallel mechanism of the present invention in 3T degree of freedom configuration.
In the figure, 1, a first connecting rod, 2, a second connecting rod, 3, a third connecting rod, 4, a fourth connecting rod, 5, a fifth connecting rod, 6, a sixth connecting rod, 7, a seventh connecting rod, 8, an eighth connecting rod, 9, a ninth connecting rod, 10, a tenth connecting rod, 11, a movable platform, 12, a fixed platform and 13 are installation platforms.
Detailed Description
The present invention will be described in detail with reference to the accompanying drawings and specific embodiments.
The utility model relates to a parallel structure with three-dimensional movement, as shown in figures 1-3, comprising a movable platform 11 and a fixed platform 12, wherein the movable platform 11 is connected with a first branched chain, a second branched chain, a third branched chain and a fourth branched chain, and the movable platform 11 is respectively connected with the fixed platform 12 through the first branched chain, the second branched chain, the third branched chain and the fourth branched chain;
a is defined as the joint of the movable platform 11 and the first branch chain1The joint of the movable platform 11 and the second branched chain is defined as A2The joint of the movable platform 11 and the third branch chain is defined as A3The joint of the movable platform 11 and the fourth branch chain is defined as A4、A5、A6The joints of the movable platform 11 and the fifth, sixth and seventh sub-branched chains are A4、A5、A6. Definition and levelingThe joint of the table 12 and the first branch chain is B1Defining the joint of the platform 12 and the second branch chain as B2Defining the joint of the platform 12 and the third branch chain as B3Defining the joint of the platform 12 and the fourth branch chain as B4。
The first branch chain comprises ball pairs S connected in sequence11A first connecting rod 1 and a sliding pair P12A second connecting rod 2 and a ball pair S13Ball pair S11And also connected with a fixed platform 12, a ball pair S13And is also connected with the movable platform 11.
Sliding pair P12A hydraulic driving motor is connected.
The second branched chain comprises ball pairs S connected in sequence21A third connecting rod 3 and a sliding pair P22Fourth connecting rod 4 and ball pair S23Ball pair S21And also connected with a fixed platform 12, a ball pair S23And is also connected with the movable platform 11.
Sliding pair P22A hydraulic driving motor is connected.
The third branched chain comprises ball pairs S connected in sequence31A fifth connecting rod 5 and a sliding pair P32Sixth connecting rod 6 and ball pair S33Ball pair S31And also connected with a fixed platform 12, a ball pair S33And is also connected with the movable platform 11.
Sliding pair P32A hydraulic driving motor is connected.
The fourth branch chain comprises a sliding pair P connected with the fixed platform 1241Of moving pair P41The seventh connecting rod 7 and the mounting platform 13 are sequentially connected to the mounting platform 13, the fifth sub-branched chain, the sixth sub-branched chain and the seventh sub-branched chain are connected to the mounting platform 13, and the mounting platform 13 is connected with the movable platform 11 through the fifth sub-branched chain, the sixth sub-branched chain and the seventh sub-branched chain.
The fifth sub-branch chain comprises a universal hinge U which is connected in sequence42Eighth connecting rod 8 and universal hinge U43Universal hinge U42And is also connected with a mounting platform 13 and a universal hinge U43Is also connected with the movable platform 11;
the sixth sub-branch chain comprises universal hinges U which are connected in sequence44Ninth connecting rod 9 and universal hinge U45Universal hinge U44And is also connected with a mounting platform 13 and a universal hinge U45Is also connected with the movable platform 11;
the seventh sub-branch chain comprises a universal hinge U which is connected in sequence46 Tenth connecting rod 10 and universal hinge U47Universal hinge U46And is also connected with a mounting platform 13 and a universal hinge U47And is also connected with the movable platform 11.
The mounting platform 13 is a triangular mounting platform, and the fifth sub-branched chain, the sixth sub-branched chain and the seventh sub-branched chain are respectively mounted at three vertex angles of the mounting platform 13.
In the configuration of the mechanism shown in FIG. 1, the sliding pair P41Three moving pairs P vertical to the plane of the moving platform 1112And a sliding pair P22And a sliding pair P32In the general direction of space, universal joints U42Universal hinge U44Universal hinge U46Revolute pair and sliding pair P for connecting mounting platform 1341Parallel universal hinge U43Universal hinge U45Universal hinge U47Revolute pair and revolute pair P for connecting movable platform 1141Parallel.
When the mechanism is in the configuration shown in fig. 1, the sliding pair P is locked41Controlling the driving of the sliding pair P12Of moving pair P22Of moving pair P32The movable platform 11 is parallel to the moving pair P41The mechanism is in a configuration as shown in fig. 2, and the mechanism has a 1R1T motion mode under the configuration, and controls and drives the sliding pair P12Of moving pair P22Control of the mechanism may be achieved. Universal hinge U at the moment42Universal hinge U44Universal hinge U46The axes of the rotating shafts which are not directly connected with the mounting platform 13 intersect pairwise; universal hinge U43Universal hinge U45Universal hinge U47And the axes of the rotating shafts which are not directly connected with the movable platform 11 intersect pairwise. When the mechanism is in the configuration shown in fig. 1, the sliding pair P is locked41Controlling the driving of the sliding pair P12Of moving pair P22Of moving pair P32Can make the movable platform 11 generate 2-dimensional movement, the mechanism is in the mechanism configuration as shown in figure 3, the mechanism has a 3T movement mode under the configuration, and the sliding pair P is unlocked41Controlling the driving of the sliding pair P12Of moving pair P22Of moving pair P32Control of the mechanism may be achieved. Universal hinge U at the moment42Universal hinge U44Universal hinge U46The axes of the rotating shafts which are not directly connected with the mounting platform 13 are parallel pairwise; universal hinge U43Universal hinge U45Universal hinge U47And the axes of the rotating shafts which are not directly connected with the movable platform 11 are parallel pairwise. .
The parallel mechanism of the utility model is driven to move the pair P through the control under certain conditions through the setting of four branch chains12And a sliding pair P22And a sliding pair P32The auxiliary driving sliding pair P41 realizes the conversion of the mechanism between two movement modes, the mechanism has a movement mode of moving one rotation (1R1T) and a movement mode of three-dimensional movement (3T), the problem that the existing mechanism has a single movement mode is solved, the output end of the mechanism can realize multiple movements, and further more requirements in industrial production are met.
Claims (7)
1. A parallel structure with three-dimensional movement is characterized by comprising a movable platform (11) and a fixed platform (12), wherein the movable platform (11) is connected with a first branched chain, a second branched chain, a third branched chain and a fourth branched chain, and the movable platform (11) is connected with the fixed platform (12) through the first branched chain, the second branched chain, the third branched chain and the fourth branched chain respectively;
the fourth branched chain comprises a sliding pair P connected with a fixed platform (12)41Said sliding pair P41The mounting platform (13) is connected with a fifth sub-branched chain, a sixth sub-branched chain and a seventh sub-branched chain, and the mounting platform (13) is connected with the movable platform (11) through the fifth sub-branched chain, the sixth sub-branched chain and the seventh sub-branched chain;
the fifth sub-branch chain comprises universal hinges U which are connected in sequence42An eighth connecting rod (8) and a universal hinge U43The universal hinge U42And is also connected with a mounting platform (13), and the universal hinge U43Is also connected with the movable platform (11); the sixth sub-branch chain comprises universal hinges connected in sequenceU44A ninth connecting rod (9) and a universal hinge U45The universal hinge U44And is also connected with a mounting platform (13), and the universal hinge U45Is also connected with the movable platform (11); the seventh sub-branch chain comprises universal hinges U which are connected in sequence46A tenth connecting rod (10) and a universal hinge U47The universal hinge U46And is also connected with a mounting platform (13), and the universal hinge U47Is also connected with the movable platform (11);
the mounting platform (13) is a triangular mounting platform, and the fifth sub-branched chain, the sixth sub-branched chain and the seventh sub-branched chain are respectively mounted at three vertex angles of the mounting platform (13).
2. The parallel structure with three-dimensional movement according to claim 1, wherein the first branch comprises ball pairs S connected in sequence11A first connecting rod (1) and a sliding pair P12A second connecting rod (2) and a ball pair S13Said ball pair S11And is also connected with a fixed platform (12), and the ball pair S13And is also connected with a movable platform (11).
3. Parallel structure with three-dimensional movement according to claim 2, characterised in that said mobile pair P12A hydraulic driving motor is connected.
4. The parallel structure with three-dimensional motion according to claim 1, wherein the second branch chain comprises ball pairs S connected in sequence21A third connecting rod (3) and a sliding pair P22A fourth connecting rod (4) and a ball pair S23Said ball pair S21And is also connected with a fixed platform (12), and the ball pair S23And is also connected with a movable platform (11).
5. Parallel structure with three-dimensional movement according to claim 4, characterised in that said mobile pair P22A hydraulic driving motor is connected.
6. According to the rightThe parallel structure with three-dimensional movement of claim 1, wherein the third branch chain comprises ball pairs S connected in sequence31A fifth connecting rod (5) and a sliding pair P32A sixth connecting rod (6) and a ball pair S33Said ball pair S31And is also connected with a fixed platform (12), and the ball pair S33And is also connected with a movable platform (11).
7. Parallel structure with three-dimensional movement according to claim 6, characterised in that said mobile pair P32A hydraulic driving motor is connected.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201920887299.5U CN210389181U (en) | 2019-06-13 | 2019-06-13 | Parallel structure with three-dimensional movement |
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| Application Number | Priority Date | Filing Date | Title |
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| CN201920887299.5U CN210389181U (en) | 2019-06-13 | 2019-06-13 | Parallel structure with three-dimensional movement |
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| CN210389181U true CN210389181U (en) | 2020-04-24 |
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Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN110355740A (en) * | 2019-06-13 | 2019-10-22 | 西安工程大学 | Parallel institution with two kinds of motor patterns of 1R1T and 3T |
| CN115476341A (en) * | 2022-09-21 | 2022-12-16 | 西安工程大学 | Printing positioning dual-mode complete decoupling parallel mechanism |
-
2019
- 2019-06-13 CN CN201920887299.5U patent/CN210389181U/en active Active
Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN110355740A (en) * | 2019-06-13 | 2019-10-22 | 西安工程大学 | Parallel institution with two kinds of motor patterns of 1R1T and 3T |
| CN110355740B (en) * | 2019-06-13 | 2021-05-14 | 西安工程大学 | Parallel mechanism with two motion modes of 1R1T and 3T |
| CN115476341A (en) * | 2022-09-21 | 2022-12-16 | 西安工程大学 | Printing positioning dual-mode complete decoupling parallel mechanism |
| CN115476341B (en) * | 2022-09-21 | 2023-07-11 | 西安工程大学 | Printing positioning double-mode complete decoupling parallel mechanism |
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| Date | Code | Title | Description |
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| GR01 | Patent grant | ||
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| TR01 | Transfer of patent right |
Effective date of registration: 20210726 Address after: 710000 2-2602, building 7, aodawen landscape garden community, Jianyuan Road, caotan street, Xi'an Economic and Technological Development Zone, Xi'an City, Shaanxi Province Patentee after: Xi'an depsecco measuring equipment Co.,Ltd. Address before: 710048 Shaanxi province Xi'an Beilin District Jinhua Road No. 19 Patentee before: XI'AN POLYTECHNIC University |
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