초록 ▼

A load cell lockout system includes a lower support, an upper support, and a load cell disposed between the lower support and the upper support. The upper support is movable relative to the lower support between a first position wherein a first load is applied by the upper support to the load cell a

A load cell lockout system includes a lower support, an upper support, and a load cell disposed between the lower support and the upper support. The upper support is movable relative to the lower support between a first position wherein a first load is applied by the upper support to the load cell and a second position wherein either a second load that is lighter than the first load is applied by the upper support to the load cell or no load is applied by the upper support to the load cell. A lockout includes a cam with an eccentric perimeter side edge, the cam being rotatable between a first orientation whereby the upper support is placed in the first position and a second orientation whereby the upper support is placed in the second position.

대표청구항 ▼

1. A load cell lockout system comprising: a lower support;an upper support, wherein the upper support comprises or is secured to a support housing, the support housing bounding a chamber having a volume of at least 40 liters;a load cell disposed between the lower support and the upper support, the u

1. A load cell lockout system comprising: a lower support;an upper support, wherein the upper support comprises or is secured to a support housing, the support housing bounding a chamber having a volume of at least 40 liters;a load cell disposed between the lower support and the upper support, the upper support being movable relative to the lower support between a first position wherein a first load is applied by the upper support to the load cell and a second position wherein either a second load that is lighter than the first load is applied by the upper support to the load cell or no load is applied by the upper support to the load cell;a lockout comprising a cam with an eccentric perimeter side edge, the cam being rotatable between a first orientation whereby the upper support is placed in the first position and a second orientation whereby the upper support is placed in the second position;a collapsible bag disposed within the chamber of the support housing; andmeans for mixing a fluid within the collapsible bag. 2. The load cell lockout system as recited in claim 1, wherein the load cell comprises a load cell beam having a first end and an opposing second end with a longitudinal axis extending therebetween, the first end of the load cell beam being secured to the lower support and the second end of the load cell beam being biased against or secured to the upper support when the upper support is in the first position, the longitudinal axis of the load cell being horizontally disposed within a variance of +/−10°. 3. The load cell lockout system as recited in claim 1, wherein the cam assembly comprises: a stand secured to the lower support or the upper support, the cam being rotatably mounted to the stand; anda lift movably mounted to the stand, the cam pushing against the lift to move one of the lift or stand relative to the other as the cam is rotated from the first orientation to the second orientation. 4. The load cell lockout system as recited in claim 3, wherein the lift comprises a contact surface against which the cam pushes when the cam is rotated from the first orientation to the second orientation, the contact surface being comprised of a material having a coefficient of friction that is smaller than 0.2. 5. The load cell lockout system as recited in claim 3, wherein the lift comprises a contact surface against which the cam pushes when the cam is rotated from the first orientation to the second orientation, the contact surface being comprised of polytetrafluoroethylene or acetal. 6. The load cell lockout system as recited in claim 3, wherein the lift comprises a contact surface and the cam comprises an engaging surface that pushes against the contact surface when the cam is rotated from the first orientation to the second orientation, the engaging surface being comprised of a material having a coefficient of friction that is smaller than 0.2. 7. The load cell lockout system as recited in claim 3, wherein the lift comprises a contact surface and the cam comprises an engaging surface that pushes against the contact surface when the cam is rotated from the first orientation to the second orientation, the engaging surface being comprised of polytetrafluoroethylene or acetal. 8. The load cell lockout system as recited in claim 1, further comprising means disposed on the cam for selectively rotating the cam. 9. The load cell lockout system as recited in claim 8, wherein the means for selectively rotating the cam comprises an engager projecting from a front face of the cam, the engager having a polygonal transverse cross section. 10. The load cell lockout system as recited in claim 1, wherein the perimeter side edge of the cam includes a flat section. 11. The load cell lockout system as recited in claim 1, wherein the lower support comprises or is secured to a movable platform having wheels. 12. A method for locking out a load cell, the method comprising: dispensing a sterile fluid into a collapsible bag that is supported within a support housing, the support housing resting on a plurality of load cells that sense the weight of the fluid;rotating a plurality of cams located adjacent to corresponding load cells from a first orientation to a second orientation so that the cams remove at least a portion of the weight of the fluid from the plurality of load cells, each cam having an eccentric perimeter side edge;moving the support housing containing the collapsible bag to a new location;rotating the plurality of cams from the second orientation back to the first orientation so that the plurality of load cells again sense the full weight of the fluid; andmixing the fluid within the collapsible bag either before or after rotating the plurality of cams between the first orientation and the second orientation. 13. A load cell lockout system comprising: a lower support, wherein the lower support comprises or is secured to a movable platform having wheels;an upper support;a load cell disposed between the lower support and the upper support, the upper support being movable relative to the lower support between a first position wherein a first load is applied by the upper support to the load cell and a second position wherein either a second load that is lighter than the first load is applied by the upper support to the load cell or no load is applied by the upper support to the load cell; anda lockout comprising a cam with an eccentric perimeter side edge, the cam being rotatable between a first orientation whereby the upper support is placed in the first position and a second orientation whereby the upper support is placed in the second position. 14. The load cell lockout system as recited in claim 13, wherein the load cell comprises a load cell beam having a first end and an opposing second end with a longitudinal axis extending therebetween, the first end of the load cell beam being secured to the lower support and the second end of the load cell beam being biased against or secured to the upper support when the upper support is in the first position, the longitudinal axis of the load cell being horizontally disposed within a variance of +/−10°. 15. The load cell lockout system as recited in claim 13, wherein the cam assembly comprises: a stand secured to the lower support or the upper support, the cam being rotatably mounted to the stand; anda lift movably mounted to the stand, the cam pushing against the lift to move one of the lift or stand relative to the other as the cam is rotated from the first orientation to the second orientation. 16. The load cell lockout system as recited in claim 13, further comprising means disposed on the cam for selectively rotating the cam, the means for selectively rotating the cam comprising an engager projecting from a front face of the cam, the engager having a polygonal transverse cross section. 17. The load cell lockout system as recited in claim 13, wherein the perimeter side edge of the cam includes a flat section.