“Delta robot”的意思、由来-开放百科全书

A delta robot is a type of parallel robot^[2] that consists of three arms connected to universal joints at the base. The key design feature is the use of parallelograms in the arms, which maintains the orientation of the end effector, by contrast to Stewart platform that can change the orientation of its end effector.^[3]

Delta robots have popular usage in picking and packaging in factories because they can be quite fast, some executing up to 300 picks per minute.^[4]

History

The delta robot (a parallel arm robot) was invented in the early 1980s by a research team led by professor Reymond Clavel at the École Polytechnique Fédérale de Lausanne (EPFL, Switzerland).^[5] After a visit to a chocolate maker, a team member wanted to develop a robot to place pralines in their packages.^[6] The purpose of this new type of robot was to manipulate light and small objects at a very high speed, an industrial need at that time.

In 1987, the Swiss company Demaurex purchased a license for the delta robot and started the production of delta robots for the packaging industry. In 1991 Reymond Clavel presented his doctoral thesis 'Conception d'un robot parallèle rapide à 4 degrés de liberté',^[7] and received the golden robot award in 1999 for his work and development of the delta robot. Also in 1999, ABB Flexible Automation started selling its delta robot, the FlexPicker. By the end of 1999 delta robots were also sold by Sigpack Systems.

In 2017 Harvard's Microrobotics Lab researcher Hayley McClintock miniaturized it with piezoelectric actuators to 0.43 grams for 15 mm x 15 mm x 20 mm, capable of moving a 1.3g payload around a 7 cubic millimeter workspace with a 5 micrometers precision, reaching 0.45 m/s speeds with 215 m/s² accelerations and repeating patterns at 75 Hz.^[8]

Design

The delta robot is a parallel robot, i.e. it consists of multiple kinematic chains connecting the base with the end-effector. The robot can also be seen as a spatial generalisation of a four-bar linkage.^[9]

The key concept of the delta robot is the use of parallelograms which restrict the movement of the end platform to pure translation, i.e. only movement in the X, Y or Z direction with no rotation.

The robot's base is mounted above the workspace and all the actuators are located on it. From the base, three middle jointed arms extend. The ends of these arms are connected to a small triangular platform. Actuation of the input links will move the triangular platform along the X, Y or Z direction. Actuation can be done with linear or rotational actuators, with or without reductions (direct drive).

Since the actuators are all located in the base, the arms can be made of a light composite material. As a result of this, the moving parts of the delta robot have a small inertia. This allows for very high speed and high accelerations. Having all the arms connected together to the end-effector increases the robot stiffness, but reduces its working volume.

The version developed by Reymond Clavel has four degrees of freedom:^[7] three translations and one rotation. In this case a fourth leg extends from the base to the middle of the triangular platform giving to the end effector a fourth, rotational degree of freedom around the vertical axis.

The majority of delta robots use rotary actuators. Vertical linear actuators have recently been used (using a linear delta design) to produce a novel design of 3D printer.^[13]^[14] These offer advantages over conventional leadscrew-based 3D printers of quicker access to a larger build volume for a comparable investment in hardware.

Applications

Industries that take advantage of the high speed of delta robots are the packaging industry, medical and pharmaceutical industry. For its stiffness it is also used for surgery. Other applications include high precision assembly operations in a clean room for electronic components.

The structure of a delta robot can also be used to create haptic controllers.^[16] More recently, the technology has been adapted to 3D printers. These printers can be built for about a thousand dollars and compete well with traditional Cartesian printers.

References

1. ^{{Cite web |title=Sketchy, a home-constructed drawing robot |url=http://www.jarkman.co.uk/catalog/robots/sketchy.htm |publisher=Jarkman}}
2. ^Bonev, I. (2001) Delta Parallel Robot — the Story of Success, Online article available at http://www.parallemic.org/Reviews/Review002.html
3. ^Bonev, I. The True Origins of Parallel Robots. Online article available at http://www.parallemic.org/Reviews/Review007.html
4. ^http://www.botjunkie.com/2009/11/03/adept-quattro-is-fastest-ever-for-the-moment/
5. ^{{cite patent|US|4976582}}
6. ^{{cite news |url= http://sti.epfl.ch/page-76362-en.html |title= Reymond Clavel, creator of the Delta Robot reflects on his career |author= Laure-Anne Pessina |date= 7 March 2012 |publisher= EPFL}}
7. ^¹Clavel, R. (1991) Conception d'un robot parallèle rapide à 4 degrés de liberté. Ph.D. Thesis, EPFL, Lausanne, Switzerland
8. ^{{cite news |url= https://spectrum.ieee.org/automaton/robotics/industrial-robots/harvard-millidelta-robot-is-tiny-and-scary-fast |title= Harvard's milliDelta Robot Is Tiny and Scary Fast |author= Evan Ackerman |date= 17 Jan 2018 |work= IEEE Spectrum}}
9. ^Merlet, J.-P., Parallel Robots, Kluwer Academic Publishers, 2000.
10. ^Miller, K., "Modeling of Dynamics and Model-Based Control of DELTA Direct-Drive Parallel Robot," Journal of Robotics and Mechatronics, Vol. 17, No. 4, pp. 344-352, 1995.
11. ^"Gallery of robots - prof. Reymond Clavel"
12. ^Reymond CLAVEL."Robots parallèles"
13. ^{{Cite web |title=Rostock (delta robot 3D printer) |url=http://www.thingiverse.com/thing:17175 |publisher=Thingiverse |author=Johann Rocholl |date=6 Feb 2012 }}
14. ^{{Cite web |title=3D printing with a delta robot that seems to simplify the concept |url=http://hackaday.com/2012/07/13/3d-printing-with-a-delta-robot-that-seems-to-simplify-the-concept/ |date=13 July 2012 |author=Mike Szczys}}
15. ^{{cite news|title=Hoosier Daddy – The Largest Delta 3D Printer In the World|url=http://www.3dprinterworld.com/article/hoosier-daddy-largest-delta-3d-printer-world|accessdate=28 September 2014|work=3D Printer World|publisher=Punchbowl Media|date=23 July 2014}}
16. ^{{cite web |title=Feeling virtual worlds |url=http://sunnybains.typepad.com/blog/2007/08/feeling-virtual.html |author= Sunny Bains |date=8 August 2007}}