Die cushion device and method of controlling the die cushion device

What is claimed is: 1. A die cushion device comprising: a fluid-pressure cylinder that 1) supports a cushion pad and 2) generates a die cushion force while a slide of a press machine descends, the fluid cylinder including a rod side fluid-pressure chamber and a cap side fluid-pressure chamber; a die cushion force controller that controls a pressure in the cap side fluid-pressure chamber of the fluid-pressure cylinder to start die cushion force control when the slide descends and reaches a position at which the slide collides with the cushion pad, and that finishes the die cushion force control when the slide reaches a bottom dead center; a first fluid-pressure circuit that supplies pressure fluid to the cap side fluid-pressure chamber of the fluid-pressure cylinder; a second fluid-pressure circuit that prevents operation fluid from flowing out from the rod side fluid-pressure chamber of the fluid-pressure cylinder, or that enables the operation fluid to flow into the rod side fluid-pressure chamber; and a pressurization controller that, before starting the die cushion force control by the die cushion force controller, controls the second fluid-pressure circuit to prevent the operation fluid from flowing out from the rod side fluid-pressure chamber of the fluid-pressure cylinder, and controls the first fluid-pressure circuit to supply the pressure fluid to the cap side fluid-pressure chamber of the fluid-pressure cylinder while preventing the operation fluid from flowing out from the rod side fluid-pressure chamber to pressurize the cap side fluid-pressure chamber. 2. The die cushion device according to claim 1 , wherein the second fluid-pressure circuit includes a check valve that prevents the operation fluid from flowing out from the rod side fluid-pressure chamber of the fluid-pressure cylinder, and a depressure valve that is provided parallel to the check valve, and the pressurization controller controls the depressure valve, before starting the die cushion force control, to cause the depressure valve to close, and to prevent the operation fluid from flowing out from the rod side fluid-pressure chamber of the fluid-pressure cylinder. 3. The die cushion device according to claim 1 , wherein the second fluid-pressure circuit includes a pilot-driven check valve that prevents the operation fluid from flowing out from the rod side fluid-pressure chamber of the fluid-pressure cylinder, and the pressurization controller controls pilot pressure, before starting the die cushion force control, to cause the pilot-driven check valve to close, and to prevent the operation fluid from flowing out from the rod side fluid-pressure chamber of the fluid-pressure cylinder. 4. The die cushion device according to claim 1 , further comprising a die cushion position controller configured to allow the operation fluid to be supplied to the cap side fluid-pressure chamber of the fluid-pressure cylinder to raise the cushion pad to a predetermined die cushion standby position after the die cushion force control is finished, wherein after the cushion pad is moved to the die cushion standby position by the die cushion position controller and before re-starting the die cushion force control, the pressurization controller allows the pressure fluid to be supplied to the cap side fluid-pressure chamber of the fluid-pressure cylinder by controlling the second fluid-pressure circuit while the operation fluid is prevented from flowing out from the rod side fluid-pressure chamber of the fluid-pressure cylinder by controlling the second fluid-pressure circuit. 5. The die cushion device according to claim 1 , wherein pressure in the cap side fluid-pressure chamber of the fluid-pressure cylinder pressurized by the pressurization controller is equal to pressure at which the fluid-pressure cylinder generates a preset die cushion force. 6. The die cushion device according to claim 4 , wherein pressure in the cap side fluid-pressure chamber of the fluid-pressure cylinder pressurized by the pressurization controller is more than pressure at which the cushion pad is moved to the die cushion standby position as well as less than pressure at which the fluid-pressure cylinder generates a preset cushion force. 7. The die cushion device according to claim 1 , further comprising: a pressure detector that detects pressure in the cap side fluid-pressure chamber of the fluid-pressure cylinder; a fluid-pressure pump/motor with a discharge port connected to the cap side fluid-pressure chamber of the fluid-pressure cylinder through piping; an electric motor connected to a rotating shaft of the fluid-pressure pump/motor; a die cushion pressure command device that outputs a preset die cushion pressure command; and a die cushion force controller that controls torque of the electric motor based on the die cushion pressure command and pressure detected by the pressure detector to cause die cushion pressure to be equal to a pressure corresponding to the die cushion pressure command. 8. The die cushion device according to claim 7 , wherein before die cushion force control starts, the pressurization controller controls torque of the electric motor to control fluid-pressure to be supplied to the cap side fluid-pressure chamber of the fluid-pressure cylinder. 9. The die cushion device according to claim 1 , further comprising: a proportion flow control valve provided in piping connected to the cap side fluid-pressure chamber of the fluid-pressure cylinder; and a die cushion force controller that controls opening of the proportion flow control valve to cause a flow rate of the operation fluid discharged from the cap side fluid-pressure chamber of the fluid-pressure cylinder to be controlled to control the pressure in the cap side fluid-pressure chamber of the fluid-pressure cylinder. 10. A method of controlling a die cushion device that includes 1) a fluid-pressure cylinder that supports a cushion pad, generates die cushion force while a slide of a press machine descends, and includes a rod side fluid-pressure chamber and a cap side fluid-pressure chamber, 2) a first fluid-pressure circuit that supplies pressure fluid to the cap side fluid-pressure chamber of the fluid-pressure cylinder, and 3) a second fluid-pressure circuit that enables operation fluid to be prevented from flowing out from a rod side fluid-pressure chamber of the fluid-pressure cylinder, or that enables the operation fluid to flow into the rod side fluid-pressure chamber, the method comprising the steps of: starting die cushion force control when the slide descends and reaches a position at which the slide collides with the cushion pad; preventing, before starting die cushion force control, the operation fluid from flowing out from the rod side fluid-pressure chamber of the fluid-pressure cylinder by controlling the second fluid-pressure circuit; and pressurizing, before starting die cushion force control, the cap side fluid-pressure chamber of the fluid-pressure cylinder by controlling the first fluid-pressure circuit to supply pressure fluid to the cap side fluid-pressure chamber of the fluid-pressure cylinder while controlling the first fluid-pressure circuit prevents the operation fluid from flowing out from the rod side fluid-pressure chamber. 11. The method of controlling the die cushion device, according to claim 10 , further comprising the step of supplying, after the die cushion force control is completed, the operation fluid to the cap side fluid-pressure chamber of the fluid-pressure cylinder by controlling the first fluid-pressure circuit to raise the cushion pad to a die cushion standby position; and restarting the die cushion force control when the slide