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- Nachgewiesen in: USPTO Patent Grants
- Sprachen: English
- Patent Number: 7,803,628
- Publication Date: September 28, 2010
- Appl. No: 10/556141
- Application Filed: April 30, 2004
- Assignees: MHM Harzbecher Medizintechnik GmbH (Aschaffenburg, DE)
- Claim: 1. Device for measuring the pressure of a liquid medium, said device comprising a measuring chamber through which the medium can flow and which has at least one elastically deformable wall, at least one wall that is more rigid by comparison to said deformable wall, and an inlet and outlet for the medium, wherein at least one excitation electrode is provided in or on the at least one more rigid wall of the measuring chamber, and at least one signal electrode is provided on the elastically deformable wall wherein a measure of impedance between the electrodes as a liquid medium flows through the measuring chamber serves to measure the pressure of the liquid medium.
- Claim: 2. Device according to claim 1 , wherein an excitation system is provided for supplying alternating current to the at least one excitation electrode.
- Claim: 3. Device according to claim 2 , wherein the excitation system delivers a relatively high-frequency alternating current of relatively low current intensity, and, the alternating current is adjustable.
- Claim: 4. Device according to claim 1 , wherein the at least one excitation electrode is made of a material providing good conduction of relatively high-frequency alternating currents, and, is hard silver-plated.
- Claim: 5. Device (1) according to claim 1 , wherein the at least one elastically deformable wall is made of a reversibly deformable elastomeric material.
- Claim: 6. Device according to claim 1 , wherein the at least one signal electrode is designed substantially flat, being applied as a film material, conductive coating, conductive imprint and/or lacquer, onto the at least one elastically deformable wall of the measuring chamber by a vacuum deposition method or being sprayed on, or adhesively bonded on.
- Claim: 7. Device according to claim 1 , wherein the at least one elastically deformable wall is or can be connected to the other walls of the measuring chamber by a tongue-and-groove joint, the at least one elastically deformable wall having an annular bead element on its edge facing toward the other walls, and the walls which are or can be connected to the at least one elastically deformable wall having at least one groove for insertion of the bead element.
- Claim: 8. Device according to claim 1 , wherein said at least one elastically deformable wall has freedom to move in or out with respect to said chamber.
- Claim: 9. Device according to claim 8 , wherein a protective cap, or a recess is situated in a retaining means for securing the device, the cap or recess providing said freedom for said at least one elastically deformable wall to move in or out.
- Claim: 10. Device according to claim 9 , wherein the protective cap and/or the recess in the retaining means is arranged in the area of the at least one elastically deformable wall such that the at least elastically deformable wall abuts said cap or recess.
- Claim: 11. Device according to claim 9 , wherein said device may be adjusted and held at an adjustable height on the retaining means.
- Claim: 12. Device according to claim 9 , wherein the measuring chamber has in at least some areas a means for coupling out capacitive fields and/or is surrounded by a means acting as a Faraday cage, and the measuring chamber and/or the retaining means is/are provided with a metallic coating.
- Claim: 13. Device according to claim 9 , wherein in order to determine conductivity of the medium located in the measuring chamber, said at least one excitation electrode and a second electrode are provided outside the at least one elastically deformable wall.
- Claim: 14. Device according to claim 13 , said device including a retaining means, wherein at least one contact pin is provided for attaching the measuring chamber onto the retaining means.
- Claim: 15. Device according to claim 14 , wherein the retaining means has a retaining plate which is provided with contact surfaces or contact pads to provide contact between the retaining means and the measuring chamber.
- Claim: 16. Device according to claim 15 , wherein the contact surfaces and/or contact pads and the contact pins are distributed in such a way that false contacting and false polarity are substantially avoided.
- Claim: 17. Device according to claim 14 , wherein at least some of the contact pins and said excitation and said second electrodes are formed integrally.
- Claim: 18. Device according to claim 17 , wherein the contact pins and the excitation and said second electrodes are molded onto the measuring chamber, in an insert injection-molding operation.
- Claim: 19. Device according to claim 14 , wherein the protective cap has a base part for protecting the at least one elastically deformable wall of the measuring chamber, and a collar part which at least partially surrounds the area of the excitation and said second electrodes and/or contact pins so as to protect the contact pins.
- Claim: 20. Method for determining the a hematocrit value of blood contained in a measuring chamber, using the device of claim 13 , comprising: providing a measuring chamber through which the blood can flow and which has at least one elastically deformable wall, at least one wall that is more rigid by comparison to said at least one elastically deformable wall, and an inlet and outlet for the blood, providing at least one excitation electrode and a second electrode in or on the at least one more rigid wall of the measuring chamber, said at least one excitation electrode and said second electrode projecting into said measuring chamber, allowing the blood to flow through the measuring chamber in an extracorporeal circuit, and determining the hematocrit value of the blood by measuring a conductivity value between the at least one excitation electrode and the second electrode.
- Claim: 21. Method according to claim 20 , wherein, the hematocrit value is determined by calculating a conductivity value at the start of a measurement path located at the inlet of the measuring chamber and at the end of the measurement path located at the outlet of the measuring chamber, and comparing the conductivity values at the start and the end of the measurement path.
- Claim: 22. Device according to claim 1 , wherein said device measures conductivity between the electrodes as a liquid medium flows through the measuring chamber which serves to measure a hematocrit value, wherein an evaluation unit is provided for determining the hematocrit value from the determined conductivity and/or the internal pressure of the measuring chamber.
- Current U.S. Class: 436/70
- Patent References Cited: 4572204 February 1986 Stephens ; 4617608 October 1986 Blonder et al. ; 5554113 September 1996 Novak et al. ; 6193864 February 2001 Leader et al. ; 6450972 September 2002 Knoll ; 6475750 November 2002 Han et al. ; 6684710 February 2004 Chevallet et al. ; 2002/0151816 October 2002 Rich et al. ; 2004/0050168 March 2004 Uberreiter ; 2007/0261496 November 2007 Jonsson et al. ; 2008/0015486 January 2008 Zhang et al. ; WO 01/18396 March 2001 ; WO 02/03854 January 2002 ; WO 2004/024300 March 2004
- Other References: English translation of the International Preliminary Report on Patentability dated Apr. 27, 2006, in priority application No. PCT/EP2004/004587 (12 pgs). cited by other ; International Search Report dated Jul. 29, 2004 for corresponding application No. PCT/EP2004/004587. cited by other ; Written Opinion for corresponding application No. PCT/EP2004/004587. cited by other
- Primary Examiner: Wallenhorst, Maureen M
- Attorney, Agent or Firm: Grossman Tucker Perreault & Pfleger, PLLC
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