Industrial robot with a compound drive mechanism

Details Industrial robot with a compound drive mechanism Industrial robot with a compound drive mechanism

1992-05-26

1993-10-12

Herrmann, Allan D.

Machine element or mechanism

Mechanical movements

Reciprocating or oscillating to or from alternating rotary

74479BP, 901 23, F16H 2520, B25J 1800

Patent

active

052515001

DESCRIPTION:

BRIEF SUMMARY
DESCRIPTION



TECHNICAL FIELD

The present invention generally relates to a drive mechanism for an industrial robot, and to improvements in a compound drive mechanisms for an industrial robot. More particularly, the present invention relates improvements in a compound drive mechanism for an industrial robot, capable of independently driving an output element for a simultaneous, compound linear motion along the axis thereof and a rotational motion about the axis thereof.
A compound drive mechanism in accordance with the present invention for an industrial robot enables a rotation-drive motor arranged at a fixed position to give a rotational motion to a movable output element capable of being linearly moved by a linear-motion drive motor along an axis thereof via a ball-and-spline means, and reduces a load applied to the linear-motion drive motor to thereby enable the employment of a motor having a load capacity substantially equal to that of the rotation-drive motor as the linear-motion drive motor. The compound drive mechanism can be nonexclusively but effectively incorporated into an industrial robot, particularly an arm assembly thereof provided with a plurality of arm means as movable output elements.


BACKGROUND ART

The arm mechanism provided on the robot unit of a cylindrical coordinates robot or a polar coordinates robot among industrial robots is provided with a robot arm assembly that extends telescopically in opposite directions along an axis. As is generally known, the extremity of such a linear motion robot, in general, is provided directly or through another robot arm with a revolving robot wrist, and a mechanism provided with an end effector, such as a robot hand, is held on the robot wrist.
An industrial robot having a similar linear motion robot arm is used prevalently, for example, as a handling robot for attaching a work to a machine tool, removing the work from the machine tool and transporting the work. Such a handling robot is disclosed in Japanese Examined Pat. Publication (Kokoku) No. Sho 58-41990.
Such an industrial robot with a linear motion robot arm, in general, is provided with a linear motion robot arm interlocked with a linear-motion mechanism, such as a ball-and-screw mechanism comprising a ball-and-screw shaft which is driven for rotation by a drive motor, and a ball-and-screw nut engaging the ball-and-screw shaft for a linear movement along the ball-and-screw shaft. The linear motion robot arm is connected to a rotative-drive unit including a rotative-drive motor and a rotary shaft.
The robot assemblies of the conventional industrial robots including the industrial robot disclosed in Japanese Examined Pat. Publication No. Sho 58-41990 have a compound structure in which a linear motion robot arm functions as a support member on the side of the base of the robot unit, distal movable components remote from the base of the robot unit, including other robot arms and a robot wrist, are arranged rotatably, and rotation drive motors, reduction gears and the like are mounted on the support member. Accordingly, the linear-motion drive motor for the linear motion robot arm is required to have an output capacity capable of linearly moving the heavy components including the rotation drive motor and the reduction gear mounted on the distal components in addition to the linear motion robot arm. Therefore, the linear-motion drive motor for driving the linear motion robot arm nearer to the base must necessarily have a greater output capacity. A motor having a large output capacity is expensive and has a large construction, the size of the linear motion robot arm provided with the motor having a large output capacity is necessarily large, and consequently, the robot unit provided with such a large linear motion robot arm requires an increased space for installation and motion, which is disadvantageous.


DISCLOSURE OF THE INVENTION

Accordingly, an object of the present invention is to provide a compound drive mechanism for an industrial robot, eliminating those disadvantages.
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REFERENCES:
patent: 2630022 (1953-03-01), Terdina
patent: 2660281 (1953-11-01), Ochtman
patent: 3717231 (1973-02-01), Kaufeldt
patent: 3803927 (1974-04-01), Lawler
patent: 3805629 (1974-04-01), Martin et al.
patent: 4614128 (1986-09-01), Fickler
patent: 4864880 (1989-09-01), Grant et al.

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