IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0347546
(2008-12-31)
|
등록번호 |
US-8398394
(2013-03-19)
|
우선권정보 |
DE-10 2008 009 623 (2008-02-18) |
발명자
/ 주소 |
- Sauter, Johannes
- Bürk, Richard
|
출원인 / 주소 |
- Kaltenbach & Voigt GmbH & Co. KG
|
대리인 / 주소 |
Marshall, Gerstein & Borun LLP
|
인용정보 |
피인용 횟수 :
3 인용 특허 :
18 |
초록
▼
A system for driving an electric handpiece in response to a pneumatic control signal may provide for fast interchange of handpieces, self-calibration and wide dynamic range of operation with precise speed control. The system may be incorporated into virtually any dental treatment center using tradit
A system for driving an electric handpiece in response to a pneumatic control signal may provide for fast interchange of handpieces, self-calibration and wide dynamic range of operation with precise speed control. The system may be incorporated into virtually any dental treatment center using traditional pneumatic drive handpieces, and a conversion kit may facilitate such conversion. The system may provide not only for controlling the speed and torque of a tool coupled to an electric drive handpiece responsive to a pneumatic control signal, it may also provide for coupling cooling air and treatment media, such as air and/or water to the handpiece. Coupling of a handpiece to an operating base of the system, including coupling of media lines and electrical connections may be made with a simple press and twist action using quick connection structure.
대표청구항
▼
1. A dental treatment center comprising: a self-calibrating pneumatic-to-electric handpiece controller, the controller having a port for coupling an operator controlled source of compressed air to the handpiece controller, the handpiece controller being configured to automatically determine a transf
1. A dental treatment center comprising: a self-calibrating pneumatic-to-electric handpiece controller, the controller having a port for coupling an operator controlled source of compressed air to the handpiece controller, the handpiece controller being configured to automatically determine a transfer function optimally suitable for an air pressure of the compressed air source, and convert the air pressure to an electric signal, the electric signal being based upon the transfer function and the air pressure; andan electric handpiece electrically coupled to the handpiece controller, the electric handpiece configured to be driven by the electric signal from the handpiece controller, the electric signal determining a speed of rotation of the electric handpiece,wherein the controller is configured to determine the transfer function upon an initial usage of the electric handpiece and a periodically updated transfer function during usage of the electric handpiece, the updated transfer function being based on a measured maximum air pressure from the source of compressed air. 2. The dental treatment center of claim 1, the controller including a non-volatile memory adapted to store the transfer function from a first usage of the electric handpiece and to use the stored transfer function during a second usage of the electric handpiece. 3. The dental treatment center of claim 2, the controller further being configured to modify the stored transfer function for use during the second usage. 4. The dental treatment center of claim 1, wherein the maximum pressure of the source of compressed air is measured continuously. 5. The dental treatment center of claim 4, wherein a further reference point of the transfer function corresponds to a minimum air pressure. 6. The dental treatment center of claim 5, wherein the transfer function is linear between the two reference points. 7. The dental treatment center of claim 4, comprising a non-volatile memory for the storage of the determined maximum pressure. 8. The dental treatment center of claim 7, comprising an input element for manually deleting the stored maximum pressure. 9. The dental treatment center of claim 7, wherein the electric handpiece comprises a motor, and upon each motor start procedure, the handpiece controller is configured to reduce the stored maximum pressure a predetermined amount. 10. The dental treatment center of claim 4, wherein the handpiece controller is configured to determine a speed of rotation value for an electric motor of the electric handpiece corresponding to a current air pressure based on the transfer function. 11. The dental treatment center of claim 4, wherein the handpiece controller is configured to provide, as a control signal for the electric handpiece, a variable electrical supply current for an electric motor of the electric handpiece. 12. The dental treatment center of claim 1, wherein the electric handpiece includes identification circuitry. 13. The dental treatment center of claim 12, wherein the identification circuitry includes a calibration profile. 14. The dental treatment center of claim 13, wherein the identification circuitry comprises a resistor. 15. A dental treatment center comprising: a self-calibrating pneumatic-to-electric handpiece controller, the controller having a port for coupling an operator controlled source of compressed air to the handpiece controller, the handpiece controller being configured to automatically determine a transfer function for an associated electric handpiece optimally suitable for an air pressure of the compressed air source, and convert the air pressure to an electric signal to drive the electric handpiece, the electric signal being based upon the transfer function and the air pressure, the electric signal determining a speed of rotation of the electric handpiece,wherein the controller is configured to determine the transfer function upon an initial usage of the handpiece and a periodically updated transfer function during usage of the handpiece, the updated transfer function being based on a measured maximum air pressure from the source of compressed air, andthe transfer function comprises a response curve based upon a maximum operational rotating speed of the handpiece and a maximum operating pressure of the air pressure of the compressed air source. 16. The dental treatment center of claim 15, the response curve based upon a minimum operational rotating speed of the handpiece associated with a minimum operating pressure of the air pressure of the compressed air source. 17. The dental treatment center of claim 15, the transfer function is generally linear. 18. A dental treatment center comprising: a self-calibrating pneumatic-to-electric handpiece controller, the controller having a port for coupling an operator controlled source of compressed air to the handpiece controller, the handpiece controller being configured to automatically determine a transfer function for an associated electric handpiece optimally suitable for an air pressure of the compressed air source, and convert the air pressure to an electric signal to drive the electric handpiece, the electric signal being based upon the transfer function and the air pressure, the electric signal determining a speed of rotation of the electric handpiece,wherein the controller is configured to determine the transfer function upon an initial usage of the handpiece and a periodically updated transfer function during usage of the handpiece, the updated transfer function being based on a measured maximum air pressure from the source of compressed air, andthe transfer function comprises a speed or rotation value for the handpiece corresponding to a current air pressure of the compressed air source. 19. A method of controlling an electrically driven dental treatment handpiece responsive to a pneumatic control signal, the method comprising: determining a transfer function relating the operational speed of rotation of an electric handpiece to the pressure of air from an operator controlled compressed air source;periodically and automatically adjusting the transfer function to reflect measured operational speeds of rotation of the electric handpiece in response to changes in the maximum pressure of the compressed air source; andelectrically driving the handpiece in response to the operator controlled compressed air source based on the transfer function. 20. The method of claim 19 further comprising, determining a reference point of the transfer function. 21. The method according to claim 20, further comprising determining a reference point of the transfer function corresponding to a predetermined minimum pressure of the compressed air. 22. The method of claim 20, wherein the transfer function is generally linear between the two reference points. 23. The method of claim 20, further comprising storing a maximum pressure during a usage of the electric handpiece, and reducing the stored maximum pressure upon a next usage of the electric handpiece. 24. The method of claim 20, wherein a speed of rotation value for an electric motor of the electric handpiece corresponding to the current air pressure is determined by the transfer function. 25. The method of claim 20, further comprising providing a variable supply current for an electric motor of the electric handpiece.
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