In broad embodiment, the invention Fig. 3B is a metal spring compactor of any shape which comprises at least one powered ram and at least one resistance or opposing force between which at least one metal spring is laterally to its axis of resistance (See Fig. 1A 6.) compressed beyond its bending point or elastic limit. Further, to enhance efficiency of the current invention the compression chamber 72 may be augmented via the invention as shown in Fig. 1C and Fig. 1D. And, the invention shown in Fig. 3B may be operated in a horizontal mode or vertical mode or any plane inbetween.

Referring now to the invention in more detail, in Fig. 3C, there is shown, one embodiment of the current invention comprising; a motorized belt drive unit 82 with two powered pulleys 83 and 84, one triple power transfer pulley 80, one double power transfer pulley 92, three single power transfer pulleys 81, 88 and 89, a drive shaft 75, two winches 99, a powered ram 90 connected to the belts 85 and 79 via belt attachment 77, a side enclosed compression chamber 94, a movable resistance block 86, two power transfer belts 97 and 98, and a set of springs 93 of height 91.

In more detail, still referring to the invention of Fig. 3C, in operation motorized belt drive unit 82 activates powered pulley 84 which powers belt 98 turning single power pulley 89 which also causes drive shaft 75 to turn causing winches 99 to move the resistance block 86 to where it opens the end of the side enclosed compression chamber 94 so that the metal springs 93 to be compressed may be loaded into the side enclosed compression chamber 94. When the metal springs 93 to be compressed are loaded into the side enclosed compression chamber 94, motorized belt drive unit 82 reverse activates powered pulley 84 which powers belt 98 turning single power pulley 89 which also causes drive shaft 75 to turn causing winches 99 to move the resistance block 86 to where it closes the end of the side enclosed compression chamber 94. Then motorized belt drive unit 82 activates powered pulley 83 in the forward direction which powers belt 96 turning triple power transfer pulley 80 which then activates belt 85 around single pulley 81 and activates belt 97 with belt 97 turning double power transfer pulley 92 activating belt 79 around single pulley 88. Belt 97 is twisted to cause the inner sides of belts 85 and 79 to run in the same direction when activated. Belt attachment 77 is connected to belts 79 and 85 and then moves along in the same direction as the inner side of belts 79 and 85 moving powered ram 90 forward through side enclosed compression chamber 94 compressing the metal springs 93 beyond their bending point. Then motorized belt drive unit 82 activates powered pulley 83 in the reverse direction which powers belt 96 turning triple power transfer pulley 80 which then activates belt 85 around single pulley 81 and activates belt 97 with belt 97 turning double power transfer pulley 92 activating belt 79 around single pulley 88. Belt 97 is twisted to cause the inner sides of belts 85 and 79 to run in the same direction when activated. Belt attachment 77 is connected to belts 79 and 85 and then moves along in the same direction as the inner side of belts 79 and 85 moving powered ram 90 back through side enclosed compression chamber 94 taking the pressure off the metal springs 93 to allow operation of the movable resistance block 86. Then motorized belt drive unit 82 activates powered pulley 84 which powers belt 98 turning single power pulley 89 which also causes drive shaft 75 to turn causing winches 99 to move the resistance block 86 to where it opens the end of the side enclosed compression chamber 94. . Then motorized belt drive unit 82 activates powered pulley 83 in the forward direction which powers belt 96 turning triple power transfer pulley 80 which then activates belt 85 around single pulley 81 and activates belt 97 with belt 97 turning double power transfer