over towards the set of box springs 551 and the hooks of the horizontal bar with spring hooks 554 is attached to the subcomponent tie wires 557. Then the hydraulic pump 540 is activated causing the movable cylinder 558 to push the moving frame 552 downward forcing the plurality of rigid swivel connectors 560 and the attached horizontal bar with spring hooks 554 to move downward separating the separated spring sub component 561 from the separated base subcomponent 563. Then the hydraulic pump 540 is activated causing the movable cylinder 558 to pull the moving frame 552 upward to where the attached horizontal bar with spring hooks 554 can be detached from the separated spring sub component 561. Then the separated spring sub component 561 is removed and placed on the set of rollers 412 and then moved 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 separated spring sub component 561 into the four sided compaction chamber 409. Then the separated base subcomponent 563 is rotated 180 degrees and placed back on top of the horizontal support 562 such that the subcomponent slats 542 are resting on the horizontal support 562 and the subcomponent long boards 544 are on the bottom of the subcomponent slats 542 hanging down and not touching the horizontal support 562. Then the hydraulic pump 540 is activated causing the movable cylinder 558 to push the moving frame 552 downward such that the subcomponent attached adjustable vertical protrusions 564 engage only the subcomponent long boards 544 separating the subcomponent long boards 544 from the subcomponent slats 542. Then the hydraulic pump 540 is activated causing the movable cylinder 558 to pull the moving frame 552 upward to its original shown position. All parts of the separated base subcomponent 563 are then removed.

In further detail, still referring to the invention of Fig. 25, the horizontal support 562 needs to be of adequate strength to resist the forces placed upon it during the separation of the set of box springs 551 into the separated spring sub component 561 and into the separated base subcomponent 563

Frame, and the horizontal support 562 needs to be of adequate strength to resist the forces placed upon it during the separation of the separated base subcomponent 563 into the subcomponent slats 542 and into the subcomponent long boards 544. Further, in order to slide the set of box springs 551 onto the horizontal support 562, the horizontal support 562 needs to be slender enough to pass through the set of box springs 551.

The construction details of the invention as shown in Fig. 25 are "as shown" and "may be" constructed out of composites, preferably made out of lumber, more preferably made out of metal, and more preferably made out of steel.

The advantages of the present invention shown in Fig. 25 include, without limitation, as opposed to a slow manual process, providing a faster mechanical means of separating the set of box springs 551 into the separated spring sub component 561 and into the separated base subcomponent 563 and further separating the separated base subcomponent 563 into the subcomponent slats 542 and into the subcomponent long boards 544. Further, the separated spring sub component 561 now comprises a set of springs ready to be compacted.

In broad embodiment, the invention Fig. 25 is a mechanical device that separates any set of box springs of any size into a spring component and into a frame component in preparation for the