Automated warehouse and operation method for same

The invention claimed is: 1. An automated warehouse comprising: a plurality of shelves each configured to accommodate an article; a loading-and-unloading port where the article is loaded and unloaded; a first stacker crane configured to convey the article between the shelves and the loading-and-unloading port; and a traveling path on which the first stacker crane travels, wherein the first stacker crane includes a first traveling unit including a first traveling drive wheel configured to roll along the traveling path, a first mast vertically provided on the first traveling unit so as to overlap the first traveling drive wheel when viewed from a vertical direction, a first lifting platform arranged on one side in a travel direction with respect to the first mast and configured to ascend and descend along the first mast, a first transferring device provided to the first lifting platform, a first traveling motor configured to drive the first traveling drive wheel, and a first lifting motor configured to drive the first lifting platform, the first traveling unit is arranged, in the travel direction, on the one side with respect to an end of the first mast on the other side, opposite sides of the first mast are perpendicular to the vertical direction and the travel direction, the first traveling motor and the first lifting motor are arranged on opposite sides of the first mast, all of the first traveling motor and all of the first lifting motor are within the length of the first mast in the travel direction, the first traveling motor is arranged protruding from the first traveling unit to one side in a direction intersecting an extending direction of the first mast and an extending direction of the traveling path, and the first lifting motor is arranged protruding from the first traveling unit to the other side in the direction intersecting the extending direction of the first mast and the extending direction of the traveling path. 2. The automated warehouse according to claim 1 , wherein the first traveling unit includes a first guide wheel arranged on the one side in the travel direction with respect to the first traveling drive wheel and configured to roll along the traveling path, and a first supporting unit arranged on the one side in the travel direction with respect to the first traveling drive wheel and supporting the first guide wheel, and the first supporting unit has a space that at least part of the first lifting platform is allowed to enter. 3. The automated warehouse according to claim 2 , further comprising an auxiliary path provided above the traveling path so as to oppose the traveling path and configured to assist traveling of the first stacker crane, wherein the first stacker crane further includes a first auxiliary traveling unit attached to an upper portion of the first mast and including a first auxiliary drive wheel configured to roll along the auxiliary path. 4. The automated warehouse according to claim 1 , further comprising a second stacker crane arranged on the one side in the travel direction with respect to the first stacker crane and configured to convey the article between the shelves and the loading-and-unloading port, wherein the second stacker crane includes a second traveling unit including a second traveling drive wheel configured to roll along the traveling path, a second mast vertically provided on the second traveling unit so as to overlap the second traveling drive wheel when viewed from the vertical direction, a second lifting platform arranged on the other side in the travel direction with respect to the second mast and configured to ascend and descend along the second mast, a second transferring device provided to the second lifting platform, a second traveling motor configured to drive the second traveling drive wheel, and a second lifting motor configured to drive the second lifting platform, the second traveling unit is arranged, in the travel direction, on the other side with respect to an end of the second mast on the one side, opposite sides of the second mast are perpendicular to the vertical direction and the travel direction, the second traveling motor and the second lifting motor are arranged on opposite sides of the second mast, all of the second traveling motor and all of the second lifting motor are within the length of the second mast in the travel direction, the second traveling motor is arranged protruding from the second traveling unit to one side in a direction intersecting an extending direction of the second mast and the extending direction of the traveling path, and the second lifting motor is arranged protruding from the second traveling unit to the other side in the intersecting the extending direction of the second mast and the extending direction of the traveling path. 5. An operation method for the automated warehouse according to claim 4 , comprising: a first step of disposing the first transferring device and the second transferring device at different positions in the vertical direction; and a second step of, after the first step, disposing the first stacker crane and the second stacker crane so that the first transferring device and the second transferring device face shelves at a same position in the horizontal direction. 6. An operation method for the automated warehouse according to claim 4 , comprising: when the first stacker crane has failed, a first step of disposing the first stacker crane so that the first transferring device faces the shelf at the end on the other side in the travel direction; and a second step of causing the second stacker crane to convey the article. 7. The operation method for an automated warehouse according to claim 6 , wherein, in the second step, restraint of the first lifting platform on the first mast is released in the first stacker crane. 8. The automated warehouse according to claim 2 , further comprising a second stacker crane positioned on the one side in the travel direction with respect to the first stacker crane and configured to convey the article between the shelves and the loading-and-unloading port, wherein the second stacker crane includes a second traveling unit including a second traveling drive wheel configured to roll along the traveling path, a second mast vertically provided on the second traveling unit so as to overlap the second traveling drive wheel when viewed from the vertical direction, a second lifting platform arranged on the other side in the travel direction with respect to the second mast and configured to ascend and descend along the second mast, a second transferring device provided to the second lifting platform, a second traveling motor configured to drive the second traveling drive wheel, and a second lifting motor configured to drive the second lifting platform, the second traveling unit, the second traveling motor, and the second lifting motor are arranged, in the travel direction, on the other side with respect to an end of the second mast on the one side, the second traveling motor is arranged protruding from the second traveling unit to one side in a direction intersecting an extending direction of the second mast and the extending direction of the traveling path, and the second lifting motor is arranged protruding from the second traveling unit to the other side in the intersecting the extending direction of the second mast and the extending direction of the traveling path. 9. An operation method for the automated warehouse according to claim 8 , comprising: a first step of disposing the first transferring device and the second transferring device at different positions in the vertical direction; and a second step of,