Load cell support structure for a weight scale

The invention claimed is: 1. A load cell support structure for a scale comprising: a base support member for mounting at least one load cell; a load bearing member movable with respect to said base support member and having an upper surface for receiving a load; a load cell engaging member adapted to operatively engage at least one load cell in a direction of a load applied to said upper surface of said load bearing member; a load transfer portion integrally formed with said load bearing member and operatively coupled to said load cell engaging member so as to transfer a load from said upper surface to at least one load cell via said load cell engaging member; at least one biasing member adapted to urge said load transfer member towards said load cell engaging member with a predetermined biasing force and in a direction opposing a load applied to said upper surface of said load bearing member; at least one pivot member operatively engaging said load transfer member and said load cell engaging member, so as to allow pivotal movement of said load transfer member with respect to said load cell engaging member about said pivot member and in at least one plane parallel to the direction of a load applied to said upper surface, wherein the load cell support structure is configured such that deflection of the load bearing member downward due to loading reduces a load on the at least one pivot member. 2. A load cell support structure according to claim 1 , comprising a plurality of biasing members positioned about a centre point and in a symmetrical arrangement with respect to a centre axis of said upper surface within a region of said load transfer portion. 3. A load cell support structure according to claim 1 , comprising a plurality of pivot members positioned in a symmetrical arrangement about a centre point of said upper surface. 4. A load cell support structure according to claim 2 , comprising a plurality of pivot members positioned in a symmetrical arrangement about said centre point of said upper surface at a predetermined distance from said centre point. 5. A load cell support structure according to claim 4 , wherein the spatial arrangement of said plurality pivot members with respect to said centre point of said upper surface and with respect to any one of said plurality of biasing members determines a minimum load required at any position on said upper surface to overcome a biasing force provided by said at least one biasing member. 6. A load cell support structure according to claim 1 , wherein said at least one pivot member is any one of a ball bearing, a pin, a chamfered surface and a rounded button, each one adapted to allow pivotal movement between said load cell engaging member and said load transfer portion. 7. A load cell support structure according to claim 1 , wherein said at least one pivot member is a pivot column having any one of a flat, spherical, ellipsoidal and chamfered cross section, each one adapted to allow pivotal movement between said load cell engaging member and said load transfer portion. 8. A load cell support structure according to claim 1 , wherein said at least one biasing member is a compression spring. 9. A load cell support structure according to claim 1 , wherein said pivot member is adapted to move relative to said load cell engaging member and/or relative to said load transfer member in a direction parallel to said upper surface. 10. A load cell support structure according to claim 9 , wherein the movement of said pivot member is limited by a corresponding pivot member engaging recess provided in said load cell engaging member and/or load transfer member. 11. A load cell support structure according to claim 9 , wherein the movement of said pivot member is limited by a stop provided on said load bearing member and adapted to stoppably engage with a portion of said base support member. 12. A load cell support structure according to claim 10 , wherein the movement of said pivot member is limited by at least one stop member provided on said load bearing member and adapted to stoppably engage with a portion of said base support member. 13. A load cell scale having a load cell support structure comprising: a base support member for mounting at least one load cell; a load bearing member movable with respect to said base support member and having an upper surface for receiving a load; a load cell engaging member adapted to operatively engage at least one load cell in a direction of a load applied to said upper surface of said load bearing member; a load transfer portion integrally formed with said load bearing member and operatively coupled to said load cell engaging member so as to transfer a load from said upper surface to at least one load cell via said load cell engaging member; at least one biasing member adapted to urge said load transfer member towards said load cell engaging member with a predetermined biasing force and in a direction opposing a load applied to said upper surface of said load bearing member; at least one pivot member operatively engaging said load transfer member and said load cell engaging member, so as to allow pivotal movement of said load transfer member with respect to said load cell engaging member about said pivot member and in at least one plane parallel to the direction of a load applied to said upper surface, wherein the load cell support structure is configured such that deflection of the load bearing member downward due to loading reduces a load on the at least one pivot member. 14. A load cell scale according to claim 13 , wherein said load cell support structure comprises a plurality of biasing members positioned about a centre point and in a symmetrical arrangement with respect to a centre axis of said upper surface within a region of said load transfer portion. 15. A load cell scale according to claim 13 , wherein said load cell support structure comprises a plurality of pivot members positioned in a symmetrical arrangement about a centre point of said upper surface. 16. A load cell scale according to claim 14 , wherein said load cell support structure comprises a plurality of pivot members positioned in a symmetrical arrangement about said centre point of said upper surface at a predetermined distance from said centre point. 17. A load cell scale according to claim 16 , wherein the spatial arrangement of said plurality pivot members with respect to said centre point of said upper surface and with respect to any one of said plurality of biasing members determines a minimum load required at any position on said upper surface to overcome a biasing force provided by said at least one biasing member. 18. A load cell scale according to claim 13 , said at least one pivot member is any one of a ball bearing, a pin, a chamfered surface and a rounded button, each one adapted to allow pivotal movement between said load cell engaging member and said load transfer portion. 19. A load cell scale according to claim 13 , wherein said at least one pivot member is a pivot column having any one of a flat, spherical, ellipsoidal and chamfered cross section, each one adapted to allow pivotal movement between said load cell engaging member and said load transfer portion. 20. A load cell scale according to claim 13 , wherein said at least one biasing member is a compression spring. 21. A load cell scale according to claim 13 , wherein said pivot member is adapted to move relative to said load cell engaging member and/or relative to said load tra