摘要:
A wrist mechanism comprising a pipe 52 extended in relation to a front .alpha.-axis among the three axes of motion (.alpha.-axis, .beta.-axis, .gamma.-axis) of a wrist, on a center axis A--A of turning motion through the center of an .alpha.-axis reduction gear, a universal pipe coupling 61 provided in relation to a .beta.-axis on the center axis B--B of motion, a pipe 51 having one end connected to the pipe 52 and the other end connected to the pipe coupling 61, and a hose 4 extended along a support arm 3 and connected through the pipe coupling 61 to the pipe 51. The wrist mechanism is incorporated into a robot for work in which a fluid is used, such as an application of an adhesive and sealant.
摘要:
A bevel gear unit comprising a bevel gear (11), a ball bearing (B.sub.1) coaxially mounted on the shaft of the bevel gear (11) and in contact with the back surface (17) thereof, a double spacer including an inner race spacer (12) and an outer race spacer (13) and mounted on the shaft of the bevel gear (11) behind the ball bearing (B.sub.1), ball bearings (B.sub.2, B.sub.3) mounted on the shaft of the bevel gear (11) behind the double spacer, and a bearing nut (15) screwed onto a threaded portion of the shaft of the bevel gear (11) behind the ball bearings (B.sub.2, B.sub.3). The axial length (l.sub.1) of the inner race spacer (12) is made smaller than the axial length (l.sub.2) of the outer race spacer (13) by a preloading allowance (.delta.), and the outer race spacer (13) is provided with threaded holes (t.sub.1) in the rear surface (f.sub.1) thereof. When applied to a mechanism having a plurality of coaxial bevel gears, particularly, to a wrist mechanism for an industrial robot, the bevel gear unit facilitates the preloading of the bearings.
摘要:
An industrial robot (10) comprising a cylindrical fixed robot body (14), a swivel body (26) mounted on the fixed robot body (14), a robot arm mechanism (60, 64) pivotally joined to the swivel body (26), and a robot wrist (66) connected to the robot arm mechanism is provided with a cable guide member (30). The cable guide member (30) is extended along the outside of the fixed robot body (14) and has a lower end pivotally joined to the fixed robot body (14) by a lower bearing member (42) and an upper end pivotally joined to the swivel body (26) by an upper bearing member (40). The cables (50) of the industrial robot (10) extending from the lower end of the fixed robot body (14) are held by cable holding section (32) formed in the middle portion of the cable guide member (30) and are extended from the upper end of the cable holding member (30) through the swivel body (26) toward the robot arm mechanism.
摘要:
An apparatus for setting an industrial robot at the standard position comprises a block (19) to be measured, which is attached to a top end portion (18) of a wrist of the industrial robot, and a supporting member (23) for the measurement, which is attached to a fixing base (11) of the industrial robot. The block has three planes (20, 21, 22), orthogonal to one another, to be measured, and the block is positioned to the top end portion of the wrist so that the three planes to be measured are set at predetermined positions relative to the top end portion of the wrist. The supporting member has three frames (24, 25, 26) orthogonal to one another, and the supporting member is positioned relative to the fixing base so that the three frames take predetermined positions relative to three-axis orthogonal coordinates predetermined on the basis of the fixing base. By a plurality of dial gauges (27 through 32; 37 through 42), the positions of the planes of the block are measured. The dial gauges display predetermined values only when the planes to be measured of the block are set at predetermined positions relative to the frames of the supporting member.
摘要:
The industrial robot comprises a lower arm (13) provided on a robot body (12) pivotably about a first horizontal axis (C1). The lower arm (13) has provided thereon a forearm (14) pivotably about a second horizontal axis (C2). The forearm (14) is rotationally driven by a drive such as a motor (16). The robot body (12) has provided thereon a rotating disk (17) interlocked with the pivoting of the forearm (14) about the second axis (C2) and rotatable about the first axis (C1). Also the rotating disk (17) has secured thereon a first wheel (18) and coaxial therewith, the diameter of which is smaller than that of the disk. There is further provided a tension spring assembly (19) having one end thereof connected to the robot body (12) and which has rotatably mounted at the other end thereof a second wheel (21) having nearly the same diameter as that of the first wheel. Also provided is a chain (22) having one end thereof connected to the rotating disk (17) and the other end engaged on the first wheel (18). This chain (22) is engaged on the outer circumference of the second wheel (21) while pulling the tension spring assembly (19). The one end of the chain (22) is so disposed on the rotating disk (17) that when the upper end of the forearm (14) is directed normally downward, the chain portion (22b) between the rotating disk (17) and the second wheel (21) is substantially parallel to the chain portion (22c) between the first and second wheels (18) and (21).
摘要:
An apparatus for guiding a cable of an industrial robot having a support casing and a swivel casing axially supported by a swivel shaft bearing includes a cable guide. The guide has an end of an upper arm axially supported on a swivel axis inside the swivel casing, and an end of a lower arm axially supported on the swivel axis inside the support casing. A back column formed between the upper and lower arms guide passes through first and second arcuate cut-out portions provided in the swivel casing and support casing. A cable is passed from the support casing into the swivel casing along the cable guide back column, and moves proportionately to angular movement of the swivel casing.
摘要:
An apparatus for limiting range of motion of an industrial robot in accordance with the invention includes an indicating section (7) for indicating e.g. angles of rotation provided on a stationary side (1) of the swivel portion of an axis about which swiveling motion is possible. A range limiting member (6) having a dog and a stopper is movably disposed on the indicating section (7). When the industrial robot attempts to rotate beyond a stipulated range of rotation during operation, a limit member (81) provided on a movable side (2) of the axis portion contacts the dog (61) on the stationary side (1) to detect overtravel, whereby a warning is issued to the effect that the stipulated range of rotation has been exceeded. When the robot attempts to rotate further due to inertia, a shock absorber (82) strikes a stopper mechanism (62) to prevent excessive rotation.
摘要:
An industrial robot for use in TIG arc welding or the like includes plastic covers for motors or the like. The plastic covers having an electrically conductive coating, and thus have an electrically conductive property, and are connected to a robot body, to thereby obtain a shielding effect similar to that of iron plate covers or the like.
摘要:
A cable arranging device for an industrial robot has a cylindrical support casing (2), a swing casing (3) supported on the support casing (2) and swingable about the axis of a swing shaft, and cables (5) interconnecting the swing casing (3) and the support casing (2). One end of a substantially C-shaped cable guide (4) is pivotally supported in the swing casing on the axis of the swing shaft, the other end of the cable guide is pivotally supported in the support casing on the axis of the swing shaft. Spaces for allowing the cable guide (4) to swing therein through a prescribed angle are defined respectively in the swing casing (3) and the support casing (2).
摘要:
An industrial robot is able to automatically set the operating conditions thereof depending on a position of installation. The motion of a robot unit is input and controlled by a robot control unit. A first data storage portion of the robot control unit is provided with a storage region preliminarily storing (a) data about installation positions of the robot unit with respect to a reference installation position of the same robot unit, and (b) date about operating conditions with respect to the positions of installation. When data about an installation position upon the use of the robot is input to the robot control unit, the data of the operating conditions, in response to the input data of the position of installation, is read from the first data storage unit, and is automatically set in a second data storage unit to control the motion of the robot unit in accordance with the operating conditions set in the second data storage unit.