Universal vacuum cup and method of lifting an object

What is claimed is: 1. A vacuum cup assembly comprising: a cup structure defining an opening at a proximal end and a recess at a distal end, the cup structure is formed of a first material, the first material being flexible, the cup structure defining a cavity region between the proximal and distal ends, the cavity region including at least one cavity, the opening being in fluid communication with the recess and with the cavity region; a plurality of inner structures disposed in the cavity region, the plurality of inner structures being configured to hold the cup structure in a gripping position when at least a predetermined negative pressure is applied to the cavity region through the opening in the cup structure, the cup structure configured to be in a resting position without the predetermined negative pressure being applied to the cavity region of the cup structure, the vacuum cup assembly having a first shape in the resting position and a second shape in the gripping position, the first shape being different from the second shape, wherein the plurality of inner structures includes a first layer and a second layer; and a flexible layer formed of the first material, the flexible layer being disposed between the first and second layers in the cavity region. 2. The vacuum cup assembly of claim 1 , wherein the first and second layers are formed of a second material that is stiffer than the first material, the vacuum cup assembly having a first stiffness in the resting position and a second stiffness in the gripping position, the second stiffness being greater than the first stiffness. 3. The vacuum cup assembly of claim 2 , the flexible layer dividing the cavity region into a first cavity in which the first layer is disposed and a second cavity in which the second layer is disposed. 4. The vacuum cup assembly of claim 3 , the first layer defining a first aperture through a center of the first layer, the second layer defining a second aperture through a center of the second layer, and the flexible layer defining a third aperture through a center of the flexible layer, the first, second, and third apertures cooperating to form a channel connecting the opening to the recess. 5. The vacuum cup assembly of claim 1 , the flexible layer and at least one of the first and second layers defining an air gap therebetween in the rested position, the air gap being closed in the gripping position. 6. The vacuum cup assembly of claim 5 , the gripping position being a first gripping position, the first and second layers being movable into a plurality of shapes to form a plurality of additional gripping positions. 7. The vacuum cup assembly of claim 5 , the first material being rubber. 8. The vacuum cup assembly of claim 7 , the second material being plastic. 9. The vacuum cup assembly of claim 5 , the cup structure having a frustoconical inner surface defining the recess. 10. The vacuum cup assembly of claim 9 , each of the first and second layers having a frustoconical main body portion and a plurality of legs extending from the frustoconical main body portion. 11. The vacuum cup assembly of claim 1 , wherein the plurality of inner structures includes a plurality of granular bodies. 12. A method of lifting an object, the method comprising: providing a vacuum cup assembly comprising: a cup structure defining an opening at a proximal end and a recess at a distal end, the cup structure being formed of a first material, the first material being flexible, the cup structure defining a cavity region between the proximal and distal ends, the cavity region defining at least one cavity, the opening being in fluid communication with the recess and with the cavity region; and a plurality of inner structures disposed in the cavity region; disposing the distal end of the vacuum cup assembly in contact with the object to at least partially close the recess between the vacuum cup assembly and the object in an initial position of the vacuum cup assembly; providing the plurality of inner structures as including a first layer and a second layer; applying a predetermined negative pressure through the opening, into the cavity region, and into the recess to conform the vacuum cup assembly to the object and to hold the object in a gripping position of the vacuum cup assembly; and providing the vacuum cup assembly as having a flexible layer disposed between the first and second layers in the cavity region, the flexible layer being formed of the first material. 13. The method of claim 12 , further comprising: providing the first and second layers as being formed of a second material that is stiffer than the first material, wherein the step of applying the predetermined negative pressure includes increasing a stiffness of the vacuum cup assembly. 14. The method of claim 13 , further comprising providing the first layer as defining a first aperture through a center of the first layer, the second layer as defining a second aperture through a center of the second layer, and the flexible layer as defining a third aperture through a center of the flexible layer, the first, second, and third apertures cooperating to form a channel connecting the opening to the recess. 15. The method of claim 14 , further comprising: providing an air gap between the flexible layer and at least one of the first and second layers in the initial position; and closing the air gap in the gripping position. 16. The method of claim 15 , the gripping position being a first gripping position, the method further comprising providing the vacuum cup assembly as being reconfigurable into a plurality of additional gripping positions based on corresponding shapes of a plurality of additional objects. 17. The method of claim 12 , further comprising providing the plurality of inner structures as being a plurality of granular bodies, the step of applying the negative pressure further comprising moving the granular bodies within the cavity region to conform the cup structure to the shape of the object.