Hollow vibrational horn
First Claim
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1. A vibrational horn for imparting energy at a selected wavelength, frequency, and amplitude, wherein the horn comprises:
- a shaft having an axial input end, wherein the shaft receives vibrational energy at the axial input end;
a cylinder having an inner surface, an outer surface, and first and second opposing end surfaces, wherein the shaft is located adjacent the first end surface and the second end surface serves as a welding surface which applies vibrational energy to an object, wherein the cylinder is hollow and has an outer diameter that is greater than the diameter of the shaft, and wherein the welding surface moves as the cylinder expands and contracts with the application of vibrational energy to the input end of the shaft; and
a disk portion connecting the inner shaft to the cylinder, wherein the shaft transmits the vibrational energy to the disk portion and the disk portion flexibly transmits the vibrational energy to the cylinder, wherein regardless of whether the length of the cylinder is an odd or even integer multiple of approximately one-half wavelength of the horn material, the first end surface of the cylinder moves out of phase with the movement of the axial input end of the horn.
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Abstract
The horn includes an outer cylinder and an inner shaft connected by a disk. The shaft has an axial input end, and receives vibrational energy at the axial input end and transmits the vibrational energy to the cylinder. The cylinder is hollow and has an inner surface, an outer surface, and first and second opposing end surfaces. The second end surface serves as a welding surface which applies vibrational energy to an object. The welding surface moves with the application of vibrational energy to the input end of the shaft. The disk portion connects the inner shaft to the cylinder and transmits the vibrational energy from the inner shaft to the cylinder.
26 Citations
10 Claims
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1. A vibrational horn for imparting energy at a selected wavelength, frequency, and amplitude, wherein the horn comprises:
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a shaft having an axial input end, wherein the shaft receives vibrational energy at the axial input end; a cylinder having an inner surface, an outer surface, and first and second opposing end surfaces, wherein the shaft is located adjacent the first end surface and the second end surface serves as a welding surface which applies vibrational energy to an object, wherein the cylinder is hollow and has an outer diameter that is greater than the diameter of the shaft, and wherein the welding surface moves as the cylinder expands and contracts with the application of vibrational energy to the input end of the shaft; and a disk portion connecting the inner shaft to the cylinder, wherein the shaft transmits the vibrational energy to the disk portion and the disk portion flexibly transmits the vibrational energy to the cylinder, wherein regardless of whether the length of the cylinder is an odd or even integer multiple of approximately one-half wavelength of the horn material, the first end surface of the cylinder moves out of phase with the movement of the axial input end of the horn. - View Dependent Claims (2, 3, 4, 5, 9)
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6. A vibrational horn for imparting energy at a selected wavelength, frequency and amplitude, wherein the horn comprises:
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a shaft having an axial input end, wherein the shaft receives vibrational energy at the axial input end; a cylinder having an inner surface, an outer surface, and first and second opposing end surfaces, wherein the shaft is located adjacent the first end surface and the second end surface serves as a welding surface which applies vibrational energy to an object, wherein the cylinder is hollow and has an outer diameter that is greater than the diameter of the shaft, and wherein the welding surface moves as the cylinder expands and contracts with the application of vibrational energy to the input end of the shaft; and a disk portion connecting the inner shaft to the cylinder, wherein the shaft transmits the vibrational energy to the disk portion and the disk portion transmits the vibrational energy to the cylinder, wherein the disk portion has a hollow on the side facing away from the welding surface to improve flexing of the disk.
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7. A vibrational horn for imparting energy at a selected wavelength, frequency, and amplitude, wherein the horn comprises:
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a shaft having an axial input end, wherein the shaft receives vibrational energy at the axial input end and wherein the shaft has a notch formed on the axial output end to minimize stress for a given mode of vibration; a cylinder having an inner surface, an outer surface, and first and second opposing end surfaces, wherein the shaft is located adjacent the first end surface and the second end surface serves as a welding surface which applies vibrational energy to an object, wherein the cylinder is hollow and has an outer diameter that is greater than the diameter of the shaft, and wherein the welding surface moves as the cylinder expands and contracts with the application of vibrational energy to the input end of the shaft; and a disk portion connecting the inner shaft to the cylinder, wherein the shaft transmits the vibrational energy to the disk portion and the disk portion transmits the vibrational energy to the cylinder.
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8. A vibrational horn for imparting energy at a selected wavelength, frequency, and amplitude, wherein the horn comprises:
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a shaft having an axial input end, wherein the shaft receives vibrational energy at the axial input end; a cylinder having an inner surface, an outer surface, and first and second opposing end surfaces, wherein the shaft is located adjacent the first end surface and the second end surface serves as a welding surface which applies vibrational energy to an object, wherein the cylinder is hollow and has an outer diameter that is greater than the diameter of the shaft, and wherein the welding surface moves as the cylinder expands and contracts with the application of vibrational energy to the input end of the shaft, wherein the cylinder has an undercut on the inner surface to control the displacement along the welding surface; and a disk portion connecting the inner shaft to the cylinder, wherein the shaft transmits the vibrational energy to the disk portion and the disk portion transmits the vibrational energy to the cylinder.
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10. A vibrational horn for imparting energy at a selected wavelength, frequency, and amplitude, wherein the horn comprises:
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a shaft having an axial input end, wherein the shaft receives vibrational energy at the axial input end; a cylinder having an inner surface, an outer surface, and first and second opposing end surfaces, wherein the shaft is located adjacent the first end surface and the second end surface serves as a welding surface which applies vibrational energy to an object, wherein the cylinder is hollow and has an outer diameter that is greater than the diameter of the shaft, and wherein the welding surface moves as the cylinder expands and contracts with the application of vibrational energy to the input end of the shaft; a disk portion connecting the inner shaft to the cylinder, wherein the shaft transmits the vibrational energy to the disk portion and the disk portion transmits the vibrational energy to the cylinder; and a cap placed across the second end surface of the cylinder to serve as a larger welding surface while the horn still operates as a hollow horn.
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Specification
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Current Assignee3M Company
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Original Assignee3M Company
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InventorsGerdes, Ronald W., Gopalakrishna, Haregoppa S.
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Primary Examiner(s)SELLS, JAMES D
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Application NumberUS08/942,469Time in Patent Office649 DaysField of Search156/73.1, 156/580.1, 156/580.2, 425/174.2, 264/442, 264/443, 264/445, 228/1.1, 228/110.1US Class Current156/580.2CPC Class CodesB29C 65/08 using ultrasonic vibrations...B29C 66/80 General aspects of machine ...B29C 66/81427 comprising a single ridge, ...B29C 66/81431 comprising a single cavity,...B29C 66/81433 being toothed, i.e. compris...B29C 66/8167 Quick change joining tools ...B29C 66/9512 by controlling their vibrat...B29C 66/9513 characterised by specific v...B29C 66/9516 by controlling their vibrat...B29C 66/9517 characterised by specific v...G10K 11/025 horns for impedance matchin...
