CN205068176U - Parallel mechanism who has spring damping in closed loop branch - Google Patents
Parallel mechanism who has spring damping in closed loop branch Download PDFInfo
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- CN205068176U CN205068176U CN201520819814.8U CN201520819814U CN205068176U CN 205068176 U CN205068176 U CN 205068176U CN 201520819814 U CN201520819814 U CN 201520819814U CN 205068176 U CN205068176 U CN 205068176U
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Abstract
The utility model provides a parallel mechanism who has spring damping in closed loop branch, it is including moving the platform, allocate the platform and connect two sets of drive branches and a set of bearing branch of moving the platform and allocating the platform, drive branch of first group is four PSS branches that the structure is the same, two liang of vertical arranging of a set of vertical plane symmetrical, first actuator in every branch with allocate platform and first pull rod and be connected, first pull rod with be connected the bridge arm and connect, connect the bridge arm and move the platform and be connected, the spring damping ware is connected with free bearing and bearing frame, second group drive branch be two PSS drive branches that the structure is the same, and this branch lies in the below of moving the platform, and the level is fixed and is being allocated a center part, and a set of bearing branch includes four bearing branches that the structure is the same, stand symmetrical arrangement in this branch, and the extension spring is moved in the platform second pull ring of upper mounting plate both sides and is connected with being fixed in the first pull ring on the stand and being fixed in. The utility model discloses bearing capacity is big, and the security performance is high, and is energy -concerving and environment -protective, can be according to different user demands simulation vibration and motion.
Description
Technical field
The utility model relates to a kind of parallel institution, particularly a kind of simulation table in parallel.
Background technology
Simulation table in parallel has the advantages such as rigidity is large, load-bearing capacity is strong, in recent decades, in parallel movement simulative platform studied at most be six-freedom parallel simulation table, for the training of automobile, aviator, but often not reaching desirable effect by driving the restriction of original paper and physical construction to simulate high-frequency compound motion, intending or making the universalness of motion simulator and the application of Demand-Oriented be subject to all restrictions because higher hardware drops into and controls cost.Such as simulate field operations road conditions and conventional road conditions condition, carry out under medical aid etc. requires higher occasion to vibration frequency at ambulance driving process, stronger rigid shock can be produced with the full driving six-freedom parallel analog platform that STEWART mechanism is representative, adverse influence is produced to life-span of whole mechanism and safety, and drive the arrangement form of branch to make U-shaped frame often be in very high position due to motion simulator mechanical part, bring potential stability and safety issue, be limited by the restriction of cost and driver output frequency in addition, also do not have a kind of product can meet the application demand of universalness at present.Utility model patent CN104258569A proposes the removable dynamic car race game motion simulator of a kind of motor-driven Three Degree Of Freedom, but is only limited to three degree of freedom, and can only skimulated motion, dither that can not be adjoint in skimulated motion process; Utility model patent CN104778897A proposes a kind of driving Efficacy experiments device based on six-freedom motion analog platform, traditional STWART parallel institution is adopted to simulate the motion of six-freedom degree, equally can not the dither adjoint in motion process of simulated automotive, and U-shaped frame is in higher position, there are stability and safety issue;
Utility model content
The purpose of this utility model is to provide that large, the anti-rigid shock ability of a kind of load-bearing capacity is strong, security and stability good, energy-conserving and environment-protective, can not only skimulated motion, the parallel institution of spring damping can be had in the closed loop branch of dither in skimulated motion process simultaneously.
The technical solution of the utility model is as follows:
The utility model mainly comprises moving platform, fixed platform and connects moving platform and fixed platform two groups and drives branch and one group of load-bearing branch, described moving platform is connected in U-shaped frame both sides by two supports to form, moving platform, in order to connect other equipment, forms motion simulator, first group of driving branches into identical PSS (RPeR) branch of four structures, these four drive one group between two, branch, the front and back wheel of similar automobile, front wheel driving branch group and rear drive branch group can be divided into, Liang Ge branch being arranged symmetrically with about middle fore-and-aft plane in any one group, one end of the first actuator of vertical motion can be provided in Mei Tiao branch to be fixed on fixed platform, the other end of the first actuator is movement output end, this end is connected with one end of the first pull bar by the first joint ball pivot, the other end of this first pull bar is connected with the one end being connected brachium pontis by second joint ball pivot, the other end of this connection brachium pontis is connected with the platform support of moving platform by center line two bearings on the same axis, one end of spring-damper by revolute pair be fixed on the free bearing be connected on brachium pontis and be connected, the other end of this spring-damper by bearing be fixed on the bearing seat be connected on brachium pontis and connect, two joint ball pivots in this branch any one or be universal hinge, form PSU (RPeR) or PUS (RPeR) branch, spring-damper, connection brachium pontis, support just constitute one and have a passive freedom degree triangle closed loop, second group drives branch to comprise the identical PSS of two structures to drive branch, and by can provide the second actuator of rectilinear motion, two ends form with the second pull bar of ball pivot.The motion module of the second actuator is connected with one end of the second pull bar by the 3rd joint ball pivot, the other end of this second pull bar is connected with the U-shaped frame bottom of moving platform by the 4th joint ball pivot, in two joint ball pivots in this branch any one or be universal hinge, form PUS or PSU branch, described second actuator is positioned at the below of moving platform, is horizontally fixed on centre on fixed platform, and two drive branch to be arranged symmetrically with about middle fore-and-aft plane, two the second pull bars are non-parallel layout when initial position, and the center of two the 3rd joint ball pivots and two the 4th joint ball pivots is that isosceles trapezoid is arranged when original state, control these two and drive two the second actuator in branch, advances and the power of retrogressing and the torque of rotation for moving platform provides with time asynchronous in synchronized movement, one group of load-bearing branch comprises the identical load-bearing branch of four structures, each load-bearing branch is by an extension spring, first draw ring forms with second draw ring and a root post, column in four load-bearing branches is arranged symmetrically with about middle fore-and-aft plane, be located at the inner side of above-mentioned each driving branch, one end of extension spring links on the first draw ring being fixed on column upper end, the other end of this extension spring links on the second draw ring being fixed on U-shaped frame both sides in moving platform, acting force is tilted upward horizontal by certain angle, in order to offset the gravity of platform self, thus alleviate the power output that first group drives actuator in branch, reach the effect of economize energy, control two groups simultaneously and drive six in the branch actuator that rectilinear motion can be provided, U-shaped frame can be realized around three rotating shaft Three dimensional rotation of fixed coordinate system and move along the direction of three coordinate axis all around, carry out the compound motion of six degree of freedom, the introducing of spring-damper makes moving platform can realize high-frequency vibration.
Described second group drives the second structure of branch: this group drives and branches into single PSS driving branch, this branch drives the structure of branch identical with above-mentioned second group, in two joint ball pivots in branch any one or be universal hinge, form PUS or PSU branch; This branch levels is fixed on centre on fixed platform, and the movement locus of the second actuator motion module is positioned in middle vertical plane, the joint ball pivot be connected with U-shaped frame to be centrally located in the middle of U-shaped frame on fore-and-aft plane; The load-bearing branch of four oblique pull-up can not only balanced dynamic platform self gravity and also the uncontrollable degree of freedom of moving platform can be limited to a certain extent, the controllability of raising system, with stability, control two groups drives five in branches the actuator of rectilinear motion can be provided can to realize moving platform around three rotating shaft Three dimensional rotation of fixed coordinate system and move along the direction of three coordinate axis all around simultaneously, thus carries out the compound motion of six degree of freedom.
The utility model compared with prior art tool has the following advantages:
1, load-bearing capacity is large, load self-equilibrating;
2, spring damping, anti-rigid shock;
3, the height of moving platform is lower, and security and stability is good;
4, introduce loss of weight spring, motor power consumption is few, energy-conservation;
5, the compound motion being with high-frequency vibration can be realized;
Accompanying drawing explanation
Fig. 1 is the structural representation sketch of the utility model embodiment 1.
Fig. 2 is the structural representation sketch of moving platform in the utility model embodiment 1.
Fig. 3 is the structural representation sketch of the utility model embodiment 1 fixed platform and each branch.
Fig. 4 is the structural representation sketch of the utility model embodiment 2.
Fig. 5 is the structural representation of the utility model embodiment 2 fixed platform and each branch.
Embodiment
Embodiment 1
At Fig. 1 and Fig. 2, have in closed loop branch shown in Fig. 3 in the parallel institution schematic diagram of spring damping, U-shaped frame 8 be two ends with square journal stirrup in Qian type structure, 3 bolts hole are respectively equipped with in the both sides of each journal stirrup, corresponding with the bolt hole on each support 14, U-shaped frame to be fixed together formation moving platform by bolt and two supports, first group of driving branches into identical PSS (RPeR) branch of four structures, the front and back wheel of these four the similar automobiles of driving branch, front wheel driving branch group and rear drive branch group can be divided into, Liang Ge branch being arranged symmetrically with about middle fore-and-aft plane in any one group, one end of the first actuator 6 of vertical motion can be provided in Mei Tiao branch to be bolted on fixed platform 1, the other end of the first actuator is movement output end 7, this end is connected with one end of the first pull bar 13 by the first joint ball pivot S1, the other end of this first pull bar is connected with the one end being connected brachium pontis 17 by second joint ball pivot S2, the other end of this connection brachium pontis is connected with the platform support of moving platform by center line two bearings on the same axis, one end of spring-damper 15 by revolute pair be fixed on the free bearing 16 be connected on brachium pontis and be connected, the other end of this spring-damper by bearing be fixed on the bearing seat 18 be connected on brachium pontis and connect, spring-damper, connection brachium pontis, support just constitute one and have a passive freedom degree triangle closed loop, second group drives branch to comprise the identical PSS driving branch of two structures, the motion module of the second actuator 3 in this branch is connected with one end of the second pull bar 5 by the 3rd joint ball pivot S3, and the other end of this second pull bar is connected with the U-shaped frame of moving platform by the 4th joint ball pivot S4, described second actuator position is horizontally fixed on centre on fixed platform, and two drive branch to be arranged symmetrically with about middle fore-and-aft plane, two the second pull bars non-parallel layout when initial position, the center of two the 3rd joint ball pivots and two the 4th joint ball pivots is that isosceles trapezoid is arranged when original state, control these two and drive two the second actuator in branch, advances and the power of retrogressing and the torque of rotation for moving platform provides with time asynchronous in synchronized movement, one group of load-bearing branch comprises the identical load-bearing branch of four structures, column 2 in these four load-bearing branches is arranged symmetrically with about middle fore-and-aft plane, be located at the inner side of above-mentioned each driving branch, one end of extension spring 9 links on the first draw ring 10 being fixed on column upper end, the other end of this extension spring links on the second draw ring 11 being fixed on U-shaped frame both sides in moving platform, acting force is tilted upward horizontal by certain angle, in order to offset the gravity of platform self, thus alleviate the power output that first group drives actuator in branch, reach the effect of economize energy, control two groups simultaneously and drive six in the branch actuator that rectilinear motion can be provided, U-shaped frame can be realized around three rotating shaft Three dimensional rotation of fixed coordinate system and move along the direction of three coordinate axis all around, carry out the compound motion of six degree of freedom, the introducing of spring-damper makes moving platform can realize high-frequency vibration.
Embodiment 2:
Have in the closed loop branch shown in Fig. 4 and Fig. 5 in the parallel institution schematic diagram of spring damping, second group of driving branches into single PSS and drives branch, this branch drives the structure of branch identical with above-mentioned second group, this branch is positioned at the below of moving platform, be horizontally fixed on centre on fixed platform, other parts are identical with embodiment 1 with structure.Described single PSS drives the movement locus of the second actuator motion module of branch to be positioned in middle vertical plane, the joint ball pivot be connected with U-shaped frame to be centrally located in the middle of U-shaped frame on fore-and-aft plane; The load-bearing branch of four oblique pull-up can not only balanced dynamic platform self gravity and also the uncontrollable degree of freedom of moving platform can be limited to a certain extent, the controllability of raising system, with stability, control two groups drives five in branches the actuator of rectilinear motion can be provided can to realize moving platform around three rotating shaft Three dimensional rotation of fixed coordinate system and move along the direction of three coordinate axis all around simultaneously, thus carries out the compound motion of six degree of freedom.
Claims (3)
1. there is in a closed loop branch parallel institution of spring damping, it mainly comprises moving platform, fixed platform and connect moving platform and fixed platform two groups and drive branch and one group of load-bearing branch, it is characterized in that: described moving platform is connected in U-shaped frame both sides by two supports to form, first group of driving branches into the identical PSS branch of four structures, these four drive one group between two, branch, Liang Ge branch being arranged symmetrically with about middle fore-and-aft plane in any one group, one end of the first actuator of vertical motion can be provided in Mei Tiao branch to be fixed on fixed platform, the other end of the first actuator is movement output end, this end is connected with one end of the first pull bar by the first joint ball pivot, the other end of this first pull bar is connected with the one end being connected brachium pontis by second joint ball pivot, the other end of this connection brachium pontis is connected with the platform support of moving platform by center line two bearings on the same axis, one end of spring-damper by revolute pair be fixed on the free bearing be connected on brachium pontis and be connected, the other end of this spring-damper by bearing be fixed on the bearing seat be connected on brachium pontis and connect, spring-damper, connection brachium pontis, support just constitute one and have a passive freedom degree triangle closed loop, second group drives branch to comprise the identical PSS of two structures to drive branch, and by can provide the second actuator of rectilinear motion, two ends form with the second pull bar of ball pivot, the motion module of the second actuator is connected with one end of the second pull bar by the 3rd joint ball pivot, the other end of this second pull bar is connected with the U-shaped frame bottom of moving platform by the 4th joint ball pivot, described second actuator is positioned at the below of moving platform, be horizontally fixed on the centre of fixed platform, two drive branch to be arranged symmetrically with about middle fore-and-aft plane, described one group of load-bearing branch comprises the identical load-bearing branch of four structures, each load-bearing branch is by an extension spring, first draw ring forms with second draw ring and a root post, column in four load-bearing branches is arranged symmetrically with about middle fore-and-aft plane, be located at the inner side of above-mentioned each driving branch, one end of extension spring links on the first draw ring being fixed on column upper end, and the other end of this extension spring links on the second draw ring being fixed on U-shaped frame both sides in moving platform.
2. there is in a kind of closed loop branch according to claim 1 the parallel institution of spring damping, it is characterized in that: described first group drives any one of two joint ball pivots of each branch in branch or be universal hinge, form PSU or PUS branch.
3. there is in closed loop branch according to claim 1 the parallel institution of spring damping, it is characterized in that: described second group drive in two joint ball pivots in branch in this branch each any one or be universal hinge, form PUS or PSU branch.
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CN201520819814.8U CN205068176U (en) | 2015-10-22 | 2015-10-22 | Parallel mechanism who has spring damping in closed loop branch |
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CN201520819814.8U CN205068176U (en) | 2015-10-22 | 2015-10-22 | Parallel mechanism who has spring damping in closed loop branch |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105242691A (en) * | 2015-10-22 | 2016-01-13 | 燕山大学 | Parallel mechanism with spring damping in closed-loop branch |
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2015
- 2015-10-22 CN CN201520819814.8U patent/CN205068176U/en not_active Withdrawn - After Issue
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105242691A (en) * | 2015-10-22 | 2016-01-13 | 燕山大学 | Parallel mechanism with spring damping in closed-loop branch |
CN105242691B (en) * | 2015-10-22 | 2018-01-23 | 燕山大学 | There is the parallel institution of spring damping in a kind of closed loop branch |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20160302 Effective date of abandoning: 20180123 |