Heat press, components, apparatuses, systems, and methods

What is claimed is: 1. A heat press docking station base comprising: a nest portion including a body shell and a perforated floor, the body shell having a lower surface, the perforated floor connected to the body shell; and one or more legs extending from a lower surface of the body shell; wherein the body shell comprises: an inner peripheral body shell portion; and an outer peripheral body shell portion joined to the inner peripheral body shell portion. 2. The heat press docking station base of claim 1 , wherein the one or more legs integrally extend from a lower surface of the outer peripheral body shell portion joined to the inner peripheral body shell portion. 3. The heat press docking station base of claim 1 , wherein the inner peripheral body shell portion and the outer peripheral body shell portion joined to the inner peripheral body shell portion cooperate to form one or more peripheral interior spaces or gaps that include an insulative gas. 4. The heat press docking station base of claim 3 , wherein the insulative gas is subjected to a vacuum. 5. The heat press docking station base of claim 1 further comprising one or more heat plate support protrusions extending from the nest portion. 6. The heat press docking station base of claim 5 , wherein the one or more heat plate support protrusions extend from the inner peripheral body shell portion of the nest portion. 7. The heat press docking station base of claim 5 , wherein the one or more heat plate support protrusions extend from the perforated floor of the nest portion. 8. The heat press docking station base of claim 5 , wherein the one or more heat plate support protrusions extend from: the inner peripheral body shell portion of the nest portion; and the perforated floor of the nest portion. 9. The heat press docking station base of claim 5 , wherein the one or more heat plate support protrusions are not aligned with and are offset from the one or more legs. 10. The heat press docking station base of claim 5 , wherein an upper-most surface of the one or more heat plate support protrusions extend away from an upper surface of the perforated floor at a first distance, wherein the one or more legs extend away from a lower surface of the perforated floor at a second distance, and wherein the first distance, the second distance and a thickness of the perforated floor define a length of each perforated passage extending through the thickness of the perforated floor. 11. The heat press docking station base of claim 1 further comprising a heat resistant material insert disposed within a cavity formed by the one or more legs. 12. A heat press comprising: a deflector subassembly including a force deflector and an insulation base portion, the force deflector including an upper handle portion, the insulation base portion connected to the force deflector; a heating subassembly including a heating coil and a heat plate the heat plate thermally coupled to the heating coil; a housing cover that is connected to and at least partially encloses one or more components of one or both of the deflector subassembly and the heating subassembly, wherein the housing cover comprises a leading side portion and a trailing side portion; and electronics disposed within the housing cover, wherein the electronics comprise: a first printed circuit board coupled to and at least partially disposed within the housing cover adjacent to the upper handle portion of the force deflector; and a second printed circuit board at least partially disposed within the leading side portion of the housing cover. 13. The heat press of claim 12 , wherein the force deflector further comprises a lower bowl-shaped portion extending from a distal end of the upper handle portion, wherein the lower bowl-shaped portion includes a downwardly-facing lip. 14. The heat press of claim 13 , wherein the insulation base portion further comprises: a lower bowl-shaped portion having: a downwardly-facing lip; and a peripheral upwardly-facing ledge surface that defines a portion of an upper surface of the insulation base portion, wherein the downwardly-facing lip of the lower bowl-shaped portion of the force deflector is disposed adjacent and mates with the peripheral upwardly-facing ledge surface of the insulation base portion. 15. The heat press of claim 12 , wherein a peripheral edge of the heat plate defines a tear-drop shape. 16. The heat press of claim 15 , wherein: the peripheral edge of the heat plate comprises a leading edge portion and a trailing edge portion opposite the leading edge portion; the leading edge portion is narrower than the trailing edge portion; and the trailing edge portion is curved. 17. The heat press of claim 16 , wherein the peripheral edge of the heat plate comprises opposing lateral sides that extend between the leading edge portion and the trailing edge portion, wherein the trailing edge portion and the opposing lateral sides form a bulbous shape. 18. The heat press of claim 12 , wherein the heat plate comprises an implement-contact heating surface configured to be pressed against a workpiece during use, wherein the implement-contact heating surface is solid and continuous and is thus free of holes and apertures. 19. A heat press docking station base comprising: a nest portion including a body shell and a perforated floor, the body shell having a lower surface, the perforated floor connected to the body shell; one or more legs extending from a lower surface of the body shell; and a heat resistant material insert disposed within a cavity formed by the one or more legs. 20. The heat press docking station base of claim 19 , wherein the body shell includes: an inner peripheral body shell portion; and an outer peripheral body shell portion joined to the inner peripheral body shell portion.