Hemming head device and method

What is claimed is: 1. A hemming device for use in a metal forming operation on a workpiece, the hemming device comprising: a mounting plate adapted to be connected to an industrial robot; an elongate shaft extending along a longitudinal axis and connected to the mounting plate, the shaft having an elongate radial wall positioned between the mounting plate and a shaft lower portion opposite the mounting plate, the elongate radial wall defining an internal cavity and at a pair of through keyhole slot opening diametrically opposed in the shaft radial wall positioned between the mounting plate and the shaft lower portion, the shaft keyhole slots in communication with the internal cavity; a preload cartridge having a first biasing member seat and a second biasing member seat separated by a stop, the cartridge positioned in shaft internal cavity and movable relative to the shaft along the longitudinal axis; a first biasing member positioned in the first biasing member seat extending toward the mounting plate; a second biasing member positioned in the second biasing member seat extending toward the shaft lower portion; a housing positioned radially outward and concentric about at least a portion of the shaft, the housing movable relative to the shaft, the housing defining a pair of keyhole slots in communication with the shaft interior cavity and aligned with the cartridge; a first housing retainer and a second housing retainer, each housing retainer connected to the cartridge through the aligned keyhole slots in the shaft and the housing, the second housing retainer diametrically opposed to the first housing retainer relative to the longitudinal axis; and a workpiece forming member connected to the housing, wherein on application of a downward force to the shaft from the mounting plate toward the forming member the first biasing member is compressed and wherein on application of a pulling force to the forming member the second biasing member is compressed, each biasing member compression providing a range of movement of the forming member along the longitudinal axis while maintaining a substantially constant force between the forming member and a workpiece. 2. A hemming device for use in a metal forming operation on a workpiece, the hemming device comprising: an elongate shaft extending along a longitudinal axis, the shaft having an elongate radial wall positioned between a shaft upper portion and a lower portion of the shaft, the elongate radial wall defining an internal cavity and a first and a second through opening in the radial wall positioned between the upper portion and the lower portion and diametrically opposed to one another about the longitudinal axis in communication with the internal cavity; a cartridge having a stop positioned in shaft internal cavity, the cartridge movable relative to the shaft along the longitudinal axis; a first biasing member engaged with the cartridge; a second biasing member engaged with the cartridge; a housing connected to the cartridge through the shaft radial wall through opening and movable with the cartridge along the longitudinal axis relative to the shaft, the housing defining a first and a second key slot diametrically opposed to one another about the longitudinal axis and aligned with the respective shaft first and second radial wall through openings; a first housing retainer and a second housing retainer diametrically positioned from each other relative to the longitudinal axis, each of the first and the second housing retainers respectively connected to the housing and extending through one of the respective aligned first or second key slot and respective first or second shaft radial wall through opening, each of the first and the second retainers respectively connecting to the cartridge thereby rigidly connecting the housing to the cartridge for movement of the cartridge and housing along the longitudinal axis relative to the shaft; and a workpiece forming member connected to the housing, wherein on application of a force to the shaft, one of the first or the second biasing members provides a biasing resistive force to maintain the forming member in contact with the workpiece. 3. A hemming device for use in a metal forming operation on a workpiece, the hemming device comprising: an elongate shaft extending along a longitudinal axis, the shaft having an elongate radial wall positioned between a shaft upper portion and a lower portion of the shaft, the elongate radial wall defining an internal cavity and at least one through opening in the radial wall positioned between the upper portion and the lower portion in communication with the internal cavity; a cartridge having a stop positioned in shaft internal cavity, the cartridge movable relative to the shaft along the longitudinal axis; a first biasing member engaged with the cartridge; a second biasing member engaged with the cartridge; a housing connected to the cartridge through the shaft radial wall through opening and movable with the cartridge along the longitudinal axis relative to the shaft, the housing positioned radially outward of and substantially concentric around the shaft relative to the longitudinal axis; a gauge for indicating one of the position of the shaft relative to the housing along the longitudinal axis or the biasing resistive force by the first or the second biasing members, the gauge further comprising: a gauge first portion connected to the shaft upper portion and extending downward to overlap a portion of the housing; and a gauge second portion having measurement indicia thereon, the gauge first portion position relative to the measurement indicia provides data on the relative linear position of the housing relative to the shaft along the longitudinal axis; and a workpiece forming member connected to the housing, wherein on application of a force to the shaft, one of the first or the second biasing members provides a biasing resistive force to maintain the forming member in contact with the workpiece. 4. The hemming device of claim 1 further comprising a shaft upper portion, the shaft upper portion further comprising a radial mounting surface. 5. The hemming device of claim 2 wherein the cartridge further comprises an elongate member defining a first seat cavity for receipt of the first biasing member and a second seat cavity for receipt of the second biasing member, the first and second seat cavities separated by the stop abuttingly engaging the first and the second biasing members. 6. The hemming device of claim 1 wherein the shaft further comprises at least one spring preload member connected to the shaft to at least partially enclose the shaft internal cavity and the first and the second biasing members. 7. The hemming device of claim 6 wherein the spring preload member is positioned along the longitudinal axis to abuttingly engage and apply a compressive preload force on at least one of the first or the second biasing members along the longitudinal axis when the preload member is fully secured to the shaft. 8. The hemming device of claim 1 further comprising a bearing retainer connected to the housing, the forming member connected to the bearing retainer. 9. The hemming device of claim 8 wherein the bearing retainer further comprises a spindle rotatably connected to the bearing retainer, the spindle having a first end and a second end extending from opposing sides of the bearing retainer. 10. The hemming device of claim 9 wherein the forming member comprises a first hemming wheel connected to the spindle first end and a second hemming wheel connected to the spindle second end. 11. The hemming device of claim 8 wherein the bearing retainer further