Gantry assembly for use in additive manufacturing system
First Claim
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1. A gantry assembly having a first axis and a second axis that define a plane, the gantry assembly comprising:
- a first bearing shaft extending along the first axis, and operably biased in a direction along the second axis;
a carriage slidably engaged with the first bearing shaft, and comprising only three bearings;
a second bearing shaft operably supported by the carriage, wherein the second bearing shaft extends along the second axis and is operably biased in a direction along the first axis;
a third bearing shaft extending along the first axis substantially parallel to the first bearing shaft, and operably biased in a direction along the second axis such that the first bearing shaft and the second bearing shaft are operably biased toward one another and wherein the only three bearings of the carriage engage the first and third bearing shafts with a triangular bearing arrangement to reduce pivoting of the carriage;
a tool-head mount slidably engaged with the second, bearing shaft;
a single drive belt secured to the tool-head mount;
a first motor having a first drive shaft engaged with the single drive belt; and
a second motor having a second drive shaft also engaged with the single drive belt, wherein the first motor and the second motor are configured to operate independently to rotate the single drive belt in manners that move the carriage along the first bearing shaft and that move the head-tool mount along the second bearing shaft based on relative rotational directions and rotational rates between the first drive shaft and the second drive shaft, so as to allow movement of the tool-head mount in any direction by a selected combination of movement along the first axis and the second axis in the plane to arrive at any coordinate location within the plane.
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Abstract
A gantry assembly for use in an additive manufacturing system, the gantry assembly comprising a first bearing shaft, a carriage slidably engaged with the first bearing shaft, and a second bearing shaft operably supported by the carriage, the second linear bearing extending along a second axis. The gantry assembly also comprises a tool-head mount slidably engaged with the second linear bearing, a drive belt secured to the tool-head mount, a first motor having a first drive shaft engaged with the drive belt, and a second motor having a second drive shaft engaged with the drive belt.
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Citations
18 Claims
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1. A gantry assembly having a first axis and a second axis that define a plane, the gantry assembly comprising:
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a first bearing shaft extending along the first axis, and operably biased in a direction along the second axis; a carriage slidably engaged with the first bearing shaft, and comprising only three bearings; a second bearing shaft operably supported by the carriage, wherein the second bearing shaft extends along the second axis and is operably biased in a direction along the first axis; a third bearing shaft extending along the first axis substantially parallel to the first bearing shaft, and operably biased in a direction along the second axis such that the first bearing shaft and the second bearing shaft are operably biased toward one another and wherein the only three bearings of the carriage engage the first and third bearing shafts with a triangular bearing arrangement to reduce pivoting of the carriage; a tool-head mount slidably engaged with the second, bearing shaft; a single drive belt secured to the tool-head mount; a first motor having a first drive shaft engaged with the single drive belt; and a second motor having a second drive shaft also engaged with the single drive belt, wherein the first motor and the second motor are configured to operate independently to rotate the single drive belt in manners that move the carriage along the first bearing shaft and that move the head-tool mount along the second bearing shaft based on relative rotational directions and rotational rates between the first drive shaft and the second drive shaft, so as to allow movement of the tool-head mount in any direction by a selected combination of movement along the first axis and the second axis in the plane to arrive at any coordinate location within the plane. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. In an additive manufacturing system having a housing frame, a gantry assembly comprising:
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a first pair of bearing shafts operably supported by the housing frame and the bearing shafts of the first pair being operably biased toward one another; a carriage comprising only three bearings that slidably engage the first pair of bearing shafts with a triangular bearing arrangement to reduce pivoting of the carriage, wherein the slidable engagement between carriage and the first pair of bearing shafts biases at least one bearing shaft of the first pair of bearing shafts in a direction that is substantially orthogonal to a longitudinal length of the at least one bearing shaft; a second pair of bearing shafts operably supported by the carriage, the second pair of bearing shafts being substantially orthogonal to the first pair of bearing shafts and the bearing shafts of the second pair being operably biased toward one another; a head-tool mount slidably engaged with the second pair of bearing shafts and configured to move along the second pair of bearing shafts wherein movement of the head-tool mount biases at least one bearinshaft of the second pair of bearing shafts in a direction that is substantially orthogonal to a lateral length of the at least one bearing shaft; a drive belt secured to the head-tool mount; a first motor operably retained by the housing frame and engaged with the drive belt; and a second motor operably retained by the housing frame and engaged with the drive belt, wherein the first motor and the second motor are configured to operate independently of each other to rotate the drive belt in manners that move the carriage along the first pair of bearing shafts and that move the head-tool mount along the second pair of bearing shafts based on relative rotational directions and rotational rates between the first drive shaft and the second drive shaft, so as to allow movement of the tool-head mount in a selected direction or combination of directions along the respective bearing shafts to arrive at any coordinate location within a planar workspace wherein the drive belt is the only belt supporting said movement of the tool head to any coordinate location within the planar workspace. - View Dependent Claims (10, 11, 12, 13, 14, 15)
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16. A method for operating a gantry assembly in an additive manufacturing system, the method comprising:
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providing a single drive belt that is engaged with a first drive shaft of a first motor, a second drive shaft of a second motor, a first pulley, a second pulley, and a plurality of third pulleys, the plurality of third pulleys being rotatably mounted to a carriage that is slidable along a first pair of bearing shafts that extend along a first axis and are operably biased toward one another in a direction orthogonal to a longitudinal length of at least one bearing shaft of the first pair of bearing shafts, wherein the carriage comprising only three bearings that engage the first pair of bearing shafts with a triangular bearing arrangement to reduce pivoting of the carriage, and wherein the single drive belt is also secured to a tool-head mount that is supported by the carriage and that is slidable along a second pair of bearing shafts that are supported by the carriage and extend along a second axis that is substantially orthogonal to the first axis and the second pair of bearing shafts being operably biased toward one another in a direction orthogonal to a lateral length of at least one bearing shaft in the second pair of bearing shafts; selectively operating the first drive motor and the second drive motor independently of each other to rotate the single drive belt in manners that move the carriage in directions along the first axis, that move the tool-head mount in directions along the second axis relative to the carriage, or combinations thereof, so as to move the tool-head mount in selected directions along each axis to any desired coordinate location within a plane defined by the first axis and the second axis; biasing at least one of the first bearing shafts substantially along the second axis while selectively operating the first drive motor and the second drive motor; and biasing at least one of the second bearing shafts substantially along the first axis while selectively operating the first drive motor and the second drive motor. - View Dependent Claims (17, 18)
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Specification