Handling robot

What is claimed is: 1. A handling robot, comprising: a movable chassis configured to move in a travelling direction, wherein the movable chassis comprises a base and a standing frame vertically installed to the base; a storage frame supported by the movable chassis, the storage frame being provided with a plurality of storage units distributed in a vertical direction; a material handling device configured to move along the standing frame in the vertical direction, the material handling device being configured to transport an inventory item between a shelf and one of the plurality of storage units, wherein the material handling device comprises: a support bracket configured to move in the vertical direction along the standing frame; and a fork installed to the support bracket and configured to rotate around the vertical direction relative to the support bracket, components of the fork comprising: a telescopic arm configured to extend or retract in order to transport the inventory item; a U-shaped housing provided with a single opening in a direction parallel to a direction of extension of the telescopic arm, the telescopic arm being only extendable through the single opening; and a pusher assembly installed to the telescopic arm and configured to push or pull the inventory item through the single opening; and a lifting assembly configured to drive the material handling device to move in the vertical direction along the standing frame. 2. The handling robot according to claim 1 , wherein the components of the fork further comprise a temporary storage unit configured to temporarily store the inventory item on an upper surface of the temporary storage unit; wherein the fork comprises two telescopic arms disposed symmetrically; wherein the U-shaped housing comprises: a left housing member configured to house at least a part of one of the two telescopic arms; a right housing member configured to house at least a part of another of the two telescopic arms, the left housing member and the right housing member being spaced apart from each other by a distance, the temporary storage unit being disposed between the left housing member and the right housing member; and a rear housing member coupled to both the left housing member and the right housing member; wherein the rear housing member is opposite to the single opening. 3. The handling robot according to claim 1 , wherein the components of the fork are configured to rotate around the vertical direction relative to the support bracket when the fork is in a state where the fork is in a process of rotating around the vertical direction relative to the support bracket. 4. The handling robot according to claim 1 , wherein the components of the fork further comprise a temporary storage unit configured to temporarily store the inventory item on an upper surface of the temporary storage unit during transport of the inventory item; wherein the telescopic arm is directly or indirectly connected to the temporary storage unit, the telescopic arm being extendable relative to the temporary storage unit, the telescopic arm comprising: two outer arm sections directly or indirectly coupled to the temporary storage unit; and an inner arm section movably connected to each of the two outer arm sections, the inner arm section being configured to extend or retract relative to the each of the two outer arm sections; wherein the pusher assembly comprises: a push rod fixedly installed at a first end of the inner arm section, the push rod being immovable relative to the inner arm section, the push rod being movable in company with the inner arm section, the push rod being configured to push the inventory item away from the temporary storage unit when the telescopic arm is in a state where the telescopic arm is in a process of extending; and a manipulator installed at a second end of the inner arm section and configured to fold or unfold relative to the inner arm section, the manipulator being configured to pull the inventory item to the temporary storage unit when the manipulator is in a state where the manipulator is unfolded relative to the inner arm section and the telescopic arm is in a state where the telescopic arm is in a process of retracting. 5. The handling robot according to claim 1 , wherein the base comprises: a base body; and a base housing configured to house the base body, a compartment being formed by an upper surface of the base housing, the compartment being provided with a physical bottom surface, the physical bottom surface being over a floor within a facility when the handling robot is disposed on the floor; wherein at least a part of the material handling device is in a space of the compartment when the material handling device is in a state where the material handling device is lowered to a lowest position. 6. The handling robot according to claim 1 , wherein the base comprises: a base body; and a base housing configured to house the base body, a compartment being formed by an upper surface of the base housing, the compartment being provided with a physical bottom surface, the base body being disposed beneath the physical bottom surface; wherein at least a part of the material handling device is in the compartment when the material handling device is in a state where the material handling device is lowered to a lowest position. 7. The handling robot according to claim 1 , wherein the telescopic arm comprises: an outer arm section; a middle arm section movably installed to the outer arm section, the middle arm section being configured to move at a first speed relative to the outer arm section; and an inner arm section movably installed to the middle arm section, the inner arm section being configured to move at a second speed relative to the outer arm section; wherein the second speed is twice the first speed. 8. The handling robot according to claim 1 , wherein the material handling device is further configured to transport the inventory item from the one of the plurality of storage units to another of the plurality of storage units. 9. The handling robot according to claim 1 , wherein the handling robot is configured to cause the movable chassis to move in the travelling direction based at least in part on a first position offset, the first position offset reflecting a positional deviation amount between the material handling device and the inventory item in the travelling direction. 10. The handling robot according to claim 1 , wherein the inventory item is placed on the shelf, and the material handling device is configured to transport the inventory item from the shelf to the one of the plurality of storage units; wherein the material handling device further comprises a camera configured to acquire an image of a marker, the marker being attached on the inventory item or the shelf; wherein the handling robot is configured to automatically control the movable chassis to move in the travelling direction based at least in part on a first position offset between the material handling device and the inventory item in the travelling direction, wherein the first position offset is determined based at least in part on the image of the marker. 11. The handling robot according to claim 10 , wherein the handling robot is configured to determine a positional deviation amount between the material handling device and the marker in the travelling direction based at least in part on the image of the marker, so as to determine the first position offset. 12. The handling robot according to claim 1 , wherein the handling robot is configured to control the material handling device to move in the vertical directi