Tissue pneumatic separator structure
First Claim
1. A tissue pneumatic separator comprising a source of a compressed gas under pressure, means connected to the source of gas for directing gas therefrom at tissue to be separated, including a pneumatic activated floating tip adapted to be applied to body tissue at a wound site, positioned on the tissue pneumatic separator through which the gas is directed at the tissue the position of which tip is determined by the pressure of the gas and external mechanical force applied thereto in opposition to the gas pressure.
3 Assignments
0 Petitions
Accused Products
Abstract
Structure for and a method of separating tissue pneumatically comprising a source of gas under pressure, a regulator for regulating the pressure of the gas, and flow controls for directing the pressure controlled gas to a disposable gas directing stem and head assembly, and the method of use of such structure comprising directing gas under controlled pressure and direction toward tissue to be separated.
865 Citations
28 Claims
- 1. A tissue pneumatic separator comprising a source of a compressed gas under pressure, means connected to the source of gas for directing gas therefrom at tissue to be separated, including a pneumatic activated floating tip adapted to be applied to body tissue at a wound site, positioned on the tissue pneumatic separator through which the gas is directed at the tissue the position of which tip is determined by the pressure of the gas and external mechanical force applied thereto in opposition to the gas pressure.
- 8. A tissue pneumatic separator comprising a cylindrical elongated stem having a central axially extending passage therethrough and a radially outer axially extending passage therethrough extending substantially parallel to the central passage, a source of gas under pressure secured to one end of the stem for providing gas under pressure through the central and radially outer passage, separate manually operated valve means for regulating the gas pressure through both passages a cylindrical head secured to the other end of the stem including a smaller axially outer diameter and an angularly spaced-apart longitudinally extending slots in the radially inner surface of the head adjacent to the outer end thereof, an axially extending recess in said other end of the stem and a floating tip positioned within the head defining an annular space therebetween, one end of which is positioned within the recess in the stem for guided reciprocal movement therein, which tip has a radially extending piston like flange thereon centrally thereof in engagement with the radially inner surface of the head centrally thereof for guiding reciprocal movement of the tip within the head, the head and floating tip providing an escape passage therebetween for gas in the radially outer passage between the other end of the head and the tip, said tip having an axially extending central passage therethrough for permitting excape of air through the central passage of the stem and a radially extending passage in said tip connecting to the central axially extending passage in the tip for permitting gas to escape through the annular space between the tip and head.
- 10. A tissue pneumatic separator comprising a source of compressed gas under pressure, means connected to the source of gas under pressure for directing gas therefrom at tissue to be separated, including a stem one end of which is connected to the source of gas under pressure having a central axially extending passage therethrough and a second axially extending passage therethrough parallel to the central axially extending passage, and a head and tip secured to the other end of the stem connected to the stem to permit gas from the central passage to escape through the stem and between the stem and head and to permit gas from the second passage through the stem to escape between the head and the stem.
- 13. A tissue pneumatic separator comprising a source of gas under pressure, floating tip means connected to the source of gas for directing gas therefrom at tissue to be separated including an elongated cylindrical stem and a cylindrical head secured to the stem in which the tip floats for securing the top to the stem, and a floating tip adapted to be applied to body tissue at a wound site, positioned on the tissue pneumatic separator through which the gas is directed at the tissue, the position of which tip is determined by the pressure of the gas and external mechanical force applied thereto in opposition to the gas pressure, said stem having a central axially extending longitudinal passage therethrough and a second longitudinally extending passage therethrough substantially parallel with the central axially extending passage, which passages are in communication with the tip and with a space defined between the tip and head respectively.
- 23. A tissue pneumatic separator comprising a source of compressed gas under pressure, floating tip means connected to the source of gas for directing gas therefrom at tissue to be separated, includes an elongated cylindrical stem and a cylindrical head secured to the stem in which the tip floats for securing the tip to the stem and a floating tip adapted to be applied to body tissue at a wound site, positioned on the tissue pneumatic separator through which the gas is directed at the tissue, the position of which tip is determined by the pressure of the gas and external mechanical force applied thereto in opposition to the gas pressure, said stem including a recess provided in the end of the stem for receiving one end of the floating tip for guiding the tip in axially reciprocal movement relative to the stem and head.
Specification