Force measurement device

We claim: 1. A force measurement device comprising: a closed contour load sensing element axisymmetric along a loading axis and an axis normal to the loading axis; a first cantilever arm mounted on the contour in a first quadrant of the contour, and a second cantilever arm mounted in a second quadrant of the contour opposite the first quadrant, where free ends of both the first and second cantilever arms are inward of the contour; wherein deformation (δ/2) caused by applied load (P) causes quasi-linear movement of the free ends of the cantilever arms to enable mechanical amplification of the deformation along the axis of loading; and wherein, under compression load, the first and second cantilever arms turn counterclockwise by an angle β/2. 2. The force measurement device according to claim 1 , wherein the first cantilever arm has a first fixed end mounted on the contour in the first quadrant of the contour, the second cantilever arm has a second fixed end mounted on the contour in the second quadrant of the contour, and the first cantilever arm is located at an angle α and the second cantilever arm is located at angle α+180 such that angular movement of the cantilever arms about their fixed end is maximum for any applied load. 3. The force measurement device according to claim 2 , wherein the cantilever arms are perpendicular to an arc at the respective fixed end. 4. The force measurement device according to claim 1 , wherein at the free end of the first cantilever arm a linear digital encoder is mounted. 5. The force measurement device according to claim 4 , wherein at the free end of the second cantilever arm an encoder scale is mounted such that the linear digital encoder and the encoder scale are parallel and opposite to each other and lie along movement of the free ends of the cantilever arms. 6. The force measurement device according to claim 1 , wherein the first and second cantilever arms have equal lengths, such that, an imaginary line (l 1 l 2 ), passing through free ends (m 1 ,m 2 ) of the first and second cantilever arms, also passes through the center of the contour. 7. The force measurement device according to claim 1 , wherein the closed contour of the load sensing element has an elliptical profile. 8. The force measurement device according to claim 1 , wherein the load sensing element has a load capacity of 25 Kilo-Newtons. 9. The force measurement device according to claim 1 , further comprising: a front cover plate; and a back cover plate, wherein the closed contour load sensing element is housed between the front cover plate and the back cover plate via a plurality of fasteners. 10. A force measurement device comprising: a closed contour load sensing element axisymmetric along a loading axis and an axis normal to the loading axis; a first cantilever arm mounted on the contour in a first quadrant of the contour, and a second cantilever arm mounted in a second quadrant of the contour opposite the first quadrant, where free ends of both the first and second cantilever arms are inward of the contour; wherein deformation (δ/2) caused by applied load (P) causes quasi-linear movement of the free ends of the cantilever arms to enable mechanical amplification of the deformation along the axis of loading; and wherein, under tension load, the cantilever arms turn clockwise by an angle β/2. 11. The force measurement device according to claim 10 , wherein the first cantilever arm has a first fixed end mounted on the contour in the first quadrant of the contour, the second cantilever arm has a second fixed end mounted on the contour in the second quadrant of the contour, and the first cantilever arm is located at an angle α and the second cantilever arm is located at angle α+180 such that angular movement of the cantilever arms about their fixed end is maximum for any applied load. 12. The force measurement device according to claim 11 , wherein the cantilever arms are perpendicular to an arc at the respective fixed end. 13. The force measurement device according to claim 10 , wherein at the free end of the first cantilever arm a linear digital encoder is mounted. 14. The force measurement device according to claim 13 , wherein at the free end of the second cantilever arm an encoder scale is mounted such that the linear digital encoder and the encoder scale are parallel and opposite to each other and lie along movement of the free ends of the cantilever arms. 15. The force measurement device according to claim 10 , wherein the first and second cantilever arms have equal lengths, such that, an imaginary line (l 1 l 2 ), passing through free ends (m 1 ,m 2 ) of the first and second cantilever arms, also passes through the center of the contour. 16. The force measurement device according to claim 10 , wherein the closed contour of the load sensing element has an elliptical profile. 17. The force measurement device according to claim 10 , wherein the load sensing element has a load capacity of 25 Kilo-Newtons. 18. The force measurement device according to claim 10 , further comprising: a front cover plate; and a back cover plate, wherein the closed contour load sensing element is housed between the front cover plate and the back cover plate via a plurality of fasteners. 19. A force measurement device comprising: a closed contour load sensing element axisymmetric along a loading axis and an axis normal to the loading axis; a first cantilever arm mounted on the contour in a first quadrant of the contour, and a second cantilever arm mounted in a second quadrant of the contour opposite the first quadrant, where free ends of both the first and second cantilever arms are inward of the contour; wherein deformation (δ/2) caused by applied load (P) causes quasi-linear movement of the free ends of the cantilever arms to enable mechanical amplification of the deformation along the axis of loading; wherein the first and second cantilever arms have equal lengths, such that, an imaginary line (l 1 l 2 ), passing through the free ends (m 1 ,m 2 ) of the first and second cantilever arms, also passes through the center of the contour; and wherein under the applied load P and corresponding deformation β/2 the free ends (m 1 ,m 2 ) of the cantilever arms respectively make quasi-linear movement on imaginary arcs (r 1 ,r 2 ); these quasi-linear angular movements lead to formation of an imaginary line (l 1 l 2 ) which enables a mechanical amplification (Δ) of four times the deformation (β/2). 20. The force measurement device according to claim 19 , wherein the closed contour of the load sensing element has an elliptical profile.