Differential fiber optic differential pressure sensor
First Claim
1. In apparatus for monitoring ambient pressure within a confined sapce wherein an envelope having a flexible wall is so placed that said wall will move in response to pressure change within such space, the interior of said envelope being in communication through a fluid line with differential pressure control and display apparatus, and wherein one input light guide and two output light guides are introduced through said line and have their internal ends within said envelope, the input guide having its external end facing a light source and the output guides having their external ends facing light detectors, and means associated with the flexible wall for selectively reflecting light from the inner end of the input guide to the inner ends of the output guides in accordance with movements of said wall in response to changes in relative pressure between that in the envelope and that in the confined space, the improvement whereinsaid envelope comprises a rigid, generally cylindrical wall closed at one end by a generally circular, flexible end wall movable in an axial direction responsive to changes in said relative pressure,said light guides are positioned within said envelope with their internal ends facing said end wall, andsaid end wall carries a reflective surface facing said internal ends and movable with said end wall toward and away from said internal ends,said internal ends being so disposed and arranged with respect to said reflective surface that when said surface is close to said internal ends a greater intensity of light from the input guide will be reflected by the surface to one of said output guides for sensing by its light detector, when said surface is remote from said internal ends, a greater intensity of said light will be reflected by said surface to the other of said output guides for sensing by its light detector, and, when said surface is in a position between said close and remote positions the reflected light will be equally intense, for correspondingly actuating said differential control and display apparatus.
0 Assignments
0 Petitions
Accused Products
Abstract
A differential sensor unit precisely monitors ambient pressure within a confined space, such as blood pressure or intracranial pressure of a human patient, utilizing fiber optic light guides. Three light guides pass within a pneumatic line into one end of a rigid cylindrical envelope which may be inserted into a vein or artery or implanted in the skull. The other end of the envelope is bounded by a flexible membrane. Of the external ends of the guides, one faces a light source and each of the others faces a light detector. A reflective surface is attached to the internal face of the flexible membrane. Within the envelope the internal ends of the light guides face the reflective surface and are arranged to respond to movement of the flexible membrane due to differential pressure change across the membrane so that motion of the reflective surface relative to the internal ends varies the light transmitted from the first light guide to the others and consequently varies the light intensity sensed by each detector. The detectors can be arranged to actuate pressure display and pneumatic controls acting through the pneumatic line to adjust the internal pressure of the envelope to match the surrounding pressure and thereby measure that pressure.
139 Citations
4 Claims
-
1. In apparatus for monitoring ambient pressure within a confined sapce wherein an envelope having a flexible wall is so placed that said wall will move in response to pressure change within such space, the interior of said envelope being in communication through a fluid line with differential pressure control and display apparatus, and wherein one input light guide and two output light guides are introduced through said line and have their internal ends within said envelope, the input guide having its external end facing a light source and the output guides having their external ends facing light detectors, and means associated with the flexible wall for selectively reflecting light from the inner end of the input guide to the inner ends of the output guides in accordance with movements of said wall in response to changes in relative pressure between that in the envelope and that in the confined space, the improvement wherein
said envelope comprises a rigid, generally cylindrical wall closed at one end by a generally circular, flexible end wall movable in an axial direction responsive to changes in said relative pressure, said light guides are positioned within said envelope with their internal ends facing said end wall, and said end wall carries a reflective surface facing said internal ends and movable with said end wall toward and away from said internal ends, said internal ends being so disposed and arranged with respect to said reflective surface that when said surface is close to said internal ends a greater intensity of light from the input guide will be reflected by the surface to one of said output guides for sensing by its light detector, when said surface is remote from said internal ends, a greater intensity of said light will be reflected by said surface to the other of said output guides for sensing by its light detector, and, when said surface is in a position between said close and remote positions the reflected light will be equally intense, for correspondingly actuating said differential control and display apparatus.
Specification
-
- Resources
-
Current AssigneeLADD Research Industries Incorporated
-
Original AssigneeLADD Research Industries Incorporated
-
InventorsPorter, John H.
-
Primary Examiner(s)Woodiel, Donald O.
-
Application NumberUS06/036,246Time in Patent Office424 DaysField of Search73/705, 73/723, 73/731, 128/634, 128/673, 128/748US Class Current73/705CPC Class CodesA61B 5/02154 by optical transmissionA61B 5/031 Intracranial pressureG01F 23/2925 using electrical detecting ...G01F 23/606 using opto-electrically act...G01L 7/18 using liquid as the pressur...G01L 9/0077 for measuring reflected light
