Tubular insertion system

What is claimed is: 1. A tubular insertion system comprising: an insertion unit including a bendable portion to be bent; a bending operation mechanism that operates the bendable portion to bend the bendable portion; a bending operation amount detection/calculation device comprising one or more first sensors that detect an operation of the bending operation mechanism to calculate bending operation amount information indicating an amount of the operation; and a controller configured to: detect a bent shape of the bendable portion based on one or more second sensors operatively connected to the bendable portion to calculate bent shape information indicating the bent shape; determine shift information including a shift amount between the bending operation amount information and the bent shape information; retrieve one or more levels of safety for an operation of the bendable portion; acquire first operation support information for determining whether the operation of the bendable portion is within a safety threshold based on the shift amount and the one or more levels of safety, the first operation support information being an index, the index being a ratio of the shift information to an allowable range of the one or more levels of safety; and display the first operation support information. 2. The tubular insertion system according to claim 1 , wherein the controller is further configured to calculate prediction information of the bent shape of the bendable portion corresponding to the amount of the operation based on the bending operation amount information. 3. The tubular insertion system according to claim 2 , wherein the controller acquires the first operation support information by combining and calculating the bent shape information and the prediction information of the bent shape. 4. The tubular insertion system according to claim 3 , wherein the controller calculates the shift information based on the bent shape information and the prediction information of the bent shape, when information containing at least one of the shift amount as a difference between the bent shape of the bendable portion and a bent shape of the bendable portion predicted based on the bending operation amount information, information obtained by differentiating the shift amount with respect to time at least once, and information obtained by integrating the shift amount with respect to time at least once is defined as the shift information. 5. The tubular insertion system according to claim 4 , wherein the controller acquires the shift information by corresponding the first operation support information to the shift information. 6. The tubular insertion system according to claim 5 , wherein the controller acquires the first operation support information corresponding to the shift information based on at least one piece of information contained in the shift information and the one or more levels of safety corresponding to the at least one piece of information contained in the shift information. 7. The tubular insertion system according to claim 2 , further comprising: an insertion/removal and rotating operation detection/calculation device comprising one or more sensors that detect at least one of an insertion/removal operation and a rotating operation of the insertion unit to calculate insertion/removal and rotation information indicating at least one of the detected insertion/removal operation and rotating operation. 8. The tubular insertion system according to claim 7 , wherein the controller calculates the prediction information of the bent shape by further adding the insertion/removal and rotation information to the bending operation amount information.