Fuel injection device

What is claimed is: 1. A fuel injection device comprising: a valve body which defines an injection port, a control chamber filled with a fuel, an inlet passage for introducing the fuel into the control chamber, and an outlet passage for discharging the fuel from the control chamber; a needle provided in a displaceable manner in the valve body by a variation in fuel pressure in the control chamber so as to open/close the injection port; a closing member which is accommodated in the control chamber in a displaceable manner inside the valve body so as to close an inlet opening of the inlet passage, which opens on an opening wall confronting the control chamber; a biasing member which is accommodated in the control chamber inside the valve body in such a manner as to bias the closing member toward the opening wall; and a cylinder provided inside the valve body in a displaceable manner, wherein the control chamber is defined by a defining wall which has a dividing wall portion, the dividing wall portion divides the control chamber into a backpressure chamber for applying a fuel pressure to the needle and an accommodation chamber accommodating the closing member and the biasing member, the dividing wall portion has a restriction hole fluidly connecting the accommodation chamber and the backpressure chamber with each other, the dividing wall portion has a support surface supporting the biasing member, the biasing member is provided to bias the closing member in a direction to close the inlet opening of the inlet passage, and the cylinder defines therein at least the backpressure chamber. 2. The fuel injection device according to claim 1 , wherein the restriction hole and the backpressure chamber are formed in cylindrical shape, and an inner diameter of the restriction hole is not greater than half of an inner diameter of the backpressure chamber. 3. The fuel injection device according to claim 1 , wherein a volume of the fuel filling the accommodation chamber is less than a volume of the fuel filling the backpressure chamber when the needle closes the injection port. 4. The fuel injection device according to claim 1 , wherein the defining wall has a first circumferential wall portion surrounding the closing member and a second circumferential wall portion surrounding the biasing member, and an inner diameter of the second circumferential wall portion is smaller than an inner diameter of the first circumferential wall portion. 5. The fuel injection device according to claim 1 , wherein the cylinder is an outer cylinder member; the fuel injection device further comprises an inner cylinder member within the outer cylinder member; the outer cylinder member surrounds the control chamber and the inner cylinder member; the inner cylinder member is slidably engaged with an inner wall of the outer cylinder member; and the backpressure chamber and the accommodation chamber are both provided inside the cylinder. 6. The fuel injection device according to claim 1 , wherein the closing member is disc-shaped and has a communication hole at a center of the closing member which penetrates the closing member in an axial direction of the closing direction, the axial direction of the closing member being a direction in which the closing member is displaceable. 7. The fuel injection device according to claim 1 , wherein the backpressure chamber and the accommodation chamber are coaxially aligned along a longitudinal axis of the control chamber. 8. The fuel injection device according to claim 1 , wherein the inlet opening of the inlet passage opens on the opening wall, and an outlet opening of the outlet passage also opens on the opening wall. 9. The fuel injection device according to claim 1 , wherein the dividing wall is provided to be orthogonal to an axial direction of the cylinder and movable with the cylinder, and divides the control chamber into the backpressure chamber and the accommodation chamber; and the closing member and the biasing member are accommodated inside the accommodation chamber. 10. The fuel injection device according to claim 1 , wherein the valve body has an accommodation member provided separately from the cylinder and having the dividing wall, which is orthogonal to an axial direction of the cylinder and defines the accommodation chamber to accommodate the closing member and the biasing member inside the accommodation member; and the cylinder is provided adjacent to the accommodation member and defines only the backpressure chamber therein. 11. A fuel injection device comprising: a valve body which defines an injection port, a control chamber filled with a fuel, an inlet passage for introducing the fuel into the control chamber, and an outlet passage for discharging the fuel from the control chamber; a needle which will be displaced by a variation in fuel pressure in the control chamber so as to open/close the injection port; a closing member which is accommodated in the control chamber in a displaceable manner so as to close an inlet opening of the inlet passage, which opens on an opening wall confronting the control chamber; and a biasing member which is accommodated in the control chamber in such a manner as to bias the closing member toward the opening wall, wherein the control chamber is defined by a defining wall which has a dividing wall portion, the dividing wall portion divides the control chamber into a backpressure chamber for applying a fuel pressure to the needle and an accommodation chamber accommodating the closing member and the biasing member, the dividing wall portion has a restriction hole fluidly connecting the accommodation chamber and the backpressure chamber with each other, the dividing wall portion has a support surface supporting the biasing member, the closing member has an out orifice which limits an amount of the fuel flowing out from the control chamber, and a flow passage area of the restriction hole is greater than a flow passage area of the out orifice. 12. A fuel injection device comprising: a valve body which defines an injection port, a control chamber filled with a fuel, an inlet passage for introducing the fuel into the control chamber, and an outlet passage for discharging the fuel from the control chamber; a needle which will be displaced by a variation in fuel pressure in the control chamber so as to open/close the injection port; a closing member which is accommodated in the control chamber in a displaceable manner so as to close an inlet opening of the inlet passage, which opens on an opening wall confronting the control chamber; and a biasing member which is accommodated in the control chamber in such a manner as to bias the closing member toward the opening wall, wherein the control chamber is defined by a defining wall which has a dividing wall portion, the dividing wall portion divides the control chamber into a backpressure chamber for applying a fuel pressure to the needle and an accommodation chamber accommodating the closing member and the biasing member, the dividing wall portion has a restriction hole fluidly connecting the accommodation chamber and the backpressure chamber with each other, the dividing wall portion has a support surface supporting the biasing member, and the closing member has an out orifice which fluidly connects the accommodation chamber and the outlet passage.