Managing device for an umbilical member of a robot and a robot having the managing device

Information

  • Patent Application
  • 20060196300
  • Publication Number
    20060196300
  • Date Filed
    November 22, 2005
    19 years ago
  • Date Published
    September 07, 2006
    18 years ago
Abstract
A managing device having a simple structure for an umbilical member or a conduit and a robot having the managing device, by which an interference region of the conduit is reduced as much as possible and the undesirable excess length of the conduit may be cancelled without using an auxiliary device. A first conduit supporting member is arranged on an upper arm of the robot and a second conduit supporting member is arranged on a wrist element of the robot. The conduit is fixed to or twistably supported by the first and second supporting member. Further, the conduit is held by a holding member, mounted between the first and second supporting member, in particular, adjacent to the side of a forearm of the robot, such that the conduit may slide relative to the holding member and may rotate about axes along and perpendicular to the sliding direction of the conduit. As the holding member is positioned as close to the forearm as possible, a gap between the conduit and the forearm is reduced and the possibility of interference between the conduit and an external equipment may be minimized.
Description
BACKGROUND ART

1. Technical Field


The preset invention relates to a managing device, for an umbilical member including a cable and/or a tube of an industrial robot, and a robot having the managing device.


2. Description of the Related Art


Generally, when an industrial robot is used for an operation, the robot is required to be provided with an umbilical member including a cable and/or a tube for transmitting power or a signal to an end effector attached to the end of a wrist element of the robot. When the umbilical member is arranged around the wrist element of a robot arm, the umbilical member may contact the arm or the other external equipment and may be worn or damaged. In order to avoid such an inconvenience, several configurations has been proposed.


For example, Patent Publication No. EP1060057 discloses a configuration in which a flexible conduit, containing a cable and a tube, is arranged along a forearm of a robot, by means of a holding means arranged on the forearm, and slidably holds the conduit.


In the configuration disclosed in the above publication, as the holding means is positioned at generally a center of an upper surface of the forearm, it is difficult to closely fit the holding means to the forearm. Therefore, there is a gap between the conduit and the forearm, resulting in that an interference area of the forearm may be enlarged. When an angle between the sliding direction of the conduit at the holding means and the longitudinal direction of the forearm direction is relatively small, the conduit wound around the forearm cannot be unwound due to the large sliding resistance, as the direction of movement or contraction of the conduit is different from the sliding direction of the conduit at the holding means. Therefore, in the configuration disclosed on the above publication, it is necessary to arrange an auxiliary element such as a spring on the part of the conduit for facilitating the sliding motion of the conduit at the holding means, in order to avoid the occurrence of an excess length, or a slack, in the conduit.


SUMMARY OF THE INVENTION

Therefore, an object of the present invention is to provide a managing device for an umbilical member having a simple structure, and a robot having the managing device, by which an interference region of the conduit is reduced as much as possible and an undesirable excess length of the conduit may be avoided without using the above spring, or the like.


Concretely, according to one aspect of the present invention, there is provided a managing device for supporting an umbilical member corresponding to the motion of an industrial robot, the robot having: an upper arm; a forearm movably connected to the upper arm via a joint; a wrist element rotatably mounted to the end of the forearm; an end effector attached to the wrist element; and a flexible umbilical member connected the end effector, wherein the managing device comprises: a first supporting member, mounted on the upper arm, for fixing or twistably supporting the umbilical member; a holding member, mounted on the forearm adjacent to the joint, for holding the umbilical member such that the umbilical member may slide relative to the holding member and may rotate about axes along and perpendicular to the sliding direction of the umbilical member; and a second supporting member, mounted on the wrist element so as to integrally rotate with the wrist element, for fixing or twistably supporting the umbilical member; wherein the first and second supporting members and the holding member are positioned such that a slack of the umbilical member generated by the rotation of the wrist element is positioned between the first supporting member and the holding member.


The holding member is preferably positioned near the joint such that the slack of the umbilical member is positioned around the joint.


The managing device may further comprise a means for reducing the sliding resistance between the forearm and the umbilical member.


The means for reducing the sliding resistance may be a protrusion arranged on a site of forearm abutting the umbilical member. Alternatively, the means for reducing the sliding resistance may be a protrusion arranged on a site of the umbilical member abutting the forearm. In both cases, the protrusion may be a ring member.


According to another aspect of the present invention, there is provided a robot having a managing device according to the invention.




BRIEF DESCRIPTION OF THE DRAWINGS

The above and other objects, features and advantages of the present invention will be made more apparent from the following description of the preferred embodiments thereof, with reference to the accompanying drawings, wherein:



FIGS. 1
a and 1b are a top view and a right-side view, respectively, of a total configuration including a managing device of the invention, each indicating from an upper arm to an end effector of a robot;



FIGS. 2
a to 2c are a top view, a left-side view and a right-side view, respectively, of the configuration of FIGS. 1a and 1b in which a wrist element of the robot rotates; and



FIG. 3 is a view similar to FIG. 1a, indicating another embodiment of a ring member.




DETAILED DESCRIPTION

Embodiments of the invention will be described with reference to the drawings.



FIGS. 1
a and 1b show a total configuration of a managing device of the invention, each showing a robot from an upper arm to an end effector. A robot 1 includes an upper arm 10; a forearm 12 movably connected to the upper arm 10 via a joint 11; a wrist element 14 rotatably mounted to the end of the forearm 12; and an end effector 16 attached to the wrist element 14. Power and a signal are sent to the end effector 16 by means of an umbilical member 18 constituted by a flexible conduit through which a cable and a tube extend. The umbilical member 18 is arranged along a base (not shown) of the robot 1, the upper arm 10, the forearm 12 and the wrist element 14 and connected to the end effector 16.


As shown in FIGS. 1a and 1b, a first supporting member or a conduit supporting member 20 is arranged on the upper arm 10, and a second supporting member or a conduit supporting member 22 is arranged on the wrist element 14. The umbilical member or the conduit 18 is fixed or twistably supported by the first and second supporting members 20 and 22. Further, the conduit 18 is held by a holding means 24 arranged between the first and second supporting members 20 and 22 and, in particular, adjacent to the side of the forearm 12 and preferably near the joint 11, such that the conduit 18 may slide relative to the holding member 24 and may rotate about axes along and perpendicular to the sliding direction of the conduit. The holding member 24 has, for example, a ring shape as shown. Preferably, the holding member 24 is positioned at a site on the forearm 12 close to the joint 11 as possible (for example, a proximal end of the forearm 12). Due to this configuration, a gap between the conduit 18 and the forearm 12 is reduced, thereby the possibility of interference between the conduit and an external equipment may be minimized. In a first state, as shown in FIGS. 1a and 1b, in which the conduit 18 is not wound around the forearm 12, the conduit 18 between the first supporting member 20 and the holding member 24 (in particular, near the joint 11) has an excess length or a slack of the conduit.



FIGS. 2
a to 2c show a second state, in which the conduit 18 is wound around the forearm 12 by the rotation of the wrist element 14. When the wrist element 14 rotates, the second supporting member 22 is also rotated by the rotation of the wrist element 14. Therefore, the conduit 18 is drawn toward the end effector 16 and slides relative to the holding member 24 to some extent. Further, the conduit 18 is wound on to the forearm 12 between the first and second supporting members 20 and 22. Therefore, the conduit 18 is as close to the forearm 12 as possible and the possibility of interference between the conduit and the external equipment may be remarkably reduced. In addition, in order to make the motion of the conduit smoother, a protrusion (for example, a ring member 26 as shown) may be arranged on a peripheral surface of the forearm 12. Due to the protrusion, a contact area between the conduit 18 and the peripheral surface of the forearm 12 may be zero or reduced, whereby a frictional force or a sliding resistance acting on the conduit 18 being wounded on to the forearm 12 is remarkably reduced. Instead of the ring member 26 for reducing the contact area, a protrusion (for example, a ring member 26′ similar to the ring member 26), as shown in FIG. 3, may be arranged on the conduit 18, not on the forearm 12.


However, when the wrist element 14 rotates from the second state to the first state, the conduit 18 between the conduit supporting members 20 and 22 is unwounded from the forearm 12. As the device of Patent Publication No. EP1060057 does not have a member corresponding to the second supporting member 22 of the present invention, the unwounded conduit may be apart from the forearm and hang down such that the conduit undesirably sags. Therefore, in the device of the publication, it may be necessary to provide a spring or the like so as to absorb the sag. In the present invention, on the other hand, as the sag of the conduit or the separation of the conduit from the forearm is avoided by the second supporting member 22, the longitudinal direction of the excess length part of the conduit 18, in the first state, generated by the sliding motion of the conduit relative to the holding member 24 toward the end effector 16 may be kept to be almost the same as the sliding direction of the conduit at the holding member 24. Therefore, when the wrist element 14 rotates such that the conduit 18 is unwounded from the forearm 12, the conduit 18 may smoothly slide, at the holding member 24, toward the upper arm 10, without using an auxiliary means such as a spring. As described above, by means of the holding means 24 positioned near the joint 11, the conduit 18 in the second state may be fitted to the forearm 12 over the whole length thereof, whereby an interference region of the conduit may be minimized. Further, advantageously, the excess length of the conduit 18 may be generated around the joint 11 where interference does not need to be taken into consideration.


By a suitable orientation or an angle of the holding member or the ring 24, the motion of the conduit 18 may be made more smooth. The preferable angle of the holding member 24 may vary according to the dimension and the material of the conduit 18 and the size of the forearm. In many cases, it is preferable that an angle between the longitudinal direction of the conduit 18 at the holding member 24 and the longitudinal direction of the forearm 12 is within a range of 20-70 degree.


It greatly depends on a distance L between the second supporting member 22 on the wrist element 14 and the holding member 24 (as shown in FIG. 1b), whether the conduit 18 may smoothly slide relative to the holding member 24 toward the upper arm (i.e., from the second state to the first state). Therefore, if the length of the forearm 12 is relatively long, as shown in FIG. 1a or 2a, the second supporting member 22 is preferably displaced toward the forearm 12 to some extent by means of a bracket 28 attached to the wrist element 14, so as to suitably shorten the distance L corresponding to the dimension and the material of the conduit 18.


According to the invention, the excess length or the slack of the umbilical member generated by the rotation of the wrist element is positioned between the first supporting member and the holding member. Therefore, an excess length is not generated around the forearm where interference may cause a problem.


While the invention has been described with reference to specific embodiments chosen for the purpose of illustration, it should be apparent that numerous modifications could be made thereto, by one skilled in the art, without departing from the basic concept and scope of the invention.

Claims
  • 1. A managing device for supporting an umbilical member corresponding to the motion of an industrial robot, the robot having: an upper arm; a forearm movably connected to the upper arm via a joint; a wrist element rotatably mounted to the end of the forearm; an end effector attached to the wrist element; and a flexible umbilical member connected the end effector, wherein the managing device comprises: a first supporting member, mounted on the upper arm, for fixing or twistably supporting the umbilical member; a holding member, mounted on the forearm adjacent to the joint, for holding the umbilical member such that the umbilical member may slide relative to the holding member and may rotate about axes along and perpendicular to the sliding direction of the umbilical member; and a second supporting member, mounted on the wrist element so as to integrally rotate with the wrist element, for fixing or twistably supporting the umbilical member; and wherein the first and second supporting members and the holding member are positioned such that a slack of the umbilical member generated by the rotation of the wrist element is positioned between the first supporting member and the holding member.
  • 2. The managing device as set forth in claim 1, wherein the holding member is positioned near the joint such that the slack of the umbilical member is positioned around the joint.
  • 3. The managing device as set forth in claim 1, further comprising a means for reducing the sliding resistance between the forearm and the umbilical member.
  • 4. The managing device as set forth in claim 3, wherein the means for reducing the sliding resistance is a protrusion arranged on a site of forearm abutting the umbilical member.
  • 5. The managing device as set forth in claim 4, wherein the protrusion is a ring member.
  • 6. The managing device as set forth in claim 3, wherein the means for reducing the sliding resistance is a protrusion arranged on a site of the umbilical member abutting the forearm.
  • 7. The managing device as set forth in claim 6, wherein the protrusion is a ring member.
  • 8. A robot having the managing device as set forth in claim 1.
Priority Claims (1)
Number Date Country Kind
2004-344008 Nov 2004 JP national