Patent Number: 
Section: claims

1. An exoskeleton frame comprising:a frame body made of a single flat continuous piece of flexible material configured to be manipulated such that in a first position, the single flat continuous piece of flexible piece of material is bent and includesa front torso member positioned such that when the exoskeleton frame is worn by a user the front torso member is located along a front of a torso of the user;a back torso member positioned such that when the exoskeleton frame is worn by a user the back torso member is located along a back of the torso of the user;a first shoulder band located at a bend of the single flat continuous piece of material, the first shoulder band extending from the front torso member to the back torso member;a second shoulder band located at the bend of the single flat piece of material, the second shoulder band extending from the front torso member to the back torso member; andan opening positioned between the first shoulder band and second shoulder band such that when the exoskeleton frame is worn by a user, a neck of the user is located within the opening,wherein the single flat continuous piece of flexible material is configured to be manipulated such that in a second position, the single flat continuous piece of flexible material is at least partially unbent such that the front torso portion is moved away from the back torso portion; andan adjustable belt removably attached to the front torso and back torso member,wherein the adjustable belt is configured to direct a weight of apparel that is worn by the user over the exoskeleton frame to a weight-bearing area of the user located between knees and abdomen of the user, and wherein the first shoulder band and second shoulder band are configured to support the weight of the apparel such that the weight of the apparel is held off of a first shoulder and a second shoulder of the user. 2. The exoskeleton frame of claim 1, wherein the front torso member and back torso member each include at least one belt attachment structure configured to attach the adjustable belt to the exoskeleton frame. 3. The exoskeleton frame of claim 2, wherein the at least one belt attachment structure includes a plurality of slits configured to securably receive the adjustable belt. 4. The exoskeleton frame of claim 1, wherein the back torso member includes a first vertical element having a first end, wherein the front torso member includes:a chest plate positioned such that when the exoskeleton frame is worn by the user the chest plate is located in front of a chest area of the user;a second vertical element having a second end; anda third vertical element having a third end,wherein the first shoulder band and second shoulder band extend from the chest plate to the back torso member,wherein the second vertical element and third vertical element extend from the chest plate opposite the first shoulder band and second shoulder band. 5. The exoskeleton frame of claim 4, wherein the first vertical element includes a first plurality of slits located proximate to the first end, wherein the second vertical element includes a second plurality of slits located proximate to the second end, wherein the third vertical element includes a third plurality of slits located proximate to the third end, wherein the first plurality of slits, second plurality of slits, and third plurality of slits are configured to receive the adjustable belt such that the adjustable belt is securable to the exoskeleton frame at different locations along the first vertical element, second vertical element, and third vertical element. 6. The exoskeleton frame of claim 1, wherein the front torso member includes a space positioned such that when the user is wearing the exoskeleton frame, the space is located in front of a stomach area of the user. 7. The exoskeleton frame of claim 1, wherein when the exoskeleton frame is worn by a user, a first gap is located between the first shoulder of the user and the first shoulder band, and a second gap is located between the second shoulder of the user and the second shoulder band. 8. The exoskeleton frame of claim 7, wherein the first shoulder band and second shoulder band are configured to compress while maintaining the first gap and second gap by holding the apparel off of the first shoulder and the second shoulder of the user when apparel is worn over the exoskeleton frame by the user. 9. The exoskeleton frame of claim 1, wherein a space between the front torso member and back torso member is adjustable to fit differently sized users by lengthening or shortening a length of the adjustable belt. 10. A method comprising:providing a single flat continuous piece of flexible material configured to be manipulated such that in a first position, the single flat continuous piece of flexible piece of material is bent and includesa front torso member positioned such that when the exoskeleton frame is worn by a user the front torso member is located along a front of a torso of the user;a back torso member positioned such that when the exoskeleton frame is worn by a user the back torso member is located along a back of the torso of the user;a first shoulder band located at a bend of the single flat continuous piece of material, the first shoulder band extending from the front torso member to the back torso member;a second shoulder band located at the bend of the single flat piece of material, the second shoulder band extending from the front torso member to the back torso member; andan opening positioned between the first shoulder band and second shoulder band such that when the exoskeleton frame is worn by a user, a neck of the user is located within the opening,wherein the single flat continuous piece of flexible material is configured to be manipulated such that in a second position, the single flat continuous piece of flexible material is at least partially unbent such that the front torso portion is moved away from the back torso portion;forming a preformed frame body out of the single flat continuous piece of flexible material by bending the single flat continuous piece of flexible material, such that the preformed frame body includes a first shoulder band located at a bend of the single flat continuous piece of flexible material, the first shoulder band, a second shoulder band located at the bend of the single flat piece of flexible material, the second shoulder band, an opening between the first shoulder band and second shoulder band, a front torso member, and a back torso member; andmanipulating the preformed frame body into a frame body such that when the frame body is worn by a user, the front torso member is located in front of a torso of the user and the back torso member is located along a back of the torso of the user, and the first shoulder band and second shoulder band are configured to support the weight of apparel that is worn by the user over the frame body such that the weight of the apparel is held off of a first shoulder and a second shoulder of the user. 11. The method of claim 10, including attaching an adjustable belt to the front torso member and back torso member. 12. The method of claim 10, including forming the preformed body out of the single flat continuous piece of flexible material such that the back torso member includes a first vertical element having a first end, and such that the front torso member includes:a chest plate;a second vertical element having a second end; anda third vertical element having a third end,wherein the first shoulder band and second shoulder band extend from the chest plate to the back torso member,wherein the second vertical element and third vertical element extend from the chest plate opposite the first shoulder band and second shoulder band. 13. The method frame of claim 12, including forming the preformed body out of the piece of material such that a space is located between the second vertical element and the third vertical element. 14. The method frame of claim 10, including forming at least one belt attachment structure in each of the front torso member and back torso member. 15. The method frame of claim 10, wherein the manipulating the single flat continuous piece of flexible material into a frame body includes bending the preformed frame body such that a first end of the back torso member is aligned with a second end of the front torso member. 16. The method of claim 15, including applying heat to the preformed frame body while the preformed frame body is bent. 17. The method of claim 10, wherein the single flat continuous piece of flexible material is a high-density polyethylene. 18. The method of claim 10, wherein the forming a preformed frame body out of the single flat continuous piece of flexible material includes at least one of cutting and stamping the piece of material. 19. An exoskeleton frame comprising:a frame body made of a single flat continuous piece of flexible material configured to be manipulated such that in a first position, the single flat continuous piece of flexible piece of material is bent and includesa front torso member positioned such that when the exoskeleton frame is worn by a user the front torso member is located along a front of a torso of the user;a back torso member positioned such that when the exoskeleton frame is worn by a user the back torso member is located along a back of the torso of the user;a first shoulder band located at a bend of the single flat continuous piece of flexible material, the first shoulder band extending from the front torso member to the back torso member;a second shoulder band located at the bend of the single flat continuous piece of flexible material, the second shoulder band extending from the front torso member to the back torso member; andan opening positioned between the first shoulder band and second shoulder band such that when the exoskeleton frame is worn by a user, a neck of the user is located within the opening,wherein the single flat continuous piece of flexible material is configured to be manipulated such that in a second position, the single flat continuous piece of flexible material is at least partially unbent such that the front torso portion is moved away from the back torso portion,wherein the front torso member and back torso member are configured to receive an adjustable belt that is configured to direct a weight of apparel that is worn by the user over the exoskeleton frame to a weight-bearing area of the user located between knees and abdomen of the user, and wherein the first shoulder band and second shoulder band are configured to support the weight of the apparel such that the weight of the apparel is held off of a first shoulder and a second shoulder of the user. 20. The exoskeleton frame of claim 19, wherein the back torso member includes a first vertical element having a first end, wherein the front torso member includes:a chest plate positioned such that when the exoskeleton frame is worn by the user the chest plate is located in front of a chest area of the user;a second vertical element having a second end; anda third vertical element having a third end,wherein the first shoulder band and second shoulder band extend from the chest plate to the back torso member,wherein the second vertical element and third vertical element extend from the chest plate opposite the first shoulder band and second shoulder band. 21. A method comprising:providing the exoskeleton frame of claim 19; andwearing the exoskeleton frame, by a user, such that the first shoulder band and second shoulder band are positioned above a first shoulder and second shoulder of the user, and such that a first gap is between the first shoulder and first shoulder band, and a second gap is between the second shoulder and second shoulder band. 22. The method of claim 21, wherein the first shoulder band and second shoulder band are compressible such that the first gap and second gap are maintained when the apparel is worn by the user over the exoskeleton frame, and decompressible when the apparel is taken off by the user.