Forklift and forklift controlling method

What is claimed is: 1. A forklift, comprising: a vehicle body; a fork configured to mount a pallet, an opening into which the fork is inserted when the pallet is mounted on the fork being an insertion opening, the fork including an insertion portion that is inserted into the insertion opening, surfaces that define the insertion opening including a first facing surface that is located above the insertion portion when the fork is inserted into the insertion opening and a second facing surface that faces the first facing surface; a lift device that is configured to lift or lower the fork; a tilt device that is configured to tilt the fork; a tilt sensor that is configured to output a signal corresponding to a tilt angle of the fork; processing circuitry that is configured to control the lift device and the tilt device; and a detection sensor provided in the insertion portion, the detection sensor being disposed closer to a base of the insertion portion than to a distal end of the insertion portion so as to correspond to an entrance of the insertion opening when the fork is inserted into the insertion opening, and the detection sensor being configured to detect whether the insertion portion is in contact with the first facing surface, wherein the forklift is configured to perform, with the lift device, a placing operation of placing the pallet on a placement surface by lowering the fork with the pallet mounted on the fork, the processing circuitry is configured to execute: a stopping process of stopping lowering of the fork by the lift device when the detection sensor is separated from the first facing surface while the fork is being lowered by the lift device in the placing operation; a forward tilting process executed after execution of the stopping process, the forward tilting process controlling the tilt device to tilt the fork forward until the tilt angle reaches a limit value and sequentially obtaining values of the tilt angle calculated based on a signal from the tilt sensor during execution of the forward tilting process; and a returning process controlling the tilt device to tilt the fork rearward such that the insertion portion or the detection sensor is separate from the first facing surface when the value of the tilt angle stops changing before the tilt angle reaches the limit value, and the returning process is not executed in a case in which the tilt angle reaches the limit value. 2. The forklift according to claim 1 , further comprising a moving device that is configured to move the fork forward or rearward, wherein the processing circuitry is configured to execute a removing process after the returning process or after the tilt angle reaches the limit value in the forward tilting process, and the removing process removes the insertion portion from the insertion opening by controlling at least the moving device, of the lift device and the moving device, such that a position of the insertion portion in a height direction with respect to the entrance of the insertion opening is not changed. 3. The forklift according to claim 1 , wherein the forklift is a reach forklift, the fork is attached to an attachment portion that is displaced integrally with the fork by the lift device and the tilt device, and the tilt device includes: a tilt cylinder; and a hydraulic mechanism that is configured to be controlled by the processing circuitry to control supply of hydraulic fluid to and drainage of the hydraulic fluid from the tilt cylinder, the tilt cylinder includes a tilt rod that is selectively protruded from and retracted into a cylinder tube by supply and drainage of the hydraulic fluid, a distal end of the tilt rod being configured to contact and separate from the attachment portion, and the fork is configured such that when the tilt rod is protruded from the cylinder tube so that the distal end of the tilt rod pushes the attachment portion, the fork tilts rearward, and when the tilt rod is retracted into the cylinder tube so that the distal end of the tilt rod separates from the attachment portion, the fork tilts forward under its own weight. 4. A forklift controlling method, wherein the forklift includes a vehicle body and a fork that is configured to mount a pallet, an opening into which the fork is inserted when the pallet is mounted on the fork is an insertion opening, the fork includes an insertion portion that is inserted into the insertion opening, surfaces that define the insertion opening include a first facing surface that is located above the insertion portion when the fork is inserted into the insertion opening and a second facing surface that faces the first facing surface, and the forklift controlling method comprises: performing a placing operation of placing the pallet on a placement surface by lowering the fork with the pallet mounted on the fork; detecting whether the insertion portion is in contact with the first facing surface during the placing operation; executing a stopping process of stopping lowering of the fork when contact of the insertion portion with the first facing surface stops being detected while the fork is being lowered in the placing operation; executing a forward tilting process after execution of the stopping process, the forward tilting process tilting the fork forward such that a tilt angle of the fork becomes a limit value; sequentially obtaining values of the tilt angle during execution of the forward tilting process; and during execution of the forward tilting process executing a returning process of tilting the fork rearward when the value of the tilt angle stops changing before the tilt angle reaches the limit value, and not executing the returning process in a case in which the tilt angle reaches the limit value.