Electric driving wheel type work vehicle

The invention claimed is: 1. An electric driving wheel type work vehicle comprising: a traveling motor; an inverter which drives the motor; a pre-driver circuit to supply a gate signal to the inverter based on a PWM signal; a controller which outputs the PWM signal to the pre-driver circuit to control the driving of the motor; a parking brake; a parking brake condition detection means that detects a condition of the parking brake; a distribution circuit that outputs a first parking brake condition signal in accordance with the parking brake condition that has been output from the parking brake condition detection means, the distribution circuit further outputting a second parking brake condition signal having a predetermined delay time relative to the first parking brake condition signal; and a gate circuit interposed between the controller and the pre-driver circuit, the gate circuit cutting off the input of the PWM signal to the pre-driver circuit, wherein, when the second parking brake condition signal is input to the gate circuit and the parking brake condition detection means detects the parking brake has been operated, the gate circuit cuts off input of the PWM signal to the pre-driver circuit. 2. The electric driving wheel type work vehicle according to claim 1 , wherein, when the second parking brake condition signal is input to the pre-driver circuit and the parking brake condition detection means detects the parking brake has been operated, the pre-driver circuit cuts off the output of the gate signal. 3. An electric driving wheel type work vehicle comprising: a traveling motor; an inverter which drives the motor; a pre-driver circuit to supply a gate signal to the inverter based on a PWM signal; a controller which outputs the PWM signal to the pre-driver circuit to control the driving of the motor; a parking brake; a parking brake condition detection means that detects a condition of the parking brake; a distribution circuit that outputs a first parking brake condition signal in accordance with the parking brake condition that has been output from the parking brake condition detection means, the distribution circuit further outputting a second parking brake condition signal having a predetermined delay time relative to the first parking brake condition signal, wherein the controller includes a PWM signal generation circuit that outputs the PWM signal, and a gate circuit interposed between the PWM signal generation circuit and the pre-driver circuit, and wherein, when the second parking brake condition signal is input to the gate circuit and the parking brake condition detection means detects the parking brake has been operated, the gate circuit cuts off input of the PWM signal to the pre-driver circuit. 4. The electric driving wheel type work vehicle according to claim 3 , wherein, when the second parking brake condition signal is input to the pre-driver circuit and the parking brake condition detection means detects the parking brake has been operated, the pre-driver circuit cuts off the output of the gate signal. 5. An electric driving wheel type work vehicle comprising: a traveling motor; an inverter which drives the motor; a pre-driver circuit to supply a gate signal to the inverter based on a PWM signal; a controller which outputs the PWM signal to the pre-driver circuit to control the driving of the motor; a parking brake; a parking brake condition detection means that detects a condition of the parking brake means; and a gate circuit interposed between the controller and the pre-driver circuit, wherein, when the parking brake condition detection means detects that the parking brake has been operated, the pre-driver circuit cuts off an output of the gate signal, and wherein, when a parking brake condition signal output from the parking brake condition detection means is input to the gate circuit and the parking brake condition detection means detects the parking brake has been operated, the gate circuit cuts off input of the PWM signal to the pre-driver circuit. 6. An electric driving wheel type work vehicle comprising: a traveling motor; an inverter which drives the motor; a pre-driver circuit to supply a gate signal to the inverter based on a PWM signal; a controller which outputs the PWM signal to the pre-driver circuit to control the driving of the motor; a parking brake; and a parking brake condition detection means that detects a condition of the parking brake, wherein the controller includes a PWM signal generation circuit that outputs the PWM signal, and a gate circuit interposed between the PWM signal generation means and the pre-driver circuit, wherein, when the parking brake condition detection means detects that the parking brake has been operated, the pre-driver circuit cuts off an output of the gate signal, and wherein, when a parking brake condition signal output from the parking brake condition detection means is input to the gate circuit and the parking brake condition detection means detects the parking brake means has been operated, the gate circuit cuts off the input of the PWM signal to the pre-driver circuit.