Cylinder driving device

The invention claimed is: 1. A cylinder driving device comprising: an electric motor; a pump configured to be driven by the electric motor and discharge working fluid; a first passage and a second passage respectively connected to the pump, the first passage and the second passage being configured to selectively guide the working fluid from the pump; a fluid pressure cylinder connected to the first passage and the second passage, the fluid pressure cylinder being configured to be operated by the working fluid supplied from one of the first passage and the second passage, the fluid pressure cylinder being configured to discharge the working fluid to the other of the first passage and the second passage when operated; a control valve provided in the second passage, the control valve being configured to allow a flow of the working fluid directed from the fluid pressure cylinder to the pump in response to an increase in a pressure in the first passage while allowing a flow of the working fluid directed from the pump to the fluid pressure cylinder; and a restriction valve provided between the fluid pressure cylinder and the control valve in the second passage, the restriction valve being configured to restrict a flow of the working fluid directed from the fluid pressure cylinder to the control valve, wherein: an opening area of the restriction valve is reduced in response to an increase in a flow rate of the working fluid discharged from the fluid pressure cylinder to the second passage; and the restriction valve is set such that the opening area is reduced when a flow rate of the working fluid sucked from the first passage by the fluid pressure cylinder reaches a maximum discharge flow rate of the pump. 2. The cylinder driving device according to claim 1 , wherein the restriction valve has: a first port connected to the fluid pressure cylinder; a second port connected to the control valve; a flow passage through which the first port is communicated with the second port; a valve seat provided in the flow passage; a valve body provided in the flow passage, the valve body being configured to be separated from and seated on the valve seat; a biasing member configured to bias the valve body in a direction in which the valve body is separated from the valve seat; a first restriction portion formed in the valve body, the first restriction portion being configured to allow communication between the first port and the second port; and a second restriction portion formed in the valve body, the second restriction portion being configured to allow the communication between the first port and the second port in a state in which the valve body is separated from the valve seat, the second restriction portion being configured to shut off the communication between the first port and the second port in a state in which the valve body is seated on the valve seat. 3. The cylinder driving device according to claim 2 , wherein an opening area of the second restriction portion is larger than an opening area of the first restriction portion. 4. A cylinder driving device comprising: an electric motor; a pump configured to be driven by the electric motor and discharge working fluid; a first passage and a second passage respectively connected to the pump, the first passage and the second passage being configured to selectively guide the working fluid from the pump; a fluid pressure cylinder connected to the first passage and the second passage, the fluid pressure cylinder being configured to be operated by the working fluid supplied from one of the first passage and the second passage, the fluid pressure cylinder being configured to discharge the working fluid to the other of the first passage and the second passage when operated; a tank connected to the pump, the tank being configured to compensate a volume change caused by operation of the hydraulic cylinder; a control valve provided in the second passage, the control valve being configured to allow a flow of the working fluid directed from the fluid pressure cylinder to the pump in response to an increase in a pressure in the first passage while allowing a flow of the working fluid directed from the pump to the fluid pressure cylinder; and a restriction valve provided between the fluid pressure cylinder and the control valve in the second passage, the restriction valve being configured to restrict a flow of the working fluid directed from the fluid pressure cylinder to the control valve, wherein: the fluid pressure cylinder, the pump, the electric motor, the tank, the first passage, the second passage, the control valve and the restriction valve together form one unit; the fluid pressure cylinder includes: a cylinder; a piston rod extending out from the cylinder, the piston rod being configured to advance and retract with respect to the cylinder; and a piston connected to the piston rod, the piston being configured to partition an interior of the cylinder into a counter rod side chamber and a rod side chamber; the first passage is connected to the counter rod side chamber; the second passage is connected to the rod side chamber; a flow rate of the working fluid flowing between the rod side chamber and the second passage is less than a flow rate of the working fluid flowing between the counter rod side chamber and the first passage, when the hydraulic cylinder is operated; the control valve and the restriction valve are each provided between the rod side chamber and the pump in the second passage; and an opening area of the restriction valve is reduced in response to an increase in a flow rate of the working fluid discharged from the rod side chamber of the fluid pressure cylinder to the second passage. 5. The cylinder driving device according to claim 4 , wherein the restriction valve is set such that the opening area is reduced when a flow rate of the working fluid sucked from the first passage to the counter rod side chamber by the fluid pressure cylinder reaches a maximum discharge flow rate of the pump. 6. The cylinder driving device according to claim 4 , wherein the restriction valve has: a first port connected to the rod side chamber of the fluid pressure cylinder; a second port connected to the control valve; a flow passage through which the first port is communicated with the second port; a valve seat provided in the flow passage; a valve body provided in the flow passage, the valve body being configured to be separated from and seated on the valve seat; a biasing member configured to bias the valve body in a direction in which the valve body is separated from the valve seat; a first restriction portion formed in the valve body, the first restriction portion being configured to allow communication between the first port and the second port; and a second restriction portion formed in the valve body, the second restriction portion being configured to allow the communication between the first port and the second port in a state in which the valve body is separated from the valve seat, the second restriction portion being configured to shut off the communication between the first port and the second port in a state in which the valve body is seated on the valve seat. 7. The cylinder driving device according to claim 6 , wherein an opening area of the second restriction portion is larger than an opening area of the first restriction portion.