Pneumatic controls for ophthalmic surgical system
First Claim
1. An improved electropneumatic control system for providing a high-speed multi-cut mode, the system being of the type powered by a source of compressed gas and including at least one pressure regulator means for limiting gas pressure to a predetermined maximum value and first electromagnetically-actuated valve means for controlling flow of the compressed gas from the source to a location where such gas is put to use operating a microscissors or like gas-actuated microsurgical instrument in a single cut mode and in a proportional mode, the improvement comprising in combination:
- second electromagnetically-actuated valve means, connected in parallel to and operated independently of the first valve means, for cyclically controlling flow of the compressed gas from the pressure regulator means to the location, whereby the second valve means makes possible a multi-cut mode for operating the microscissors or like instrument.
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Accused Products
Abstract
A pneumatic control system for providing pressurized air and vacuum to ophthalmic microsurgical instruments. The pneumatic system is constructed in a drawer assembly to allow it to be readily inserted into or removed from a modularly constructed cabinet of a microsurgical control console.
In addition, the pneumatic system improves upon existing pneumatic control systems by providing a third mode of microscissors operation from a single pneumatic port. The third mode is made possible by a high speed three-way solenoid control valve which provides rapid pulses of air to the pneumatic port.
A second improvement involves the use of a pneumatic pressure transducer to monitor pneumatic pressure being supplied to the pneumatic system in order to recognize non-hazardous transient drops in air pressure which can occur under certain normal operating conditions. A third improvement relates to the use of an intraocular pressure accumulator downstream from a final solenoid-operated pinch valve, which reduces fluctuations in air pressure and has other advantages.
189 Citations
6 Claims
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1. An improved electropneumatic control system for providing a high-speed multi-cut mode, the system being of the type powered by a source of compressed gas and including at least one pressure regulator means for limiting gas pressure to a predetermined maximum value and first electromagnetically-actuated valve means for controlling flow of the compressed gas from the source to a location where such gas is put to use operating a microscissors or like gas-actuated microsurgical instrument in a single cut mode and in a proportional mode, the improvement comprising in combination:
second electromagnetically-actuated valve means, connected in parallel to and operated independently of the first valve means, for cyclically controlling flow of the compressed gas from the pressure regulator means to the location, whereby the second valve means makes possible a multi-cut mode for operating the microscissors or like instrument. - View Dependent Claims (2, 3, 4, 5, 6)
Specification