Method for reducing the regenerative chatter of chip-removal machines
First Claim
1. Method for reducing regenerative chatter of a chip removal machine in that a workpiece (1) rotates in relation to a tool head (2) having at least one chip-removal tool (3, 3a, 3b, 3c) arranged at one end of the tool head (2), the tool head (2) machines walls of the workpiece (1) by means of the at least one chip-removal tool (3, 3a, 3b, 3c), the tool head (2) is vibrationally excited during the machining, a loose additional mass (mz) is moved by the vibration, which additional mass randomly touches the tool head (2) in first positions or randomly has no connection to the tool head (2) in second positions, and thus the total mass of the tool head (2) is randomly changed by the amount of the additional mass (mz) and the vibrational behaviour of the tool head (2) is changed because of the mass change and thus counteracts regenerative chatter, and in that a receptacle (51), by means of which the tool head (2) can be exchangeably placed onto a spindle, is arranged at another end of the tool head (2) opposite the one end, wherein the additional mass (mz) is of annular construction and has in the second position no contact and no connection to the tool head (2) and the wall is formed as an outer wall (71) with a radius (r1) and the corresponding wall is formed as a corresponding inner wall (72) with the corresponding radius (r2) which is greater than the radius (r1) and the additional mass (mz), which is of annular construction is held by a cramp (61) at the tool head (2).
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Abstract
A method for reducing regenerative chatter in chip-removal machines wherein a tool head (2) machines walls of a workpiece (1) by means of at least one chip-removal tool and during this machining, the tool head is vibrationally excited and a loose additional mass (mz) is moved by the vibration. The additional mass randomly touches the tool head (2) in first position or randomly has no connection to the tool head (2) in second position, and thus the total mass of the tool head (2) is randomly changed by the amount of the additional mass (mz). This change in mass of the tool head in turn changes the frequency of vibration.
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Citations
4 Claims
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1. Method for reducing regenerative chatter of a chip removal machine in that a workpiece (1) rotates in relation to a tool head (2) having at least one chip-removal tool (3, 3a, 3b, 3c) arranged at one end of the tool head (2), the tool head (2) machines walls of the workpiece (1) by means of the at least one chip-removal tool (3, 3a, 3b, 3c), the tool head (2) is vibrationally excited during the machining, a loose additional mass (mz) is moved by the vibration, which additional mass randomly touches the tool head (2) in first positions or randomly has no connection to the tool head (2) in second positions, and thus the total mass of the tool head (2) is randomly changed by the amount of the additional mass (mz) and the vibrational behaviour of the tool head (2) is changed because of the mass change and thus counteracts regenerative chatter, and in that a receptacle (51), by means of which the tool head (2) can be exchangeably placed onto a spindle, is arranged at another end of the tool head (2) opposite the one end, wherein the additional mass (mz) is of annular construction and has in the second position no contact and no connection to the tool head (2) and the wall is formed as an outer wall (71) with a radius (r1) and the corresponding wall is formed as a corresponding inner wall (72) with the corresponding radius (r2) which is greater than the radius (r1) and the additional mass (mz), which is of annular construction is held by a cramp (61) at the tool head (2).
- 2. Chip-removal machine with a tool head (2) with at least one chip-removal tool (3, 3a, 3b, 3c) arranged on one end of the tool head for machining a wall of a workpiece (1), a loose additional mass (mz) which can have randomly different positions relative to the tool head (2) and which touches the tool head (2) in first positions and which has no connection to the tool head (2) in second positions, wherein the tool head (2) has a first vibrational behaviour in the first positions and a second vibrational behaviour in the second positions and with a receptacle (51), by means of which the tool head (2) can be exchangeably placed onto a spindle, is arranged at another end of the tool head (2) opposite the one end, wherein the additional mass (mz) is of annular construction and has in the second position no contact and no connection to the tool head (2) and the wall is formed as an outer wall (71) with the radius (r1) and the corresponding wall is formed as a corresponding inner wall (72) with the corresponding radius (r2) which is greater than the radius (r1) and the additional mass (mz), which is of annular construction, is held by a cramp (61) at the tool head.
Specification