Constant force compression lattice

I claim: 1. A constant force compression construct, comprising: (a) a plurality of compressible layers, each compressible layer comprising a plurality of interconnected flexible struts configured as a regular hexagonal lattice of repeating unit cells, with said layers spaced apart from one another, and with said unit cells of each layer aligned with one another; (b) a plurality of beams interconnecting each of said compressible layers with each respective adjacent compressible layer to form a three-dimensional lattice having an upper portion, a lower portion, and a compressible region therebetween, with said repeating unit cells contained in said compressible region; (c) optionally, a first force-dispersing segment connected to said upper portion; and (d) optionally, a second force-dispersing segment connected to said lower portion. 2. The construct of claim 1 , wherein said compressible region is anisotropically compressible in plane with said compressible layers and along the longest dimension of the hexagonal structures upon constant application of pressure, and which compressible region rebounds to its prior pre-compressed dimension upon removal of said pressure. 3. The construct of claim 1 , wherein said compressible region has a compression ratio of precompressed height to compressed height of 2:1 to 10:1. 4. The construct of claim 1 , wherein said compressible layers have a unit cell size of 10 microns to 20 millimeters. 5. The construct of claim 1 , wherein said compressible layers have a height of 10 unit cells to 10 12 unit cells. 6. The construct of claim 1 , wherein said struts and beams and optionally said first and/or second force-dispersing elements are integrally formed with one another. 7. The construct of claim 1 , wherein said struts and beams and optionally said first and/or second force-dispersing elements are comprised of an elastomeric material. 8. The construct of claim 1 , wherein said struts and beams and optionally said first and/or second force-dispersing elements are comprised of polyurethane. 9. The construct of claim 1 , wherein said compressible layers are flat, curved or a combination thereof. 10. The construct of claim 1 , wherein said beams are parallel to one another, radially arranged with respect to one another, or a combination thereof. 11. The construct of claim 1 , wherein said construct is produced by an additive manufacturing process. 12. A head cushion comprising the construct of claim 1 . 13. An automotive, aerospace, or architectural bumper, impact panel, or interior cushion comprising the construct of claim 1 . 14. A container comprising an outer casing, and at least one construct of claim 1 within said casing, wherein said outer casing and said at least one construct together are configured to contain at least one object therein. 15. A stepwise response device comprising at least two constructs of claim 1 stacked upon one another, and optionally integrally formed with one another, with their directions of constant force compression aligned, and with each of said constructs having a different compression profile. 16. A controllable response device, comprising: (a) a fluid impermeable outer shell defining an inner cavity; (b) at least one construct contained in said cavity; and (c) a fluid valve in said outer shell configured to fill said cavity with fluid and/or drain fluid from said cavity, wherein said at least one construct comprises: a plurality of compressible layers, each compressible layer comprising a plurality of interconnected flexible struts configured as a regular hexagonal lattice of repeating unit cells, with said layers spaced apart from one another, and with said unit cells of each layer aligned with one another; a plurality of beams interconnecting each of said compressible layers with each respective adjacent compressible layer to form a three-dimensional lattice having an upper portion, a lower portion, and a compressible region therebetween, with said repeating unit cells contained in said compressible region; optionally, a first force-dispersing segment connected to said upper portion; and optionally, a second force-dispersing segment connected to said lower portion. 17. A method of making at least one construct, comprising: (a) forming an intermediate object by additive manufacturing with a dual cure polymerizable liquid, said intermediate object having the same shape as, or a shape to be imparted to, said construct; then (b) optionally washing said intermediate object; and then (c) further curing said intermediate object, optionally by heating, to produce said construct, wherein said at least one construct comprises: a plurality of compressible layers, each compressible layer comprising a plurality of interconnected flexible struts configured as a regular hexagonal lattice of repeating unit cells, with said layers spaced apart from one another, and with said unit cells of each layer aligned with one another; a plurality of beams interconnecting each of said compressible layers with each respective adjacent compressible layer to form a three-dimensional lattice having an upper portion, a lower portion, and a compressible region therebetween, with said repeating unit cells contained in said compressible region; optionally, a first force-dispersing segment connected to said upper portion; and optionally, a second force-dispersing segment connected to said lower portion.