Sling bar or lift strap connector having an integrated scale with tilt compensation

What is claimed is: 1. A patient lift system, comprising: a lift apparatus including a first portion of an inductive charging system; a lift strap having a first end and a second end, the first end of the lift strap being connected to the lift apparatus; a sling bar connected to the second end of the lift strap, said sling bar having a second portion of the inductive charging system, the inductive charging system being operable to inductively transmit power from the first portion to the second portion; a load cell and sensor mounted at the sling bar, the load cell and sensor being configured and operable to measure a load on the sling bar regardless of a tilt angle of the sling bar from horizontal; a processor connected to the sensor and being configured and operable to calculate a weight of an active load suspended from the sling bar, the weight calculation determining a weight of a load suspended from the sling bar from a measured force by the sensor regardless of tilt angle of the sling bar; a scale in the sling bar for outputting the weight determined by the processor; and a power source in the sling bar in electrical communication with the scale to provide power to the scale, the power source being connected to receive the inductively transmitted power from the second portion. 2. A patient lift system, comprising: a lift apparatus; a lift strap having a first end and a second end, the first end of the lift strap being connected to the lift apparatus; a sling bar connected to the second end of the lift strap, said sling bar having a scale integrally disposed in the sling bar for measuring forces applied to the scale, and a power source in electrical communication with the scale to provide power to the scale; a load cell and sensor mounted at the sling bar, the sensor and load cell being configured and operable to measure a load on the sling bar regardless of a tilt angle of the sling bar from horizontal; and a processor connected to the sensor and being configured and operable to calculate a weight of an active load suspended from the sling bar, the weight calculation determining a weight of a load suspended from the sling bar from a measured force by the sensor regardless of tilt angle of the sling bar; an inductive charging system including a first portion in the lift apparatus and a second portion in the sling bar, the second portion being connected to the power source to provide power to the scale, the first and second portions being operable to inductively transmit power from the first portion to the second portion. 3. A patient lift system as claimed in claim 2 , further comprising: a movable base including legs and an upright frame on which the lift apparatus is supported. 4. A patient lift system as claimed in claim 2 , further comprising: a beam and sliding element configured for connection to a structural element of a building, the beam and sliding element being connected to support the lift apparatus. 5. A patient lift system as claimed in claim 2 , wherein the lift apparatus includes a housing enclosing a motor and drum, the first end of the lift strap being mounted on the drum and the motor being operable to selectively retract and selectively pay out the lift strap. 6. A patient lift system as claimed in claim 2 , wherein the load cell includes two load sensing elements mounted in the sling bar and connected the processor, the two load sending elements providing sensor data to the processor by which the processor performs the calculation. 7. A patient lift system as claimed in claim 6 , wherein the two load sensing elements include two load cells extending in opposite directions from a center of the sling bar. 8. A patient lift system as claimed in claim 6 , wherein the two load sensing elements include two load cells mounted back-to-back and oriented approximately 180 degrees relative to one another. 9. A patient lift system, comprising: a lift apparatus; a lift strap having a first end and a second end, the first end of the lift strap being connected to the lift apparatus; a sling bar connected to the second end of the lift strap, said sling bar having a scale integrally disposed in the sling bar for measuring forces applied to the scale, and a power source in electrical communication with the scale to provide power to the scale; a load cell and sensor mounted at the sling bar, the sensor and load cell being configured and operable to measure a load on the sling bar regardless of a tilt angle of the sling bar from horizontal; a processor connected to the sensor and being configured and operable to calculate a weight of an active load suspended from the sling bar, the weight calculation determining a weight of a load suspended from the sling bar from a measured force by the sensor regardless of tilt angle of the sling bar, the processor performing one of a geometric calculation or a vector calculation to obtain a total weight; and a rotatable housing having a horizontal axis of rotation, the rotatable housing including a cylinder mounted without a cylindrical opening in the sling bar, the load cell and sensor being mounted in the cylinder, the rotatable housing being operable to maintain the load cell and sensor in a position to sense a weight of the sling bar along a direction of gravitational force when the sling bar is tilted from horizontal. 10. A patient lift system, comprising: a lift apparatus; a lift strap having a first and a second end, said lift strap connected at said first end to said lift apparatus; a quick-release link connected to said second end of said lift strap for supporting an active load therefrom, said quick-release link having a scale and a load cell adjacent to the quick release link, the scale and the load cell being operable to measure forces applied to the load cell, a power source in electrical communication with said scale to provide power to said scale and load cell; and an inductive charging system including a first portion in the lift apparatus and a second portion in the quick release link, the second portion being connected to the power source to provide power to the scale, the first and second portions being operable to inductively transmit power from the first portion to the second portion. 11. A patient lift system as claimed in claim 10 , wherein the load cell includes a first end and a second end, the first end of the load cell includes a lift strap retention buckle connected to the lift strap. 12. A patient lift system as claimed in claim 11 , wherein the load cell is generally C-shaped. 13. A patient lift system as claimed in claim 10 , wherein the quick release link includes a D-ring configured to connect to a sling bar. 14. A patient lift system, comprising: a lift apparatus; a lift strap having a first end and a second end, the first end of the lift strap being connected to the lift apparatus; a sling bar connected to be suspended from to the second end of the lift strap; a load cell disposed to measure forces exerted by a load suspended from the sling bar; a scale connected to the load cell and operable to indicate a weight of the load suspended from the sling bar; a power source connected to power the load cell and the scale; wherein the load cell and the scale and the sensor are in one of: the sling bar, or a connector link between the lift strap and the sling bar, and an inductive charging system including a first portion in the lift apparatus and a second portion in the one of the sling bar or the connector link, the second portion being connected to the power source to provide power to the scale, the first and s