CN204844172U - Two -way parallel orbit robot of two pole biaxs - Google Patents
Two -way parallel orbit robot of two pole biaxs Download PDFInfo
- Publication number
- CN204844172U CN204844172U CN201520207294.5U CN201520207294U CN204844172U CN 204844172 U CN204844172 U CN 204844172U CN 201520207294 U CN201520207294 U CN 201520207294U CN 204844172 U CN204844172 U CN 204844172U
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- arm
- main shaft
- rotary main
- control levers
- hinged
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Abstract
The utility model discloses a two -way parallel orbit robot of two pole biaxs, it includes the base, the rotatable rotary main shaft of the level that is provided with on the base, rotary main shaft's one end is connected with shakes suspension arm set, the upper end of shaking suspension arm set is connected with the tongs, shake suspension arm set and shake suspension arm set including articulating first suspension arm set of shaking and second each other together. The first suspension arm set of shaking includes the first arm and two control levers, and the second shakes suspension arm set and includes second arm and two control levers. It is articulated each other through will two sets ofly shaking the suspension arm set head and the tail to each in group becomes parallelogram's hinge structure, and then guarantees that the robot can guarantee all the time at the operation in -process that the work piece that the tongs snatched is in the horizontality, has improved the stability that the work piece was taken, and need not to set up the special work piece horizontally power drive device that is used for driving like traditional machine people, consequently can the energy saving, and overall structure is simple, and the cost is lower.
Description
Technical field
The utility model relates to Industrial Robot Technology field, relates to a kind of two bar double-shaft two-way parallel track robot specifically.
Background technology
In developed country, industrial robot automatic production line complete set of equipments has become main flow robot development prospect and the developing direction in future of automated arm.The industries such as Automotive Industry Abroad, electronic enterprises, engineering machinery use industrial robot automatic production line in a large number, to ensure product quality, enhance productivity, avoid a large amount of industrial accidents simultaneously.The use practice of the industrial robot of global many national nearly half a century shows, the universal of industrial robot realizes automated production, improves social production efficiency, the effective means that promotion enterprise and social productive forces develop.At present, swinging mechanical hand on the market, because its mobile alignment is circular arc, handgrip sucker is difficult to the rectilinear movement realizing level, in order to allow handgrip sucker maintenance level, often needing the auxiliary of actuating unit, so also can improve manufacturing cost accordingly.And the stability of single armed is lower, manipulator easily produces and rocks in moving process, has a strong impact on the control accuracy of manipulator, is difficult to the accuracy requirement reaching people.
Therefore, inventor of the present utility model needs a kind of new technology of design badly to improve its problem.
Utility model content
The utility model aims to provide a kind of can minimizing and drives power source can reduce again two bar double-shaft two-way parallel track robots of cost.
For solving the problems of the technologies described above, the technical solution of the utility model is:
A kind of two bar double-shaft two-way parallel track robot, comprise base, described base is provided with the rotating rotary main shaft of level, one end of described rotary main shaft is provided with the rotary main shaft servomotor driving described rotary main shaft to rotate, the other end of described rotary main shaft is connected with Swing Arm assembly, described rotary main shaft servomotor rotates by driving described rotary main shaft and then drives described Swing Arm assembly around the circuit oscillation of described rotary main shaft, and the upper end of described Swing Arm assembly is connected with the handgrip for grabbing workpiece; Described Swing Arm assembly comprises be hinged the first Swing Arm assembly together and the second Swing Arm assembly, described first Swing Arm assembly comprises the first arm being hinged on described rotary main shaft end, the side of described first arm is provided with two first control levers of assisting described first arm swing, two described first control levers and described first arm form the articulated structure of parallelogram, also form the articulated structure of parallelogram between two described first control levers; Described second Swing Arm assembly comprises the second arm and two the second control levers, one end of described second arm and one end away from described rotary main shaft of described first arm hinged, the other end and the described handgrip of described second arm are hinged, two described second control levers are hinged on the end of two described first control levers respectively, two described second control levers form hinged parallelogram sturcutre, also form hinged parallelogram sturcutre between two described second control levers and described second arm.
Be provided with the first arm servomotor and the first arm decelerator between described first arm and described rotary main shaft, described first arm servomotor and described first arm decelerator rotate to close or away from described work pieces process position direction for driving described first arm; Be provided with the second arm servomotor and the second arm decelerator between described second arm and described first arm, described second arm servomotor and described second arm decelerator rotate to described close or away from described work pieces process position direction for driving described second arm.
Further, described base is vertically provided with wallboard and the first arm control lever bearing, described rotary main shaft is by described wall-panels supports, first arm control lever described in each all by the first arm control lever arthrodesis on described first arm control lever bearing, the bottom-hinged point of described first control lever and the bottom-hinged point of described first arm are positioned on same level line.
Further, two described first arm control levers are connected by the first arm three axle connecting rod, described second arm decelerator is connected with described first arm three axle connecting rod by the first arm pole axle connecting rod, and two described first arm control levers and described first arm pole axle connecting rod are all positioned at the same side of described first arm three axle connecting rod.
Further, two described second arm control levers are connected with the second arm three axle connecting rod, described second arm upper end is provided with the second shoulder joint, described second arm turning joint is connected with described second arm three axle connecting rod by waling stripe, and two described second arm control levers and described waling stripe are all positioned at the same side of described second arm three axle connecting rod.
Further, the upper end thereof of described Swing Arm assembly has sucker pole pedestal, described sucker pole pedestal is horizontally disposed with, one end away from described Swing Arm assembly of described sucker pole pedestal connects described handgrip, and described sucker pole pedestal is hinged on the upper end of described Swing Arm assembly by described waling stripe.
Further, hinged by the second arm control lever joint between described first arm control lever and described second arm control lever.
Further, described second arm control lever upper end is provided with the second arm control lever turning joint, and described second arm control lever is connected with the second arm three axle connecting rod by described second arm control lever turning joint.
Further, described second arm by the second arm support and described second shoulder joint hinged.
Further, form T-shaped structural configuration between described first arm and two described first control levers, two described first control levers are symmetricly set on described first arm both sides; Also form T-shaped structural configuration between described second arm and two described second control levers, two described second control levers are symmetricly set on described second arm both sides.
Further, be provided with main shaft decelerator between described rotary main shaft servomotor and described rotary main shaft, described rotary main shaft servomotor and described main shaft decelerator are all fixed on described wallboard.
Adopt technique scheme, the utility model at least comprises following beneficial effect:
Described in the utility model pair of bar double-shaft two-way parallel track robot; by two groups of Swing Arm assembly head and the tail are hinged; and each group forms the articulated structure of parallelogram; and then ensure that robot can ensure that in running the workpiece that handgrip captures is in level all the time; improve the stability that workpiece is taken; and without the need to arranging the special Power Drive Unit for driving workpiece level as conventional machines people; therefore, it is possible to economize energy; and overall structure is simple, cost is lower.
Accompanying drawing explanation
Fig. 1 is the front view of described in the utility model pair of bar double-shaft two-way parallel track robot;
Fig. 2 is the side view of described in the utility model pair of bar double-shaft two-way parallel track robot;
Fig. 3 is the schematic diagram of Swing Arm assembly of the present utility model;
Fig. 4 is the side view of Fig. 3;
Fig. 5 is the structural representation of the first Swing Arm assembly described in the utility model;
Fig. 6 is the structural representation of the second Swing Arm assembly described in the utility model;
Fig. 7 is the top view of the first arm three axle connecting rod described in the utility model;
Fig. 8 is the side view of the first Swing Arm assembly of the present utility model and the second Swing Arm assembly junction;
Fig. 9 is the K-K direction view of Fig. 8.
Wherein: 1. rotary main shaft, 2. rotary main shaft servomotor, 3. wallboard, 4. main shaft decelerator, 5. the first arm servomotor, 6. the first arm decelerator, 7. the first arm, 8. the second arm servomotor, 9. the second arm decelerator, 10. the second arm, 11. second arm supports, 12. sucker pole pedestals, 13. second shoulder joints, 14. waling stripes, 15. second arm control lever turning joints, 16. second arm three axle connecting rods, 17. second arm control levers, 18. second arm control lever joints, 19. first arm three axle connecting rods, 20. first arm pole axle connecting rods, 21. first arm control levers, 22. first arm control lever joints, 23. first arm control lever bearings, 24. bases.
Detailed description of the invention
Further illustrate the utility model below in conjunction with drawings and Examples, in figure, the direction of arrow is the rotation direction of corresponding component.
As shown in Figures 1 to 9, for meeting the two bar double-shaft two-way parallel track robot of one of the present utility model, comprise base 24, described base 24 is provided with the rotating rotary main shaft 1 of level, one end of described rotary main shaft 1 is provided with the rotary main shaft servomotor 2 driving described rotary main shaft 1 to rotate, the other end of described rotary main shaft 1 is connected with Swing Arm assembly, described rotary main shaft servomotor 2 rotates by driving described rotary main shaft 1 and then drives described Swing Arm assembly around the circuit oscillation of described rotary main shaft 1, the upper end of described Swing Arm assembly is connected with the handgrip for grabbing workpiece, described Swing Arm assembly comprises be hinged the first Swing Arm assembly together and the second Swing Arm assembly, described first Swing Arm assembly comprises the first arm 7 being hinged on described rotary main shaft 1 end, the side of described first arm 7 is provided with two first control levers of assisting described first arm 7 to swing, two described first control levers and described first arm 7 form the articulated structure of parallelogram, see tetra-pin joints of A, B, E, the D in Fig. 3 and Fig. 4 and C, B, E, F tetra-pin joints, also the articulated structure of parallelogram is formed, see tetra-pin joints of A, D, C, the F in Fig. 3 and Fig. 4 between two described first control levers, described second Swing Arm assembly comprises the second arm 10 and two the second control levers, one end of described second arm 10 and one end away from described rotary main shaft 1 of described first arm 7 hinged, the other end and the described handgrip of described second arm 10 are hinged, two described second control levers are hinged on the end of two described first control levers respectively, two described second control levers form hinged parallelogram sturcutre, see tetra-pin joints of D, G, I, the F in Fig. 3 and Fig. 4, also hinged parallelogram sturcutre is formed, see tetra-pin joints of G, H, E, the D in Fig. 3 and Fig. 4 and H, I, E, F tetra-pin joints between two described second control levers and described second arm 10.
Be provided with the first arm servomotor 5 and the first arm decelerator 6 between described first arm 7 and described rotary main shaft 1, described first arm servomotor 5 and described first arm decelerator 6 rotate to close or away from described work pieces process position direction for driving described first arm 7; Be provided with the second arm servomotor 8 and the second arm decelerator 9 between described second arm 10 and described first arm 7, described second arm servomotor 8 and described second arm decelerator 9 rotate to described close or away from described work pieces process position direction for driving described second arm 10.
Two bar double-shaft two-way parallel track robots of the present embodiment; by two groups of Swing Arm assembly head and the tail are hinged; and each group forms the articulated structure of parallelogram; and then ensure that robot can ensure that in running the workpiece that handgrip captures is in level all the time; improve the stability that workpiece is taken, and without the need to arranging the special Power Drive Unit for driving workpiece level as conventional machines people, therefore, it is possible to economize energy; and overall structure is simple, cost is lower.
In the present embodiment, described base 24 is vertically provided with wallboard 3 and the first arm control lever bearing 23, described rotary main shaft 1 is supported by described wallboard 3, first arm control lever 21 described in each is all fixed on described first arm control lever bearing 23 by the first arm control lever joint 22, and the bottom-hinged point of described first control lever and the bottom-hinged point of described first arm 7 are positioned on same level line.This setup had both been convenient to install, and being also convenient to guarantee grabs chirokinesthetic stationary performance simultaneously.
See Fig. 6-9, in the present embodiment, two described first arm control levers 21 are connected by the first arm three axle connecting rod 19, described second arm decelerator 9 is connected with described first arm three axle connecting rod 19 by the first arm pole axle connecting rod 20, the end of described first arm pole axle connecting rod 20 is rotatably connected to the centre position of described first arm three axle connecting rod 19 by bearing, described two described first arm control levers 21 and described first arm pole axle connecting rod 20 are all positioned at the same side of described first arm three axle connecting rod 19.
In the present embodiment, two described second arm control levers 17 are connected with the second arm three axle connecting rod 16, described second arm 10 upper end is provided with the second shoulder joint 13, described second arm 10 turning joint is connected with described second arm three axle connecting rod 16 by waling stripe 14, and two described second arm control levers 17 and described waling stripe 14 are all positioned at the same side of described second arm three axle connecting rod 16.
In the present embodiment, the upper end thereof of described Swing Arm assembly has sucker pole pedestal 12, described sucker pole pedestal 12 is horizontally disposed with, one end away from described Swing Arm assembly of described sucker pole pedestal 12 connects described handgrip, and described sucker pole pedestal 12 is hinged on the upper end of described Swing Arm assembly by described waling stripe 14.
In the present embodiment, hinged by the second arm control lever joint 18 between described first arm control lever 21 and described second arm control lever 17.
In the present embodiment, described second arm control lever 17 upper end is provided with the second arm control lever turning joint 15, and described second arm control lever 17 is connected with the second arm three axle connecting rod 16 by described second arm control lever turning joint 15.
In the present embodiment, described second arm 10 is hinged with described second shoulder joint 13 by the second arm support 11.
In the present embodiment, form T-shaped structural configuration between described first arm 7 and two described first control levers, two described first control levers are symmetricly set on described first arm 7 both sides; Also form T-shaped structural configuration between described second arm 10 and two described second control levers, two described second control levers are symmetricly set on described second arm 10 both sides.
In the present embodiment, be provided with main shaft decelerator 4 between described rotary main shaft servomotor 2 and described rotary main shaft 1, described rotary main shaft servomotor 2 and described main shaft decelerator 4 are all fixed on described wallboard 3.
Above an embodiment of the present utility model has been described in detail, but described content is only the preferred embodiment that the utility model is created, and can not be considered to for limiting practical range of the present utility model.All any equivalent variations done according to the utility model application range, all should still be within patent covering scope of the present utility model.
Claims (10)
1. a two bar double-shaft two-way parallel track robot, it is characterized in that: comprise base, described base is provided with the rotating rotary main shaft of level, one end of described rotary main shaft is provided with the rotary main shaft servomotor driving described rotary main shaft to rotate, the other end of described rotary main shaft is connected with Swing Arm assembly, described rotary main shaft servomotor rotates by driving described rotary main shaft and then drives described Swing Arm assembly around the circuit oscillation of described rotary main shaft, and the upper end of described Swing Arm assembly is connected with the handgrip for grabbing workpiece; Described Swing Arm assembly comprises be hinged the first Swing Arm assembly together and the second Swing Arm assembly, described first Swing Arm assembly comprises the first arm being hinged on described rotary main shaft end, the side of described first arm is provided with two first control levers of assisting described first arm swing, two described first control levers and described first arm form the articulated structure of parallelogram, also form the articulated structure of parallelogram between two described first control levers; Described second Swing Arm assembly comprises the second arm and two the second control levers, one end of described second arm and one end away from described rotary main shaft of described first arm hinged, the other end and the described handgrip of described second arm are hinged, two described second control levers are hinged on the end of two described first control levers respectively, two described second control levers form hinged parallelogram sturcutre, also form hinged parallelogram sturcutre between two described second control levers and described second arm;
Be provided with the first arm servomotor and the first arm decelerator between described first arm and described rotary main shaft, described first arm servomotor and described first arm decelerator rotate to close or away from described work pieces process position direction for driving described first arm; Be provided with the second arm servomotor and the second arm decelerator between described second arm and described first arm, described second arm servomotor and described second arm decelerator rotate to described close or away from described work pieces process position direction for driving described second arm.
2. two bar double-shaft two-way parallel track robot as claimed in claim 1; it is characterized in that: described base is vertically provided with wallboard and the first arm control lever bearing; described rotary main shaft is by described wall-panels supports; first arm control lever described in each all by the first arm control lever arthrodesis on described first arm control lever bearing, the bottom-hinged point of described first control lever and the bottom-hinged point of described first arm are positioned on same level line.
3. two bar double-shaft two-way parallel track robot as claimed in claim 1 or 2; it is characterized in that: two described first arm control levers are connected by the first arm three axle connecting rod; described second arm decelerator is connected with described first arm three axle connecting rod by the first arm pole axle connecting rod, and two described first arm control levers and described first arm pole axle connecting rod are all positioned at the same side of described first arm three axle connecting rod.
4. two bar double-shaft two-way parallel track robot as claimed in claim 3; it is characterized in that: two described second arm control levers are connected with the second arm three axle connecting rod; described second arm upper end is provided with the second shoulder joint; described second arm turning joint is connected with described second arm three axle connecting rod by waling stripe, and two described second arm control levers and described waling stripe are all positioned at the same side of described second arm three axle connecting rod.
5. two bar double-shaft two-way parallel track robot as claimed in claim 4; it is characterized in that: the upper end thereof of described Swing Arm assembly has sucker pole pedestal; described sucker pole pedestal is horizontally disposed with; one end away from described Swing Arm assembly of described sucker pole pedestal connects described handgrip, and described sucker pole pedestal is hinged on the upper end of described Swing Arm assembly by described waling stripe.
6. two bar double-shaft two-way parallel track robot as claimed in claim 5, is characterized in that: hinged by the second arm control lever joint between described first arm control lever and described second arm control lever.
7. two bar double-shaft two-way parallel track robot as claimed in claim 4; it is characterized in that: described second arm control lever upper end is provided with the second arm control lever turning joint, described second arm control lever is connected with the second arm three axle connecting rod by described second arm control lever turning joint.
8. bar double-shaft two-way parallel track robot as claimed in claim 4 two, is characterized in that: described second arm by the second arm support and described second shoulder joint hinged.
9. the two bar double-shaft two-way parallel track robots as described in as arbitrary in claim 6-8, it is characterized in that: form T-shaped structural configuration between described first arm and two described first control levers, two described first control levers are symmetricly set on described first arm both sides; Also form T-shaped structural configuration between described second arm and two described second control levers, two described second control levers are symmetricly set on described second arm both sides.
10. two bar double-shaft two-way parallel track robot as claimed in claim 2; it is characterized in that: be provided with main shaft decelerator between described rotary main shaft servomotor and described rotary main shaft, described rotary main shaft servomotor and described main shaft decelerator are all fixed on described wallboard.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201520207294.5U CN204844172U (en) | 2015-04-08 | 2015-04-08 | Two -way parallel orbit robot of two pole biaxs |
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CN201520207294.5U CN204844172U (en) | 2015-04-08 | 2015-04-08 | Two -way parallel orbit robot of two pole biaxs |
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CN201520207294.5U Withdrawn - After Issue CN204844172U (en) | 2015-04-08 | 2015-04-08 | Two -way parallel orbit robot of two pole biaxs |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104742124A (en) * | 2015-04-08 | 2015-07-01 | 苏州荣威工贸有限公司 | Double-pole double-shaft double-way parallel track robot |
CN111203855A (en) * | 2020-01-14 | 2020-05-29 | 腾讯科技(深圳)有限公司 | Mechanical arm |
-
2015
- 2015-04-08 CN CN201520207294.5U patent/CN204844172U/en not_active Withdrawn - After Issue
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104742124A (en) * | 2015-04-08 | 2015-07-01 | 苏州荣威工贸有限公司 | Double-pole double-shaft double-way parallel track robot |
CN104742124B (en) * | 2015-04-08 | 2017-06-09 | 苏州荣威工贸有限公司 | A kind of double-rod double-shaft two-way parallel track robot |
CN111203855A (en) * | 2020-01-14 | 2020-05-29 | 腾讯科技(深圳)有限公司 | Mechanical arm |
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Legal Events
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20151209 Effective date of abandoning: 20170609 |
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AV01 | Patent right actively abandoned |