CN213616682U - Full-automatic loading and unloading goods robot - Google Patents

Full-automatic loading and unloading goods robot Download PDF

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Publication number
CN213616682U
CN213616682U CN202022639709.XU CN202022639709U CN213616682U CN 213616682 U CN213616682 U CN 213616682U CN 202022639709 U CN202022639709 U CN 202022639709U CN 213616682 U CN213616682 U CN 213616682U
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China
Prior art keywords
effector
swing
telescopic
conveying
bearing support
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Active
Application number
CN202022639709.XU
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Chinese (zh)
Inventor
郑浩
史伟杰
李再奎
韩乾坤
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Zhejiang Weitong Intelligent Technology Co ltd
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Zhejiang Weitong Intelligent Technology Co ltd
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Priority to CN202022639709.XU priority Critical patent/CN213616682U/en
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Abstract

The utility model provides a full automatic loading and unloading goods robot, on the removal base that is equipped with rotary device and pendulous device, the conveyor who is connected with conveyor and rotary device, pendulous device, the end effector who is connected with conveyor, the vacuum adsorption device of setting on end effector and the telescoping device who is connected with conveyor, end effector adopts every single move swing joint to be connected with the removal base. The utility model provides a full automatic loading and unloading goods robot, conveyer belt and conveyor, end effector, telescoping device are from becoming an organic whole, compact structure, and the high and steady operation of destacking or stack is efficient, and can adapt to multiple occasion.

Description

Full-automatic loading and unloading goods robot
Technical Field
The utility model relates to a handling device technical field specifically is a full automatic loading and unloading goods machine.
Background
Along with the development of science and technology, various industries adopt automation to replace complicated physical work, but effective automatic products are not formed in some industries to replace the physical work, and particularly, the loading and unloading links in the logistics industry need intensive labor. In the loading or unloading work of the logistics industry, the automatic application highlights the advantages of the automatic loading or unloading work, the execution capacity is strong, the error rate is low, and the cost is low. Most of the present cases do so manually or with forklift operation. Manual or forklift operation has the following problems: (1) the efficiency is low and the cost is high; (2) potential safety hazards exist when the forklift meets uneven road surfaces in the transportation process; (3) there is a risk of forking or handling of some fragile items.
SUMMERY OF THE UTILITY MODEL
To the problem pointed out in the background art, the utility model provides a full automatic loading and unloading goods robot has compact structure, operates steadily, and can adapt to multiple occasion.
The technical scheme of the utility model is realized like this:
a full robot for loading and unloading goods, comprising:
the device comprises a movable base, a rotating device and a swinging device, wherein the movable base is provided with the rotating device and the swinging device;
the conveying device is connected with the rotating device and the swinging device;
the end effector is connected with the front end of the conveying device;
a vacuum suction device slidably connected to the end effector;
the telescopic device is connected with the rear end of the conveying device;
the end effector is connected with the rotating device through the pitching swinging joint.
The utility model discloses further set up to: the vacuum adsorption device is provided with a telescopic bearing support, the vacuum adsorption device is fixedly connected with the bearing support, the bearing support is connected with the end effector in a sliding mode, and the bearing support is retracted and then is accommodated at the rear end of the vacuum adsorption device.
The utility model discloses further set up to: the end effector is provided with a guide slide rail and a limit guide groove, the bearing support is hinged with a roller and a limit guide wheel, the guide slide rail is provided with a lifting slide rail for controlling the bearing support to lift, the roller is connected with the lifting slide rail in a rolling manner, and the limit guide wheel is connected with the guide groove in a sliding manner.
The utility model discloses further set up to: the chain wheel driving mechanism is fixedly connected with the end effector, and the chain wheel driving machine drives the lifting slide rail to move by adopting a chain.
The utility model discloses further set up to: the rotating device comprises an object carrying platform, a rotating gear and a rotating motor, the rotating gear is fixedly connected with the object carrying platform, the object carrying platform is hinged to the movable base, and the rotating motor is fixedly connected with the movable base and driven by the gear to rotate.
The utility model discloses further set up to: and a telescopic cylinder is arranged between the conveying device and the carrying platform.
The utility model discloses further set up to: the swing device comprises a swing motor, a swing crankshaft and a swing wall, the swing crankshaft is fixedly connected with the swing motor, and the swing wall is hinged to the conveying device and driven by the swing crankshaft.
The utility model discloses further set up to: the pitching oscillating joint is provided with a connecting seat, the pitching oscillating joint is hinged with the connecting seat, the conveying device and the end effector are connected by the connecting seat, the connecting seat is provided with symmetrically arranged driving belt wheels, the end effector is provided with symmetrically arranged driven belt wheels, and the driving belt wheels are driven by synchronous belts.
The utility model discloses further set up to: the telescoping device area includes first telescoping device and second telescoping device, first telescoping device symmetry sets up the both sides of second telescoping device, just first telescoping device symmetry with second telescoping device sliding connection.
The utility model discloses further set up to: and guide plates are arranged on the conveying device, the end effector and the telescopic device.
To sum up, the beneficial effects of the utility model are that:
(1) the full-automatic loading and unloading robot provided by the utility model has the advantages that the conveying belt, the conveying device, the end effector and the telescopic device are integrated into a whole, the structure is compact, the unstacking or stacking efficiency is high, and the operation is stable;
(2) the full-automatic loading and unloading robot provided by the utility model can be used in various occasions, such as warehouses, airports, stations, food industry, factories and the like, and can realize solution of different industries according to different occasions;
(3) the utility model provides a full automatic handling goods robot can realize different distances, the transport of height, snatch, pile up and put, functions such as hoist and mount according to being equipped with different executor.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.
Fig. 1 is a schematic structural view of the present invention;
fig. 2 is a side view of the present invention;
fig. 3 is a schematic structural view of the movable base of the present invention;
fig. 4 is a schematic structural view of the end effector of the present invention;
fig. 5 is a schematic structural view of the chain driving mechanism of the present invention;
fig. 6 is a cross-sectional view of the end effector of the present invention;
FIG. 7 is a schematic structural view of the support bracket of the present invention;
fig. 8 is a schematic structural view of the pitch swing joint of the present invention.
Reference numerals: 1. moving the base; 2. a conveying device; 3. an end effector; 4. a vacuum adsorption device; 5. a pitch-yaw joint; 501. a horizontal swing shaft; 502. a first bevel gear; 503. a second bevel gear; 504. driven by a driven belt wheel; 6. a guide plate; 7. a conveyor belt; 8. a drive wheel; 9. a stepping motor; 10. A rotating device; 101. a carrier platform; 102. a rotating gear; 103. a rotating electric machine; 11. a swing device; 111. a swing motor; 112. a swinging crankshaft; 113. a swinging wall; 12. a telescopic cylinder; 13. a connecting seat; 14. a drive pulley; 15. a load bearing support; 16. a chain drive mechanism; 17. a guide slide rail; 171. lifting the slide rail; 18. a guide groove; 19. a roller; 20. a limiting guide wheel; 21. a first telescoping device; 22. and a second telescoping device.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.
The present invention is described below with reference to fig. 1-8:
the utility model provides a full automatic loading and unloading goods robot, is including removing base 1, conveyor 2, end effector 3, vacuum adsorption device 4, every single move swing joint 5 and telescoping device, all is equipped with deflector 6 on conveyor 2, end effector 3, the telescoping device, and conveyor 2, end effector 3, the telescoping device all is equipped with conveyer belt 7.
The movable base 1 is provided with a driving wheel 8, and the driving wheel 8 is driven by a stepping motor 9. Be equipped with rotary device 10 and pendulous device 11 on the mobile base 1, rotary device 10 includes cargo platform 101, rotary gear 102, rotating electrical machines 103, rotary gear 102 and cargo platform 101 fixed connection, and cargo platform 101 is connected with mobile base 1 is articulated, and rotating electrical machines 103 and mobile base 1 fixed connection adopt gear drive rotary gear 102.
By adopting the technical scheme, the rotating motor 103 rotates to drive the gear wheel to drive the rotating gear 102 to rotate, so that the carrying platform 101 is driven to rotate, and the conveying device 2 drives the end effector 3 and the vacuum adsorption device 4 to horizontally swing in a plane.
The swing device 11 comprises a swing motor 111, a swing crankshaft 112 and a swing wall 113, wherein the swing crankshaft 112 is fixedly connected with the swing motor 111, and the swing wall 113 is hinged with the conveying device 2 and driven by the swing crankshaft 112. A telescopic cylinder 12 is arranged between the conveying device 2 and the loading platform 101 for further support.
By adopting the technical scheme, the swing motor 111 rotates to drive the swing crankshaft 112 to drive the swing wall 113 to swing, so that the conveying device 2 drives the end effector 3, the vacuum adsorption device 4 swings up and down in a vertical plane, the rotating device 2 and the swing device 11 work simultaneously, the conveying device 2 drives the end effector 3, the vacuum adsorption device 4 swings in a horizontal plane and the vertical plane, and the end effector 3 and the vacuum adsorption device 4 can move to required positions.
The end effector 3 is connected with the movable base 1 by adopting a pitching swinging joint 5, the pitching swinging joint 5 is provided with a connecting seat 13, and the conveying device 2 and the end effector 3 are connected by the connecting seat 13. The middle part of the end effector 3 is provided with a horizontal swinging shaft 501, the connecting base 13 is hinged with the horizontal swinging shaft 501, the horizontal swinging shaft 501 is provided with a first bevel gear 502, two ends of the horizontal swinging shaft 501 are provided with second bevel gears 503 which are symmetrically arranged, the second bevel gears 503 are driven by driven pulleys 504, the connecting base 13 is provided with driving pulleys 14 which are symmetrically arranged, and the driving pulleys 14 are driven by synchronous belts.
By adopting the technical scheme, when the second bevel gears 503 on both sides of the first bevel gear 502 rotate in the same direction at the same speed, at the time, the driven pulley drives the pitching oscillating joint 5 to oscillate along the axis of the driven pulley, and the end effector 3 can do up-and-down pitching motion only by ensuring that the two driven bevel gears rotate in the same direction.
When the second bevel gears 503 on both sides of the first bevel gear 502 rotate in opposite directions at the same speed, the driven pulley drives the pitch swing joint 5 to swing along the axis of the horizontal swing shaft 501, and swings left and right from the end effector 3 along the horizontal swing shaft 501.
When the second bevel gears 503 on both sides of the first bevel gear 502 rotate at different speeds and in the same or opposite directions, the end effector 3 can perform the pitching-up and pitching-down motions and the swinging-left and right motions simultaneously.
The end effector 3 is provided with a retractable bearing support 15, and the bearing support 15 is retracted and then is accommodated at the rear end of the vacuum adsorption device 4. The vacuum adsorption device 4 is fixed on the bearing support 15, the end effector 3 is provided with a chain driving mechanism 16, the chain driving mechanism 16 is fixedly connected with the end effector 3, and the chain driving mechanism 16 drives the bearing support 15 to move by adopting a chain.
The end effector 3 is provided with a guide slide rail 17 and a limit guide groove 18, the bearing support 15 is hinged with a roller 19 and a limit guide wheel 20, the guide slide rail 17 is provided with a lifting slide rail 171 for controlling the bearing support 15 to lift, the roller 19 is in rolling connection with the lifting slide rail 171, and the limit guide wheel 20 is in sliding connection with the guide groove 18.
By adopting the technical scheme, when the chain driving mechanism 16 drives the bearing support 15 to move along the guide slide rail 17, the roller 19 moves to the lifting slide rail 171, the bearing support 15 is lifted and positioned above the conveying belt 7 on the end effector 3 under the limitation of the guide roller 19 and the guide groove 18, the front end of the end effector 3 is moved, the goods are grabbed through the vacuum adsorption device 4, at the moment, the chain driving mechanism 16 is reversed, so that the vacuum adsorption device 4 can place the goods on the bearing support 15 and on the conveying belt 7 on the end effector 3, then, the roller 19 moves to the lifting slide rail 171, the bearing support 15 is lowered and stored at the rear end of the vacuum adsorption device 4 under the limitation of the guide roller 19 and the guide groove 18, and then the goods sequentially enter the conveying belt 7 on the conveying device 2 and the telescopic device.
The telescoping device is located conveyor 2's rear end and connects, the telescoping device includes first telescoping device 21 and second telescoping device 22, first telescoping device 21 symmetry sets up the both sides at second telescoping device 22, and first telescoping device 21 symmetry adopts guide rail and sliding seat sliding connection with second telescoping device 22, the guide rail is fixed at second telescoping device 22, the sliding seat is fixed at first telescoping device 21, relative slip between first telescoping device 21 and the second telescoping device 22, realize adjusting the distance between first telescoping device 21 and the second telescoping device 22. Thereby improving the adaptability of the loading and unloading robot.
The above description is only for the preferred embodiment of the present invention and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A full robot for loading and unloading goods, comprising:
the device comprises a movable base (1), wherein a rotating device (10) and a swinging device (11) are arranged on the movable base (1);
the conveying device (2), the conveying device (2) is connected with the rotating device (10) and the swinging device (11);
an end effector (3), wherein the end effector (3) is connected with the front end of the conveying device (2);
the vacuum adsorption device (4), the vacuum adsorption device (4) is connected with the end effector (3) in a sliding mode;
the telescopic device is positioned at the rear end of the conveying device (2);
the end effector (3) is connected with the conveying device (2) through the pitching swinging joint (5).
2. A full robot as claimed in claim 1, wherein: the vacuum adsorption device (4) is provided with a telescopic bearing support (15), the vacuum adsorption device (4) is fixedly connected with the bearing support (15), the bearing support (15) is connected with the end effector (3) in a sliding mode, and the bearing support (15) is accommodated at the rear end of the vacuum adsorption device (4) after being contracted.
3. A full robot as claimed in claim 2, wherein: the end effector (3) is provided with a guide sliding rail (17) and a limiting guide groove (18), the bearing support (15) is hinged to a roller (19) and a limiting guide wheel (20), the guide sliding rail (17) is provided with a lifting sliding rail (171) for controlling the bearing support (15) to lift, the roller (19) is connected with the lifting sliding rail (171) in a rolling manner, and the limiting guide wheel (20) is connected with the guide groove (18) in a sliding manner.
4. A full robot as claimed in claim 3, wherein: the chain wheel driving device is characterized in that a chain wheel driving mechanism is arranged on the end effector (3), the chain wheel driving mechanism is fixedly connected with the end effector (3), and the chain wheel driving machine drives the lifting slide rail (171) to move by adopting a chain.
5. A full robot as claimed in claim 1, wherein: the rotating device (10) comprises an object carrying platform (101), a rotating gear (102) and a rotating motor (103), the rotating gear (102) is fixedly connected with the object carrying platform (101), the object carrying platform (101) is hinged to the movable base (1), and the rotating motor (103) is fixedly connected with the movable base (1) and drives the rotating gear (102) through a gear.
6. A full robot as claimed in claim 5, wherein: and a telescopic cylinder (12) is arranged between the conveying device (2) and the loading platform (101).
7. A full robot as claimed in claim 1, wherein: swing device (11) are including swing motor (111), swing bent axle (112) and swing wall (113), swing bent axle (112) with swing motor (111) fixed connection, swing wall (113) with conveyor (2) are articulated to be connected and by swing bent axle (112) drive.
8. A full robot as claimed in claim 1, wherein: every single move swing joint (5) are equipped with connecting seat (13), every single move swing joint (5) with connecting seat (13) are articulated to be connected, conveyor (2), end effector (3) by connecting seat (13) are connected, be equipped with drive pulley (14) that the symmetry set up on connecting seat (13), be equipped with the driven pulleys that the symmetry set up on end effector (3), drive pulley (14) adopt the hold-in range drive driven pulleys.
9. A full robot as claimed in claim 1, wherein: the telescopic device comprises a first telescopic device (21) and a second telescopic device (22), wherein the first telescopic device (21) is symmetrically arranged on two sides of the second telescopic device (22), and the first telescopic device (21) is symmetrically connected with the second telescopic device (22) in a sliding manner.
10. A full robot as claimed in claim 1, wherein: and guide plates (6) are arranged on the conveying device (2), the end effector (3) and the telescopic device.
CN202022639709.XU 2020-11-15 2020-11-15 Full-automatic loading and unloading goods robot Active CN213616682U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202022639709.XU CN213616682U (en) 2020-11-15 2020-11-15 Full-automatic loading and unloading goods robot

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202022639709.XU CN213616682U (en) 2020-11-15 2020-11-15 Full-automatic loading and unloading goods robot

Publications (1)

Publication Number Publication Date
CN213616682U true CN213616682U (en) 2021-07-06

Family

ID=76634440

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202022639709.XU Active CN213616682U (en) 2020-11-15 2020-11-15 Full-automatic loading and unloading goods robot

Country Status (1)

Country Link
CN (1) CN213616682U (en)

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