The construction details of the invention as shown in Fig. 18 are "as shown" and "may be" made of steel, more preferably steel harder than the steel in the set of springs 419.

The advantages of the present invention shown in Fig. 18 include, without limitation, via cutting the support wire 423 it eliminates the support wire 423’s strength to pull individual springs in the set of springs 419 out of position during the compaction process.

In broad embodiment, the invention shown in Fig. 18, may be of any size or shape and comprises the set of springs 419 preparation step to weaken the support wire 423 during compaction of the set of springs 419 or the support wires of any other set of springs.

Referring now to the invention in more detail, in Fig. 19 there is shown one embodiment of the current invention 431 comprising: a power drive unit 434, an axle with plurality of cutting disks 432, a base cutting surface 430, a set of rollers 436, and further comprising a set of springs 433 of a height of 435.

In more detail, still referring to the invention of Fig. 17 and Fig. 19, in operation the power drive unit 434 is activated causing the axle with plurality of cutting disks 432 to rotate. The set of springs 433 is placed into the current invention 431 on the side oposite the set of rollers 436. As the set of springs 433 passes between the bottom of the axle with plurality of cutting disks 432 and the top of the base cutting surface 430, the set of springs 433 is cut. Then the now cut set of springs 433 passes over the set of rollers 436 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 433 into the four sided compaction chamber 409.

In further detail, still referring to the invention of Fig. 19, the axle with plurality of cutting disks 432 needs to be comprised of suitable material and strength and sharpness to cut the wires in the set of springs 433 between the bottom of the cutting disks in the axle with plurality of cutting disks 432 and the top of the base cutting surface 430 when adequately powered to do so by the power drive unit 434.

The construction details of the invention as shown in Fig. 19 are "as shown" and "may be" made of steel, more preferably steel harder than the steel in the set of springs 433.

The advantages of the present invention shown in Fig. 19 include, without limitation, via cutting the set of springs 433 it minimizes the strength of the ties wires in the set of springs 433 to pull individual springs in the set of springs 433 out of position during the compaction process.

In broad embodiment, the invention shown in Fig. 19, may be of any size or shape and comprises the set of springs 433 preparation step to cut the tie wires of the set of springs prior to the compaction process of the set of springs 433 or to cut the tie wires of any other set of springs.