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A gage mechanism for a blood pressure measuring device or other similar apparatus includes a supported shaft member having one end in contact with an inflatable bellows. A pointer is attached at an opposite end of the shaft and a helically wound spring is attached to the shaft and a supporting structure. As the bellows inflates, the shaft is axially displaced and causes rotation due to the constraint of the helical ribbon spring, causing a corresponding angular deflection of the attached pointer relative to an indicating scale. The mechanism includes a first adjustment member for allowing the pointer to be preset to a zero or calibrated position, and a second adjustment mechanism that controls the amount of angular rotation of the shaft and pointer for a displacement of the bellows.

InventorsRaymond A. Lia, Robert Vivenzio, Scott S. Stearns, Dominick Danna, Timothy J. Smith, Allan I. Krauter, Edward W. Wright, Edward A. Johnson
Original AssigneeWelch Allyn, Inc.
Current U.S. Classification33/556; 33/832; 73/729.1
International Classification: G01B 322; G01L 708

View patent at USPTO
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Citations

Cited PatentFiling dateIssue dateOriginal AssigneeTitle
US1106341Oct 2, 1913Aug 4, 1914MEASURING INSTRUMENT
US1328876Dec 24, 1918Jan 27, 1920MEASURING INSTRUMENT
US1377032Dec 23, 1918May 3, 1921ANEKOID BAROMETER
US2087494Dec 19, 1933Jul 20, 1937PRESSURE DIFFERENTIAL INDICATOR
US2165017Feb 5, 1937Jul 4, 1939DIAL INDICATOR
US2564669Nov 13, 1945Aug 21, 1951PRESSURE MEASURING DEVICE
US2580999Mar 7, 1949Jan 1, 1952 CONRAD
US2636394Mar 19, 1948Apr 28, 1953INSTRUMENT ACTUATING MECHANISM
US2642670Feb 19, 1949Jun 23, 1953GAUGE
US3805618Aug 11, 19721974PRESSURE-RESPONSIVE INSTRUMENT
US3874242Jun 20, 19731975PRESSURE-RESPONSIVE INSTRUMENT
US4036061Jun 17, 1975Jul 19, 1977Blood pressure indicator gauge
US4040298Apr 8, 1976Aug 9, 1977Gearless pressure or temperature gauge
US4255970Nov 19, 1979Mar 17, 1981Barometer mechanism
US4501142Mar 29, 1983Feb 26, 1985Tire pressure gauge
US4685336Feb 26, 1986Aug 11, 1987Lee Wang Industry Ltd.Pressure gauge
US4875294Dec 19, 1988Oct 24, 1989Gauge for determining depth of cut in keys and the like
US5181422Jul 30, 1991Jan 26, 1993Dresser Industries, Inc.Diaphragm type fluid pressure gauge
US5753821Jan 2, 1997May 19, 1998Chin Ray Industrial Co., Ltd.Single diaphragm pressure gauge with uniform thickness gauge frame

Referenced by

Citing PatentFiling dateIssue dateOriginal AssigneeTitle
US6151787Aug 14, 1998Nov 28, 2000Empire Level Mfg. Corp.Levelling apparatus for a builder's laser level
US6334260Feb 28, 2000Jan 1, 2002Rock Mechanics Technology LimitedStrata movement indicators
US6481291Aug 14, 2001Nov 19, 2002Welch Allyn, Inc.Pressure measuring device
US6578428Aug 14, 2001Jun 17, 2003Welch Allyn, Inc.Blood pressure measuring apparatus
US6578429Dec 21, 2000Jun 17, 2003Welch Allyn, Inc.Physical quantity measuring device
US6615666Aug 14, 2001Sep 9, 2003Welch Allyn, Inc.Pressure measuring device
US6668659Nov 1, 2001Dec 30, 2003Denso CorporationLoad detecting device
US6746406Dec 19, 2001Jun 8, 2004Welch Allyn, Inc.Blood pressure measuring apparatus
US6783500Jan 16, 2002Aug 31, 2004Welch Allyn, Inc.Hand-held blood pressure measuring apparatus
US6796186Jun 27, 2003Sep 28, 2004Welch Allyn, Inc.Blood pressure measuring device with directly couplable measurement mechanism
US6931934Sep 10, 2003Aug 23, 2005Honeywell International Inc.Sensor top hat cover apparatus and method
US7234356Mar 16, 2005Jun 26, 2007Welch Allyn, Inc.Shock resistant blood pressure measuring apparatus
US7780603Sep 19, 2005Aug 24, 2010Welch Allyn, Inc.Blood pressure measuring apparatus
USD643536Dec 2, 2010Aug 16, 2011Welch Allyn, Inc.Blood-pressure cuff
USRE42754Aug 16, 2005Sep 27, 2011Welch Allyn, Inc.Blood pressure measuring apparatus

Claims

1. A movement mechanism comprising:

a shaft member having opposing first and second ends and an axis defined between said first and second ends;
axial displacement means for moving said first end of said shaft member in an axial direction; and
at least one spring member coaxially positioned relative to said shaft member axis, said spring member being attached at one end to an intermediate portion of said shaft member and attached at an opposite end to a support, wherein said displacement means causes said shaft member to translate in said axial direction, said spring member to flex, and said shaft member to rotate.

2. A movement mechanism according to claim 1, including displacement adjustment means for adjusting the amount of rotation of said shaft member for a given axial translation thereof.

3. A movement mechanism according to claim 2, wherein said spring member has an initial predetermined axial length when attached at each end to said shaft member and said support, said displacement adjustment means being capable of varying said predetermined axial length so as to vary the amount of rotation of said shaft member for a given axial displacement.

4. A movement mechanism according to claim 3, wherein said displacement adjustment means includes means for axially displacing one of said support and said shaft member so as to vary the initial predetermined axial length of said spring member.

5. A movement mechanism according to claim 4, wherein said displacement adjusting means is coaxially disposed relative to the axis of said shaft member.

6. A movement mechanism according to claim 1, wherein said first end of said shaft member is disposed adjacent to said displacement means, said shaft member being supported to allow axial movement upon movement by said displacement means.

7. A movement mechanism according to claim 1, including indicating means for indicating the amount of rotation of said shaft member.

8. A movement mechanism according to claim 7, wherein said indicating means includes a pointer attached to said second end of said shaft member, said pointer being capable of circumferential movement during rotation of said shaft member.

9. A movement mechanism according to claim 8, including rotational position adjustment means for selectively adjusting the rotational position of said shaft member to a predetermined position.

10. A movement mechanism according to claim 9, wherein said indicating means further includes a dial face having indicating indicia, said rotational position adjustment means allowing the circumferential position of said pointer to be adjusted to a reference position located on said dial face.

11. A movement mechanism according to claim 1, including means for attaching the ends of said at least one spring member to said support and said shaft member, said means allowing hinging of said spring member during axial translation and rotation of said shaft member.

12. A movement mechanism according to claim 11, wherein said at least one spring member includes attachment holes at each end thereof, said holes having diameters which are oversized relative to engagement members extending from said shaft member and said support.

13. A movement mechanism according to claim 12, wherein said engagement members are cylindrical pins extending from each of said shaft member and said support.

14. A movement mechanism according to claim 1, wherein said spring member is a thin ribbon helically wound about a portion of said shaft member.

15. A movement mechanism according to claim 9, wherein said rotational position adjustment means and said displacement adjustment means are coaxial with said shaft member axis.

16. A movement mechanism according to claim 9, wherein said rotational position adjustment means includes at least one adjustment member having an opening sized for engaging said shaft member, said at least one adjustment member being rotatable for simultaneously rotating said shaft member and said support.

17. A movement mechanism as recited in claim 14, wherein said spring member is fabricated from beryllium copper.

18. A mechanism for use in a measurement device, said device comprising a housing, displacement means disposed within said housing, and indicating means responsive to said displacement means for indicating a change in a parametric value based on movement of said displacement means, said movement mechanism including:

a shaft member disposed in said housing between said indicating means and said displacement means, said shaft member having opposing first and second ends defining an axis therebetween; and
at least one spring member coaxially positioned relative to said shaft member axis, said spring member having a first end attached to said shaft member and a second end attached to a support, wherein said displacement means causes said shaft member to translate along said shaft axis, said spring member to flex, and said shaft member to rotate.

19. A mechanism according to claim 18, including displacement adjustment means for adjusting the amount of rotation of said shaft member for a given axial translation thereof.

20. A mechanism according to claim 19, wherein said spring member has an initial predetermined axial length when attached at each end to said shaft member and said support, said displacement adjustment means being capable of varying said predetermined axial length so as to vary the amount of rotation of said shaft member for a given axial displacement.

21. A mechanism according to claim 20, wherein said displacement adjustment means includes means for axially displacing one of said support and said shaft member so as to vary the initial predetermined axial length of said spring member.

22. A mechanism according to claim 21, wherein said displacement adjusting means is coaxially disposed relative to the axis between said shaft member ends.

23. A mechanism according to claim 18, wherein said first end of said shaft member is disposed adjacent to said displacement means, said shaft member being supported to allow axial movement upon axial movement by said displacement means.

24. A mechanism according to claim 18, including indicating means for indicating the amount of rotation of said shaft member.

25. A mechanism according to claim 24, wherein said indicating means includes a pointer attached to said second end of said shaft member, said pointer being capable of circumferential movement during rotation of said shaft member.

26. A mechanism according to claim 25, including rotational position adjustment means for selectively adjusting the rotational position of said shaft member to a predetermined position.

27. A mechanism according to claim 26, wherein said indicating means further includes a dial face having indicating indicia, said rotational position adjustment means allowing the circumferential position of said pointer to be adjusted to a reference position relative to said dial face.

28. A mechanism according to claim 18, including means for attaching the ends of said at least one spring member to said support and said shaft member, said means allowing hinging of an attached spring member end during axial translation and rotation of said shaft member.

29. A mechanism according to claim 28, wherein said at least one spring member includes attachment holes at each end thereof, said holes having diameters which are oversized relative to engagement members extending from said shaft member and said support.

30. A mechanism according to claim 29, wherein said engagement members are cylindrical pins extending from each of said shaft member and said support.

31. A mechanism according to claim 18, wherein said spring member is a thin ribbon helically wound about said shaft member.

32. A mechanism according to claim 26, wherein said rotational position adjustment means and said displacement adjustment means are coaxially located along axis between said shaft member ends.

33. A mechanism according to claim 26, wherein said rotational position adjustment means includes at least one adjustment member having an opening sized for engaging said shaft member, said at least one adjustment member being rotatable for simultaneously rotating said shaft member and said support.

34. A mechanism as recited in claim 31, wherein said spring member is fabricated from a thin section of beryllium copper.

35. A mechanism as recited in claim 32, wherein said shaft is retained in a support having an opening for allowing axial translation therethrough.

36. A mechanism as recited in claim 35, wherein said displacement adjustment means includes an adjustment member attached to said support through said opening, said member having an opening for receiving said shaft.

37. A mechanism according to claim 36, wherein said opening and said adjustment member include corresponding threads for allowing said adjustment member to rotate to cause a change in the predetermined axial distance between the ends of said spring member.

Drawings