Vehicle acceleration suppression device and vehicle acceleration suppression method

The invention claimed is: 1. A vehicle acceleration suppression device, comprising: an in-vehicle sonar configured to emit a transmission wave forward in a travel direction of a vehicle; an obstacle distance detector configured to receive a reflection wave of the transmission wave emitted by the in-vehicle sonar, and to detect a distance between the vehicle and an obstacle existing ahead in the travel direction of the vehicle; an obstacle height determination unit configured to receive the reflection wave of the transmission wave emitted by the in-vehicle sonar, and to determine whether or not the obstacle existing ahead in the travel direction of the vehicle is a tall obstacle that is as tall as the vehicle or taller than the vehicle; an obstacle type determination unit configured to determine a type of the obstacle based on at least a first-time detection distance that is the distance between the vehicle and the obstacle detected by the obstacle distance detector for a first time while the vehicle is approaching the obstacle, and a height determination distance that is the distance between the vehicle and the obstacle detected by the obstacle distance detector when the obstacle distance detector determines that the obstacle is the tall obstacle for the first time while the vehicle is approaching the obstacle; and an acceleration suppression controller configured to carry out acceleration suppression control for suppressing acceleration of the vehicle in a control manner depending on a determination result made by the obstacle type determination unit, when it is determined that the vehicle has approached the obstacle at an approach degree equal to or higher than a predefined approach degree based on the distance between the vehicle and the obstacle detected by the obstacle distance detector. 2. The vehicle acceleration suppression device according to claim 1 , wherein the in-vehicle sonar is configured to emit the transmission wave at every given time, and wherein the obstacle height determination unit is configured to determine that the obstacle existing ahead in the travel direction of the vehicle is the tall obstacle, when the obstacle height determination unit receives the reflection wave having two strong peaks each higher than a predefined obstacle detection threshold in a given period with respect to a single transmission of the transmission wave. 3. The vehicle acceleration suppression device according to claim 1 , wherein the obstacle type determination unit is configured to determine a wall, another vehicle, an edge stone, or a natural thing, as the type of the obstacle. 4. The vehicle acceleration suppression device according to claim 3 , wherein the obstacle type determination unit is configured to set an obstacle decision level as an index representing the type of the obstacle, and to set the obstacle decision level to a lower value in an order of the wall, the another vehicle, the edge stone, and the natural thing. 5. The vehicle acceleration suppression device according to claim 4 , wherein the obstacle type determination unit is configured to set the obstacle decision level to be higher, as the first-time detection distance is longer. 6. The vehicle acceleration suppression device according to claim 5 , wherein the obstacle type determination unit is configured to determine that the type of the obstacle is the natural thing, when the first-time detection distance is shorter than a limit distance in which the reflection wave from the natural thing of the transmission wave of the in-vehicle sonar is receivable. 7. The vehicle acceleration suppression device according to claim 4 , wherein the obstacle type determination unit is configured to set the obstacle decision level to be higher, as the height determination distance is longer. 8. The vehicle acceleration suppression device according to claim 4 , wherein the obstacle type determination unit is configured to set the obstacle decision level to be higher, as a distance obtained by subtracting the height determination distance from the first-time detection distance is shorter. 9. The vehicle acceleration suppression device according to claim 4 , wherein the in-vehicle sonar is configured to include a plurality of sonars arranged in a width direction of the vehicle, and wherein the obstacle type determination unit is configured to set the obstacle decision level to be higher, as a plural-number detection distance that is the distance between the vehicle and the obstacle when the reflection waves from an identical obstacle of the transmission waves emitted by at least two adjacent sonars are received for the first time. 10. The vehicle acceleration suppression device according to claim 4 , wherein the obstacle type determination unit is configured to set the obstacle decision level to be a maximum level, when the obstacle distance detector maintains a state of determining that the obstacle exists ahead in the travel direction of the vehicle even if the distance between the vehicle and the obstacle becomes shorter than a predefined short distance threshold, and wherein the obstacle type determination unit is configured to set the obstacle decision level to be a minimum level, when the distance between the vehicle and the obstacle existing ahead in the travel direction of the vehicle becomes shorter than the predefined short distance threshold and the obstacle distance detector determines that the obstacle does not exist from the state of determining that the obstacle exists. 11. The vehicle acceleration suppression device according to claim 4 , wherein the acceleration suppression controller is configured to carry out drive force limit control for limiting an acceleration instruction value, which depends on a manipulation amount of an acceleration instruction manipulation element to be manipulated by a driver for giving an acceleration instruction, to an acceleration limit value which depends on the obstacle decision level as an upper limit, and wherein the acceleration limit value is set to a smaller value, as the obstacle decision level is higher. 12. The vehicle acceleration suppression device according to claim 4 , wherein the acceleration suppression controller is configured to carry out brake force control for generating a brake force onto the vehicle depending on the distance between the vehicle and the obstacle detected by the obstacle distance detector, and wherein the brake force is set to a larger value, as the obstacle decision level is higher. 13. The vehicle acceleration suppression device according to claim 1 , further comprising an obstacle type storage unit configured to store the type of the obstacle that has been determined most recently by the obstacle type determination unit before an ignition switch is turned off, wherein the acceleration suppression controller is configured to employ the type of the obstacle stored in the obstacle type storage unit as the type of the obstacle detected by the obstacle type determination unit, when an ignition switch is turned on. 14. The vehicle acceleration suppression device according to claim 13 , further comprising: an obstacle distance storage unit configured to store the distance between the vehicle and the obstacle that has been detected most recently by the obstacle distance detector before the ignition switch is turned off, as an obstacle distance storage value; and a validity determination unit configured to determine validity of the type of the obstacle stored in the obstacle type storage unit based on the obstacle distance storage value stored in the obstacle distance storage unit and an obst