411 to roll across the set of rollers 412. The angle of inclination 415 of the set of rollers 412 should assist the set of springs 411 to roll across the set of rollers 412, and more preferably the angle of inclination 415 of the set of rollers 412 should allow the set of springs 411 to roll across the set of rollers 412 and into the three sided compaction chamber bottom 410 via gravity. The placement of the set of rollers 412 should allow clearance for the lowering of the compaction chamber top 414 onto the three sided compaction chamber bottom 410 which then completes the four sided compaction chamber 409.

The construction details of the invention as shown in Fig. 17 are "as shown" and "may be" made of steel, more preferably made of steel harder than the steel in the set of springs 411.

Referring now to the invention shown in Fig. 17, the set of rollers 412 may be located on either side of the three sided compaction chamber bottom 410.

The advantages of the present invention shown in Fig. 17 include, without limitation, using rollers to place the set of springs 411 into the three sided compaction chamber bottom 410 instead of manually loading the set of springs 411 into the three sided compaction chamber bottom 410.

In broad embodiment, the invention Fig. 17, may be of any size or shape and comprises a metal spring compactor of any shaped bottom and any shaped movable top with any kind of rollers sized to accept or move any size set of springs.

Referring now to the invention in more detail, in Fig. 18 there is shown one embodiment of the current invention 418 comprising: a top support 420 for a plurality of powered abrasive wheels 417, a bottom support 422 for a plurality of powered abrasive wheels 416, a set of rollers 424, and further comprising; a set of springs 419 of a height 421 and with a support wire 423.

In more detail, still referring to the invention of Fig. 17 and Fig. 18, in operation the set of springs 419 is positioned on the oposite side of the current invention 418 from the set of rollers 424. The top support 420 and the bottom support 422 are adjusted such that for the set of springs 419 of the height 421, that both the plurality of powered abrasive wheels 416 and the plurality of powered abrasive wheels 417 engage the set of springs 419 at the desired depth when the set of springs 419 passes through the current invent 418. Then both the plurality of powered abrasive wheels 417 in the top support 420 and the plurality of powered abrasive wheels 416 are activated and the set of springs 419 is moved through the current invention 418 cutting the support wire 423 at a plurality of points. Then the now cut set of springs 419 is moved forward and passes over the set of rollers 424 and then over the set of rollers 412 and into the opening of the three sided compaction chamber bottom 410 followed by the lowering of the compaction chamber top 414 which then completes the loading the now cut set of springs 419 into the four sided compaction chamber 409.

In further detail, still referring to the invention of Fig. 18, the plurality of powered abrasive wheels 416 and 417 need to be comprised of suitable material and strength to cut the support wire 423 when adequately powered to do so by their power source.