Air actuated ultrasonic tool
First Claim
1. A method for forming or bonding a plastic part, the method comprising the steps of:
- transmitting mechanical vibrations to the part at a predetermined frequency;
generating a predetermined air pressure, the predetermined air pressure corresponding to a desired actuation force; and
applying the desired actuation force to the assembly based on the predetermined air pressure, the force shaping the part into a desired form.
1 Assignment
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Accused Products
Abstract
An ultrasonic tool has an air actuated acoustic horn assembly. An electronic and pneumatic controller generates a predetermined air pressure within the tool. The horn assembly is coupled to the controller for applying a desired actuation force to a part based on the predetermined air pressure. The predetermined air pressure therefore corresponds to the desired actuation force. The horn assembly also transmits mechanical vibrations to the part at a predetermined frequency. The tool further includes an acoustic control system coupled to the horn assembly for transferring a high frequency electrical voltage to the horn assembly. Selectively applying the desired actuation force to the part based on air pressure allows a wider range of forces to be applied, and eliminates problems associated with part damage and marking.
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Citations
20 Claims
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1. A method for forming or bonding a plastic part, the method comprising the steps of:
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transmitting mechanical vibrations to the part at a predetermined frequency;
generating a predetermined air pressure, the predetermined air pressure corresponding to a desired actuation force; and
applying the desired actuation force to the assembly based on the predetermined air pressure, the force shaping the part into a desired form. - View Dependent Claims (2, 3, 4)
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5. An ultrasonic tool comprising:
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an actuation controller for generating a predetermined air pressure within the tool, the predetermined air pressure corresponding to a desired actuation force;
an air actuated acoustic horn assembly coupled to the actuation controller for applying the actuation force to a part based on the predetermined air pressure, the horn assembly transmitting mechanical vibrations to the part at a predetermined frequency; and
an acoustic control system coupled to the horn assembly, the acoustic control system transferring high frequency electrical voltage to the horn assembly. - View Dependent Claims (6, 7, 8, 9, 10, 11, 12, 13, 14)
an acoustic horn having a longitudinal bore, the acoustic horn transmitting the mechanical vibrations to the part;
a plunger mechanism nodally disposed within the longitudinal bore of the acoustic horn, the plunger mechanism having a stationary portion coupled to the horn and a movable portion; and
an air channel configuration providing an air pathway between the actuation controller and the movable portion of the plunger mechanism such that the air pressure generated by the actuation controller causes the movable portion to extend from the horn and apply the force to the part.
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7. The ultrasonic tool of claim 6 wherein the air channel configuration includes:
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an air fitting connected to the horn, the air fitting receiving air from the actuation controller;
a horn channel contained within the horn, the horn channel providing an air pathway between the air fitting and the stationary portion of the plunger mechanism; and
a plunger channel contained within the stationary portion of the plunger mechanism, the plunger channel providing an air pathway between the horn channel and the movable portion of the plunger mechanism.
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8. The ultrasonic tool of claim 6 wherein the stationary portion of the plunger mechanism includes:
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a sleeve coupled to an internal diameter of the longitudinal bore;
a shaft fitting coupled to the sleeve; and
an air cylinder coupled to the shaft fitting, the movable portion of the plunger mechanism extending through the air cylinder.
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9. The ultrasonic tool of claim 8 wherein the sleeve includes Teflon, the sleeve being press fitted into the longitudinal bore of the horn.
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10. The ultrasonic tool of claim 8 wherein the shaft fitting includes titanium.
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11. The ultrasonic tool of claim 6 wherein the movable portion of the plunger mechanism includes:
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a contact member for applying the force to the part;
a shaft coupled to the contact member, the shaft extending between the air channel configuration and the contact member such that the air pressure from the air channel configuration causes the contact member to extend from the longitudinal bore; and
a return spring coupled to the shaft and the stationary portion of the plunger mechanism such that the contact member returns to the longitudinal bore when the air pressure is discontinued.
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12. The ultrasonic tool of claim 5 wherein the actuation controller includes:
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an air supply;
a regulation system for regulating the air generated by the air supply; and
a conduit extending between the air supply and the horn assembly.
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13. The ultrasonic tool of claim 5 wherein the actuation controller selectively generates the predetermined air pressure.
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14. The ultrasonic tool of claim 13 wherein the actuation controller discontinues the predetermined air pressure while the horn assembly transmits the mechanical vibrations to the part.
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15. An air actuated acoustic horn assembly comprising:
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an acoustic horn having a longitudinal bore, the acoustic horn transmitting mechanical vibrations to a part at a predetermined frequency;
a plunger mechanism nodally disposed within the longitudinal bore of the acoustic horn, the plunger mechanism having a stationary portion coupled to the horn and a movable portion; and
an air channel configuration providing an air pathway between an actuation controller and the movable portion of the plunger mechanism such that air pressure generated by the actuation controller causes the movable portion to extend from the horn and apply a force to the part. - View Dependent Claims (16, 17, 18, 19, 20)
an air fitting connected to the horn, the air fitting receiving air from the actuation controller;
a horn channel contained within the horn, the horn channel providing an air pathway between the air fitting and the stationary portion of the plunger mechanism; and
a plunger channel contained within the stationary portion of the plunger mechanism, the plunger channel providing an air pathway between the horn channel and the movable portion of the plunger mechanism.
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17. The horn assembly of claim 15 wherein stationary portion of the plunger mechanism includes:
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a sleeve coupled to an internal diameter of the longitudinal bore;
a shaft fitting coupled to the sleeve; and
an air cylinder coupled to the shaft fitting, the movable portion of the plunger mechanism extending through the air cylinder.
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18. The horn assembly of claim 17 wherein the sleeve is a Teflon sleeve, the Teflon sleeve being press fitted into the longitudinal bore of the horn.
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19. The horn assembly of claim 17 wherein the shaft fitting is a titanium shaft fitting.
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20. The horn assembly of claim 15 wherein the movable portion of the plunger mechanism includes:
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a contact member for applying the force to the part;
a shaft coupled to the contact member, the shaft extending between the air channel configuration and the contact member such that the air pressure from the air channel configuration causes the contact member to extend from the longitudinal bore; and
a return spring coupled to the shaft and the stationary portion of the plunger mechanism such that the contact member returns to the longitudinal bore when the air pressure is discontinued.
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Specification