External pressure display for vehicle tires
First Claim
1. A method for displaying magnitude changes of a property within an enclosed vessel externally, comprising the steps of:
- (a) mounting a magnetic field source for rotation within the vessel providing a magnetic field having an axis of symmetry rotating in a particular plane;
(b) rotating the magnetic field source in opposite directions responsive to increasing and decreasing changes in magnitude of the property within the vessel, respectively;
(c) passively sensing orientation of the axis of symmetry of the magnetic field source outside the vessel with a planar display located in a plane parallel and proximate to the plane of rotation of the magnetic field source, the planar display having a plurality of pixels formed by magneto-optic materials each providing a visual effect representative of orientation of the axis of symmetry of the magnetic field; and
(d) correlating the orientation of the axis of symmetry of the magnetic field sensed to increases and decreases in magnitude of the property within the vessel.
1 Assignment
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Accused Products
Abstract
A magnetically coupled pressure display system particularly adapted for pneumatic tires of motor vehicles includes pressure transducer coupled for rotating a magnet field source within the tire and an external magneto-optical liquid crystal display attached to or integrally incorporated into the exterior sidewall of the tire for visually indicating pressure within the tire responsive to the orientation of the magnetic field source within the tire. The external display exploits the magneto-optical effects of liquid crystals and can be conformally and permanently attached to the outer tire sidewall surface. Elements (pixels) comprising the display have selective light polarization properties globally determined by direction (orientation) of the magnetic field each experiences, the primary component of which is that provided by the magnetic field source rotated by the pressure transducer within the vehicle tire.
22 Citations
27 Claims
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1. A method for displaying magnitude changes of a property within an enclosed vessel externally, comprising the steps of:
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(a) mounting a magnetic field source for rotation within the vessel providing a magnetic field having an axis of symmetry rotating in a particular plane;
(b) rotating the magnetic field source in opposite directions responsive to increasing and decreasing changes in magnitude of the property within the vessel, respectively;
(c) passively sensing orientation of the axis of symmetry of the magnetic field source outside the vessel with a planar display located in a plane parallel and proximate to the plane of rotation of the magnetic field source, the planar display having a plurality of pixels formed by magneto-optic materials each providing a visual effect representative of orientation of the axis of symmetry of the magnetic field; and
(d) correlating the orientation of the axis of symmetry of the magnetic field sensed to increases and decreases in magnitude of the property within the vessel. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 20)
(i) a top light polarizing layer; (ii) an intermediate magneto-optic layer mixture composed of liquid crystal materials having dichroic (polarization dependent) light absorption properties; and
(iii) a bottom light reflecting layer, and (iv) a source of light illuminating the planar display.
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3. The method of claim 2 wherein each pixel formed by the magneto-optic materials further includes,
(v) a bottom light polarizing layer interposed between the bottom light reflecting layer and the intermediate magneto-optic layer mixture. -
4. The method of claim 2 or 3 wherein the liquid crystal materials are from types of liquid crystal materials classified as smectic and nematic.
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5. The method of claim 4 wherein the liquid crystal materials further include a property of classes of properties described as discotic and chiral.
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6. The method of claim 4 wherein the magneto-optic layer mixture composed of liquid crystal materials further includes a ferronematic compound.
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7. A method as recited in claim 1 or 3 wherein the vessel is a pneumatic tire and a wheel rim for a vehicle and the magnetic field source is rotated in opposite directions responsive to increasing and decreasing changes in pressure.
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8. A method as recited in claim 7 the planar display provides a visual warning of insufficient pressure.
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9. A method as recited in claim 7 wherein the planar display provides a visual warning of excessive pressure.
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10. A method as recited in claim 7 wherein the planar display provides a visual indication of pressure within the container in a plurality of discrete ranges.
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20. The apparatus of claim 7 wherein the planar display provides a visual indication of pressure within the container in a plurality of discrete ranges.
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11. An apparatus for displaying magnitude changes of a property within an enclosed vessel externally, comprising in combination:
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(a) a magnetic field source mounted for rotation within the vessel, the magnetic field source providing a magnetic field having an axis of symmetry rotating in a particular plane upon rotation of the field source;
(b) means within the vessel for rotating the magnetic field source in opposite directions responsive to increasing and decreasing changes in magnitude of the property within the vessel, respectively;
(c) a planar display located in a plane parallel and proximate to the plane of rotation of the magnetic field source outside the vessel, the planar display having a plurality of pixels formed by magneto-optic materials each passively providing a visual effect representative of orientation of the axis of symmetry of the magnetic field; and
(d) correlating the orientation of the axis of symmetry of the magnetic field sensed to increases and decreases in magnitude of the property within the vessel. - View Dependent Claims (12, 13, 14, 15, 16, 17, 18, 19, 21, 22, 23, 24, 25, 26, 27)
(i) a top light polarizing layer;
(ii) an intermediate magneto-optic layer mixture composed of liquid crystal materials having dichroic (polarization dependent) light absorption properties; and
(iii) a bottom light reflecting layer, and (iv) a source of light illuminating the planar display.
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13. The apparatus of claim 12 wherein each pixel formed by the magneto-optic materials further includes,
(v) a bottom light polarizing layer interposed between the bottom light reflecting layer and the intermediate magneto-optic layer mixture. -
14. The apparatus of claim 11 or 12 wherein the liquid crystal materials are from types of liquid crystal materials classified as smectic and nematic.
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15. The apparatus of claim 14 wherein the liquid crystal materials further include a property of classes of properties described as discotic and chiral.
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16. The apparatus of claim 14 wherein the magneto-optic layer mixture composed of liquid crystal materials further includes a ferronematic compound.
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17. The apparatus of claim 14 wherein the vessel is a pneumatic tire and a wheel rim for a vehicle and the magnetic field source is rotated in opposite directions responsive to increasing and decreasing changes in pressure.
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18. The apparatus of claim 17 wherein the planar display provides a visual warning of insufficient pressure.
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19. The apparatus of claim 17 wherein the planar display provides a visual warning of excessive pressure.
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21. The apparatus of claim 11 wherein the means within the vessel for rotating the magnetic field source in opposite directions responsive to increasing and decreasing changes in magnitude of the property within the vessel, respectively, comprises a pressure actuated bladder mechanism mounted within the pressure vessel coupled for rotating the magnetic field source responsive to changes in fluid pressure within the vessel.
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22. The apparatus of claim 21 wherein the pressure actuated bladder mechanism comprises in combination,
(i) a fixed radius outer cylindrical wall integral with an inner wall of the vessel; -
(ii) a variable radius flexible inner cylindrical wall;
(iii) flexible annular end walls radially between the fixed radius outer cylindrical wall and the variable radius flexible inner cylindrical wall;
the outer cylindrical wall, the flexible inner cylindrical wall and the flexible annular end walls defining a hermetic, annular bladder chamber;
(iv) a bladder fluid establishing a reference fluid pressure within the bladder chamber;
(v) means coupling between the flexible inner cylindrical wall of the bladder chamber and the magnetic field source, whereby, increasing changes in fluid pressure within the vessel increase radius of the inner cylindrical wall of the bladder chamber rotating the magnetic field source in a first direction, and decreasing changes in fluid pressure within the vessel decrease radius of the inner cylindrical wall of the bladder chamber rotating the magnetic field source in a second direction opposite the first direction.
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23. The apparatus of claim 22 wherein the means coupling between the between the flexible inner cylindrical wall of the bladder chamber and the magnetic field source comprise in combination,
(vi) a shaft longitudinally aligned within, surrounded by the annular bladder chamber having the magnetic field source secured at a proximate end adjacent the inner wall of the vessel; (vii) a plurality of spiral spokes coupled to and radially winding around the shaft each spoke having a distal end coupled to the flexible inner cylindrical wall of the bladder chamber, increases in radius of the flexible inner cylindrical wall of the bladder chamber unwinding the spiral spokes from around the shaft, rotating the shaft in the first direction, decreases in radius of the flexible inner cylindrical wall of the bladder chamber winding the spiral spokes around the shaft, rotating the shaft in the second direction.
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24. The apparatus of claim 22 wherein the means coupling between the between the flexible inner cylindrical wall of the bladder chamber and the magnetic field source comprise in combination,
(vi) a shaft longitudinally aligned and journalled for rotation within, and surrounded by the annular bladder chamber having the magnetic field source secured at a proximate end adjacent the inner wall of the vessel; (vii) a spiral spoke coupled to and radially winding around the shaft having a distal end coupled to the flexible inner cylindrical wall of the bladder chamber, increases in radius of the flexible inner cylindrical wall of the bladder chamber of the bladder unwinding the spoke from around the shaft, rotating the shaft in the first direction, decreases in radius of the flexible inner cylindrical wall of the bladder chamber winding the spiral spoke around the shaft rotating the shaft in the second direction.
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25. The apparatus of claim 23 or 24 wherein each spiral spoke has a spring constant and tends to expand the spiral increasing the radius of the flexible inner cylindrical wall of the bladder.
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26. The apparatus of claim 23 or 24 wherein each spiral spoke has a spring constant and tends to contract the spiral decreasing the radius of the flexible inner cylindrical wall of the bladder.
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27. The apparatus of claim 23 wherein:
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at least one spiral spoke has a spring constant and tends to expand its spiral unwinding from around the shaft increasing the radius of the flexible inner cylindrical wall of the bladder, and at least another spiral spoke has a spring constant and tends to contract its spiral winding around the shaft, decreasing the radius of the flexible inner cylindrical wall of the bladder.
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Specification