Vacuum chamber machine with spring fracture detection

What is claimed is: 1. Vacuum chamber machine comprising: a frame; a controller; a chamber lid pivotable by a power-operated drive between an open position and a closed position, wherein said chamber lid and a lower chamber part form a vacuum chamber when said chamber lid in said closed position; and a plurality of springs operably connected to said chamber lid, said plurality of springs being in a tensioned state when said chamber lid is in said closed position, and said plurality of springs disposed to operatively support said drive when pivoting said chamber lid from said closed position to said open position, each of said springs being a conductive element and electrically connected to said controller as part of an electric circuit such that a fracture of a spring is detectable via at least one of a change of a current flowing in the electric circuit, or a voltage applied to the electric circuit. 2. Vacuum chamber machine according to claim 1 , wherein each of said plurality of springs include a first end and a second end, and each said first end and said second end of said plurality of springs are attached to a corresponding pair of spring holders in an electrically insulated manner. 3. Vacuum chamber machine according to claim 2 , wherein said pairs of spring holders are also electrically insulated from said frame. 4. Vacuum chamber machine according to claim 3 , wherein said pairs of spring holders are electrically connected in series to each other and to said controller in a second electrical circuit to be able to detect an insulation fault of at least one of said plurality of springs at one of said spring holders. 5. Vacuum chamber machine according to claim 1 , wherein an entire length of a spring between a first said spring holder and a second said spring holder is a portion of said electric circuit. 6. Vacuum chamber machine according to claim 1 , wherein said plurality of said springs are part of a common electric circuit. 7. Vacuum chamber machine according to claim 1 , wherein a plurality of said springs are connected to each other in series. 8. Vacuum chamber machine according to claim 1 , wherein said controller is in electronic communication with said power-operated drive and disables said power-operated drive when said controller detects a spring fracture. 9. Vacuum chamber machine according to claim 1 , wherein said controller prevents said power-operated drive from pivoting said chamber lid between an open position and said closed position when said controller detects a spring fracture. 10. Vacuum chamber machine according to claim 1 , wherein said controller is configured to output error information to a display of said controller when a spring fracture is detected. 11. Vacuum chamber machine according to claim 1 , wherein said power-operated drive comprises at least one of a servo motor, a spindle motor and a linear motor. 12. Vacuum chamber machine according to claim 1 , wherein said power-operated drive is activated by at least one of a foot switch, or said controller. 13. Vacuum chamber machine according to claim 1 , wherein said chamber lid comprises a protective frame moveable relative to said chamber lid. 14. A method for detecting a spring fracture in a vacuum chamber machine, said method comprising the steps of: providing a plurality of springs for operatively supporting a power-operated drive for pivoting a chamber lid, where each of said springs is electrically connected to a controller via a first electric circuit, and wherein said first electric circuit is connected to a first output terminal and to a first input terminal of said controller; applying an electrical voltage to said first output ten final; testing whether a voltage is present at said first input terminal; enabling said drive for said chamber lid via said controller when there is a predetermined voltage present or when said voltage at said first input terminal is equal to that at said first output terminal; connecting each of said plurality of springs to one of a plurality of spring holders in an electrically insulated manner; electrically connecting said plurality of spring holders in series using a second electrical line, said second electrical line creating a second circuit between a second output terminal and a second input terminal; applying one of said electrical voltage or a second electrical voltage to said first output terminal; testing whether one of said electrical voltage or a second electrical voltage is present at said second input terminal; determining that there is a condition of defective insulation between one of the plurality of springs and one of a plurality of spring holders if all or a portion of one of said electrical voltage or all or a portion of said second electrical voltage is present at said second input terminal; enabling said drive by said controller if no said condition of defective insulation between one of the plurality of springs and one of a plurality of spring holders is detected by said controller; and outputting error information to a display of said controller and disabling said drive if one of the predetermined voltage is not present at said first input terminal, said voltage at said first input terminal is not equal to that at said first output terminal, or said condition of defective insulation between one of the plurality of springs and one of a plurality of spring holders is detected. 15. Method according to claim 14 , wherein said electrical voltage applied at said first output terminal is between about 20V and about 35V. 16. Method according to claim 14 , wherein said drive is controlled by at least one of a foot switch, or said controller. 17. A method for detecting a spring fracture in a vacuum chamber machine, said method comprising the steps of: providing a plurality of springs to provide a spring force for assisting a power-operated drive in pivoting a chamber lid from a closed position to an open position; creating a first electric circuit between a first output terminal of a controller and a first input terminal of said controller, wherein each of said springs is a conductive component of said first circuit; applying an electrical voltage to said first output terminal; measuring whether a voltage is present at said first input terminal; and disabling said power-operated drive for said chamber lid when said measured voltage at said first input terminal is zero or below a predetermined voltage indicating an interruption in said first electric circuit and a fracture in one of said plurality of springs. 18. A method for detecting a spring fracture in a vacuum chamber machine of claim 17 further comprising the steps of: connecting each end of each of said plurality of springs to one of a plurality of spring holders in an electrically insulated manner; creating a second electric circuit between a second output terminal of said controller and a second input terminal of said controller by electrically connecting said plurality of spring holders in series using a second electrical line; measuring whether all or a portion of said electrical voltage is present at said second input terminal; determining whether there is a condition of defective insulation between one of said plurality of springs and one of a plurality of spring holders, said condition of defective insulation being present when all or said portion of said electrical voltage is measured at said second input terminal; and disabling said power-operated drive for said chamber lid when is said condition of defective insulation is deter