the three sided compaction chamber bottom 410 followed by the lowering of the compaction chamber top 414 which then completes the loading the set of springs 497 into the four sided compaction chamber 409.

In further detail, still referring to the invention of Fig. 24, the hand held powered rebar cutter 496 needs to be comprised of suitable material and strength and sharpness and power to cut the subcomponent set of tie wires 495 of the set of springs 497 in a plurality of the points 494.

The construction details of the invention as shown in Fig. 24 are "as shown."

The advantages of the present invention shown in Fig. 24 include, without limitation, via cutting the set of springs 497 it minimizes the strength of the subcomponent set of tie wires 495 in the set of springs 497 to pull individual springs in the set of springs 497 out of position during the compaction process.

In broad embodiment, the invention shown in Fig. 24, may be of any size or shape or manufacturer and comprises the set of springs 497 preparation step to cut the subcomponent set of tie wires 495 of the set of springs 497 prior to the compaction process of the set of springs 497 or to cut the tie wires of any other set of springs.

Referring now to the invention in more detail, in Fig. 25 there is shown one embodiment of the current invention comprising:

In Fig. 25A, a plurality of rigid swivel connectors 560, a horizontal support 558 and a vertical support 563,

In Fig. 25 B, a movable cylinder 558, a rigid frame 568, a moving frame 552 which is guided in its up and down movements via the vertical uprights of the rigid frame 568 with subcomponent attached adjustable vertical protrusions 564, a vertical support 556, a horizontal support 562, a horizontal bar with spring hooks 554,

In Fig. 25C, a subcomponent 566 of the moving frame 552,

In Fig. 25D, a set of box springs 551 with all soft materials removed and with its top designated as subcomponent 557 and with its bottom designated as subcomponent 559,

In Fig. 25E, a separated spring sub component 561 with a subcomponent tie wire 557 and a separated base subcomponent 563 of the set of box springs 551 with a subcomponent slats 542 and with a subcomponent long boards 544,

And In Fig. 25F, a hydraulic pump 540.

In more detail, still referring to the invention of Fig 17 and Fig. 25, in operation the horizontal support 558 is removed. Then the set of box springs 551 is rotated so that its subcomponent 557 is facing down. Then the set of box springs 551 is slid onto the horizontal support 562 such that which will become the separated base subcomponent 563 is above the top of the horizontal support 562 and the rest of the set of box springs 551 is hanging downward resting on the horizontal support 562. Then the horizontal support 558 is placed back at its initial position with the end of the horizontal support 562 resting on top of the horizontal support 558. Then the horizontal bar with spring hooks 554 which is attached to the plurality of rigid swivel connectors 560 is moved