Force multiplying load cell

US 4,179,004 A
Filed: 02/15/1978
Issued: 12/18/1979
Est. Priority Date: 02/15/1978
Status: Expired due to Term

First Claim

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1. In a load cell:

a base, a load arm spaced from the base for receiving a load applied in an axial direction, a lever arm with flexures toward the ends thereof interconnecting the load arm and base, a stabilizing arm with flexures interconnecting the load arm and base and cooperating with the lever arm to constrain the load arm for movement in the axial direction, a load beam affixed at one end to the base, a coupling link interconnecting the lever arm and the load beam, said link being connected to the lever arm at a point intermediate the ends thereof, and means responsive to stress in the load beam for providing an output signal corresponding to the load applied to the load arm.

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Abstract

Load cell in which the magnitude of a force, such as the weight of a load, is determined by the stress produced in a bending beam to which the load is applied. A lever system permits the use of a thicker beam which results in highly accurate and repeatable readings even in load cells of relatively low capacity, e.g. less than 2 pounds. One embodiment has two load receiving arms connected to different points in the lever system to provide a dual capacity load cell.

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22 Claims

1. In a load cell:
- a base, a load arm spaced from the base for receiving a load applied in an axial direction, a lever arm with flexures toward the ends thereof interconnecting the load arm and base, a stabilizing arm with flexures interconnecting the load arm and base and cooperating with the lever arm to constrain the load arm for movement in the axial direction, a load beam affixed at one end to the base, a coupling link interconnecting the lever arm and the load beam, said link being connected to the lever arm at a point intermediate the ends thereof, and means responsive to stress in the load beam for providing an output signal corresponding to the load applied to the load arm.
- View Dependent Claims (2, 3, 4)
- - 2. The load cell of claim 1 wherein the means responsive to stress comprises a strain responsive element mounted on the load beam.
  - 3. The load cell of claim 2 wherein the strain responsive element is positioned in linear alignment with the flexures which connect the lever arm and the stabilizing arm to the base.
  - 4. The load cell of claim 1 wherein the base, arms, flexures, coupling link and beam are fabricated as a unitary structure of a homogeneous material.

5. In a load cell:
- a base, a load arm spaced from and generally parallel to the base for receiving an axially applied load, a lever arm extending between the load arm and base and connected thereto by flexures, a stabilizing arm generally parallel to the lever arm and connected to the load arm and base by flexures, a load beam rigidly connected to the base and extending inwardly therefrom toward the load link, a coupling arm extending in a direction generally parallel to the base and interconnecting the lever arm and the inner end of the load beam, said coupling link being connected to the lever arm at a point spaced toward the base from the flexure which connects the lever arm to the load arm, and a stress responsive element mounted on the load beam for providing an output signal corresponding to the load applied to the load arm.
- View Dependent Claims (6, 7)
- - 6. The load cell of claim 5 wherein the stress responsive element is aligned with the flexures which connect the lever arm and the stabilizing arm to the base.
  - 7. The load cell of claim 5 wherein the base, arms, flexures, load beam and coupling link are fabricated as a unitary structure.

8. In a load cell:
- a base, a load arm spaced from the base for receiving a load applied in an axial direction, a lever arm with flexures interconnecting the load arm and base, a stabilizing arm with flexures interconnecting the load arm and base and cooperating with the lever arm to constrain the load arm for movement in the axial direction, a load beam affixed at one end to the base, a coupling link interconnecting the lever arm and the load beam, said link being connected to the lever arm at a point intermediate the ends thereof, means responsive to stress in the load beam for providing an output signal corresponding to the load applied to the load arm, and stop means carried by the lever arm and the load arm for limiting the axial movement of the load arm in one direction.
- View Dependent Claims (9)
- - 9. The load cell of claim 8 wherein the stop means includes a stop member affixed to the lever arm and means carried by the load arm for abutting engagement with the stop member.

10. In a load cell:
- a base, a load arm spaced from the base for receiving a load applied in an axial direction, a lever arm with flexures interconnecting the load arm and base, a stabilizing arm with flexures interconnecting the load arm and base and cooperating with the lever arm to constrain the load arm for movement in the axial direction, a load beam affixed at one end to the base, a coupling link interconnecting the lever arm and the load beam, said link being connected to the lever arm at a point intermediate the ends thereof, means responsive to stress in the load beam for providing an output signal corresponding to the load applied to the load arm, and stop means carried by the stabilizing arm and the load arm for limiting axial movement of the load arm in one direction.
- View Dependent Claims (11)
- - 11. The load cell of claim 10 wherein the stop means includes a stop member affixed to the stabilizing arm and means carried by the load arm for abutting engagement with the stop member.

12. In a load cell:
- a base, first and second load arms for receiving loads applied in an axial direction, a lever arm connected to the base by a flexure, means including flexures connecting the load arms to the lever arm at different distances from the base, a stabilizing arm with flexures interconnecting the load arms and base and cooperating with the lever arm to constrain the load arms for movement in the axial direction, a load beam rigidly connected to the base, a coupling link interconnecting the lever arm and the load beam, and means responsive to stress in the load beam for providing output signals corresponding to loads applied to the load arms.

13. In a load cell:
- first and second load receiving arms, a bending beam, a lever system interconnecting the load receiving arms and beam for applying bending forces to the beam in response to loads applied to the load receiving arms, said lever system having different lever ratios for the respective load receiving arms, and means responsive to stress in the beam for providing output signals corresponding to the loads.

14. In a load cell:
- a base, a load arm spaced from and generally parallel to the base for receiving an axially applied load, a lever arm extending between the load arm and base and connected thereto by flexures, a stabilizing arm generally parallel to the lever arm and connected to the load arm and base by flexures, a load beam rigidly connected to the base and extending inwardly therefrom toward the load arm, a coupling arm extending in a direction generally parallel to the base and interconnecting the lever arm and the inner end of the load beam, a stress responsive element mounted on the load beam for providing an output signal corresponding to the load applied to the load arm, a stop member affixed to the lever arm and extending toward the central portion of the load arm, and a screw mounted on the load arm for abutting engagement with the stop member to limit movement of the load arm as the angle between the load arm and the lever arm changes.

15. In a load cell:
- a base, a load arm spaced from and generally parallel to the base for receiving an axially applied load, a lever arm extending between the load arm and base and connected thereto by flexures, a stabilizing arm generally parallel to the lever arm and connected to the load arm and base by flexures, a load beam rigidly connected to the base and extending inwardly therefrom toward the load arm, a coupling arm extending in a direction generally parallel to the base and interconnecting the lever arm and the inner end of the load beam, a stress responsive element mounted on the load beam for providing an output signal corresponding to the load applied to the load arm, a stop member affixed to the stabilizing arm and extending toward the central portion of the load arm, and a screw mounted on the load arm for abutting engagement with the stop member to limit movement of the load arm as the angle between the load arm and the stabilizing arm changes.

16. In a load cell:
- a base, a load arm spaced from the base for receiving a load applied in an axial direction, a lever arm connected at one end to the load arm, crossed flexures connecting the other end of the lever arm to the base, a stabilizing arm with flexures interconnecting the load arm and base and cooperating with the lever arm to constrain the load arm for movement in the axial direction, a load beam affixed at one end to the base, a coupling link interconnecting the lever arm and the load beam, said link being connected to the lever arm at a point intermediate the ends thereof, and means responsive to stress in the load beam for providing an output signal corresponding to the load applied to the load arm.

17. In a load cell:
- a base, a load arm spaced from the base for receiving a load applied in an axial direction, a lever arm with flexures toward the ends thereof interconnecting the load arm and the base, a stabilizing arm with flexures interconnecting the load arm and base and cooperating with the lever arm to constrain the load arm for movement in the axial direction, a load beam affixed at one end to the base, a coupling link interconnecting the lever arm and the load beam with flexures oriented for bending about axes perpendicular to each other and to the axis of the link, said link being connected to the lever arm at a point intermediate the ends thereof, and means responsive to stress in the load beam for providing an output signal corresponding to the load applied to the load arm.

18. In a load cell:
- a base, a load arm spaced from the base for receiving a load applied in an axial direction, a lever arm with flexures toward the ends thereof interconnecting the load arm and the base, a stabilizing arm with flexures interconnecting the load arm and base and cooperating with the lever arm to constrain the load arm for movement in the axial direction, a load beam affixed at one end to the base, a coupling link interconnecting the lever arm and the load beam, said link being connected to the lever arm at a point intermediate the ends thereof, a second load arm spaced from the first-named load arm and connected to the lever arm and the stabilizing arm by additional flexures, and means responsive to stress in the load beam for providing an output signal corresponding to the load applied to the load arms.

19. In a load cell:
- a base, a load arm spaced from and generally parallel to the base for receiving an axially applied load, a lever arm extending between the load arm and base and connected thereto by flexures, the lever arm being connected to the base by crossed flexures oriented for bending about an axis perpendicular to the lever arm and base, a stabilizing arm generally parallel to the lever arm and connected to the load arm and base by flexures, a load beam rigidly connected to the base and extending inwardly therefrom toward the load arm, a coupling link extending in a direction generally parallel to the base and interconnecting the lever arm and the inner end of the load beam, and a stress responsive element mounted on the load beam for providing an output signal corresponding to the load applied to the load arm.

20. In a load cell:
- a base, a load arm spaced from and generally parallel to the base for receiving an axially applied load, a lever arm extending between the load arm and base and connected thereto by flexures, a stabilizing arm generally parallel to the lever arm and connected to the load arm and base by flexures, a load beam rigidly connected to the base and extending inwardly therefrom toward the load arm, a coupling link extending in a direction generally parallel to the base and interconnecting the lever arm and the inner end of the load beam, said coupling link comprising a rigid member with flexures oriented for bending about axes which are perpendicular to each other and to the axis of the link, and a stress responsive element mounted on the load beam for providing an output signal corresponding to the load applied to the load arm.

21. In a load cell:
- a base, a load arm spaced from and generally parallel to the base for receiving an axially applied load, a lever arm extending between the load arm and base and connected thereto by flexures, a stabilizing arm generally parallel to the lever arm and connected to the load arm and base by flexures, a load beam rigidly connected to the base and extending inwardly therefrom toward the load arm, a coupling link extending in a direction generally parallel to the base and interconnecting the lever arm and the inner end of the load beam, a second load arm spaced from the first-named load arm and connected to the lever arm and the stabilizing arm by additional flexures, and a stress responsive element mounted on the load beam for providing an output signal corresponding to the load applied to the load arms.

22. In a load cell:
- a load receiving arm, a bending beam, a lever system interconnecting the load receiving arm and beam for applying a bending force to the beam in response to a load applied to the load receiving arm, said force being greater than the applied load, a second load receiving element connected to the lever system at a different point than the first-named load receiving arm, and means responsive to stress in the beam for providing an output signal corresponding to the load.

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Current Assignee
National Controls Incorporated
Original Assignee
National Controls Incorporated
Inventors
Ebbinge, Willem
Primary Examiner(s)
Miller, Jr., George H.

Application Number

US05/878,063
Time in Patent Office

671 Days
Field of Search

177/211, 177/DIG. 9, 73/141 A
US Class Current

177/211
CPC Class Codes

G01G 3/1412   the supports being parallel...

G01L 1/2243   the supports being parallel...

Y10S 177/09   Scale bearings

Force multiplying load cell

First Claim

4 Assignments

0 Petitions

Accused Products

Abstract

18 Citations

22 Claims

Specification

Solutions

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Force multiplying load cell

First Claim

4 Assignments

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0 Petitions

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Accused Products

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Abstract

18 Citations

22 Claims

Specification

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Solutions

Use Cases

Quick Links