Apparatus, system, and method for erecting boxes

We claim: 1. A system for erecting a box from an unerected box, the system comprising: an automated erecting apparatus comprising: a first folding arm configured to move in a direction that is generally perpendicular to a major surface of a sidewall of the unerected box to bend a first major flap and a first minor flap of the unerected box in a first direction; a second folding arm configured to move in a direction that is generally perpendicular to the major surface of the sidewall of the unerected box to bend a second major flap and a second minor flap of the unerected box in a second direction; and a suction panel configured to erect the unerected box while the first major flap, the second major flap, the first minor flap, and the second minor flap are bent, wherein bending the first major flap and the first minor flap or bending the second major flap and the second minor flaps is configured to limit or prevent the unerected box from bending or folding at a stacking fold in the unerected box. 2. The system according to claim 1 , wherein the first direction is opposite the second direction. 3. The system according to claim 1 , wherein the unerected box comprises four sidewalls, wherein a first set of two sidewalls are coplanar and a second set of two sidewalls are coplanar, wherein the four sidewalls are parallel to each other. 4. The system according to claim 3 , wherein the unerected box comprises four corner creases, wherein the corner creases are positioned between two respective sidewalls of the unerected box. 5. The system according to claim 4 , wherein the stacking fold is located on one of the four sidewalls separate from the corner creases. 6. The system according to claim 4 , wherein the unerected box comprises more than one stacking fold located on one of the four sidewalls separate from the four corner creases. 7. The system according to claim 3 , further comprising a restraining bar, the restraining bar being configured to engage the unerected box on one or more of the sidewalls adjacent to the first major flap, the first minor flap, the second major flap, or the second minor flap and while the flaps are being bent. 8. The system according to claim 3 , further comprising a support surface having an edge, the support surface being configured to support the sidewalls of the unerected box and have the first major flap, the first minor flap, the second major flap, and the second minor flap extend beyond the edge of the support surface. 9. The system according to claim 3 , wherein one or both of the first folding arm and second folding arms are selectively movable in a direction parallel to the major surface of the sidewall and towards the sidewalls of the unerected box to fold the first major flap, the first minor flap, the second major flap, or the second minor flap to a ninety degree angle relative to the sides of the unerected box to form at least a portion of a closed bottom surface of the box. 10. An automated erecting apparatus for erecting a box from an unerected box, the unerected box having a plurality of sidewalls, a plurality of bottom flaps extending from the plurality of sidewalls, and a plurality of creases formed between the plurality of sidewalls and the plurality of bottom flaps, the apparatus comprising: a support surface having an edge, the support surface being configured to support the plurality of sidewalls of the unerected box and have the plurality of creases generally aligned with the edge of the support surface such that the plurality of bottom flaps extend beyond the edge of the support surface; a restraining bar configured to selectively move towards the unerected box to engage one or more panels of the plurality of sidewalls of the unerected box to secure the unerected box against the support surface and selectively move away from the unerected box to disengage the one or more panels; a folding arm configured to move in a direction that is generally perpendicular to a major surface of one of the sidewalls of the unerected box to bend at least one bottom flap of the plurality of bottom flaps relative to an associated sidewall; and an erector element configured to erect the unerected box while the at least one bottom flap is bent, wherein bending the at least one bottom flap is configured to limit or prevent the unerected box from bending or folding at a stacking fold in the unerected box. 11. The automated erecting apparatus according to claim 10 , further comprising a second folding arm configured to bend at least a second bottom flap of the plurality of bottom flaps relative to the associated sidewalls. 12. The automated erecting apparatus according to claim 11 , wherein the folding arm is configured to bend the at least one bottom flap in a first direction and the second folding arm is configured to bend the second bottom flap in a second direction that is opposite to the first direction. 13. The automated erecting apparatus according to claim 10 , wherein the erector element comprises a suction panel. 14. The automated erecting apparatus according to claim 13 , wherein the suction panel is configured to suction to one panel of the plurality of sidewalls. 15. The automated erecting apparatus according to claim 14 , wherein the suction panel is configured to pivot from a closed position to an open position while suctioning to the one panel of the plurality of sidewalls. 16. The automated erecting apparatus according to claim 15 , wherein the restraining bar is configured to disengage the one or more panels of the plurality of sidewalls before the suction panel is pivoted to the open position. 17. An automated erecting apparatus for erecting a box from an unerected box, the unerected box having a plurality of sidewalls, a plurality of bottom flaps extending from the plurality of sidewalls, and a plurality of creases formed between the plurality of sidewalls and the plurality of bottom flaps, the apparatus comprising: a support surface having an edge, the support surface being configured to support the plurality of sidewalls of the unerected box and have the plurality of creases generally aligned with the edge of the support surface such that the plurality of bottom flaps extend beyond the edge of the support surface; a restraining element configured to engage one or more panels of the plurality of sidewalls of the unerected box to secure the unerected box against the support surface; a first folding arm configured to move in a first direction to partially bend a first bottom flap of the plurality of bottom flaps relative to an associated sidewall, the first folding arm being configured to move in a second, lateral direction to fold the first bottom flap to a ninety degree angle relative to the plurality of sidewalls of the unerected box, the second, lateral direction being generally perpendicular to the first direction; a second folding arm configured to move in a second direction to bend a second bottom flap of the plurality of bottom flaps relative to an associated sidewall; and an erector element configured to erect the unerected box while the first bottom flap or second bottom flap is bent, wherein bending the first bottom flap or the second bottom flap is configured to limit or prevent the unerected box from bending or folding at a stacking fold in the unerected box. 18. The automated erecting apparatus according to claim 17 , wherein the restraining element is configured to selectively move into engagement with the one or more panels and selectively move out of engagement with the one or more panels.