Electric power steering system

What is claimed is: 1. An electric power steering system comprising: a rack shaft connected to steered wheels; a rack housing configured to accommodate the rack shaft; a pinion shaft provided with a pinion gear meshed with a rack gear of the rack shaft; a speed-reducer including a worm wheel and a worm shaft, the worm wheel being connected to a portion of the pinion shaft such that the worm wheel is rotatable together with the pinion shaft in an integrated manner, the portion of the pinion shaft protruding from the rack housing, and the worm shaft being meshed with the worm wheel; an electric motor configured to rotationally drive the worm shaft; a speed-reducer housing configured to accommodate the speed-reducer; a bearing disposed in the speed-reducer housing, the bearing being configured to support the pinion shaft such that the pinion shaft is rotatable; and a seal member having an annular shape, the seal member disposed in the speed-reducer housing between the worm wheel and the pinion gear, and the seal member being configured to seal a clearance between the pinion shaft and the speed-reducer housing. 2. The electric power steering system according to claim 1 , wherein: the bearing is disposed between the worm wheel and the pinion gear; and the seal member is disposed between the worm wheel and the bearing. 3. The electric power steering system according to claim 2 , wherein: the bearing is a single bearing supporting the pinion shaft in the speed-reducer housing; the bearing includes an outer ring and an inner ring, the outer ring being internally fitted to the speed-reducer housing, and the inner ring being externally fitted to the pinion shaft in a state where the inner ring is positioned in an axial direction; the speed-reducer housing includes an outer ring positioning portion having an annular shape, the outer ring positioning portion configured to come into contact with the outer ring from a worm wheel-side; and the seal member is disposed in a clearance between the pinion shaft and the outer ring positioning portion of the speed-reducer housing, the seal member being configured to seal the clearance. 4. The electric power steering system according to claim 2 , wherein a first bearing serving as the bearing is disposed between the worm wheel and the pinion gear, the electric power steering system further comprises: a second bearing disposed on an opposite side of the worm wheel from the first bearing; and a preload applying mechanism configured to apply a preload to the first bearing and the second bearing, each of the first bearing and the second bearing includes an outer ring and an inner ring, the outer ring being internally fitted to the speed-reducer housing, and the inner ring being externally fitted to the pinion shaft in a state where movement of the inner ring relative to the pinion shaft in an axial direction is restricted, the preload applying mechanism includes an outer ring positioning portion and an urging member, the outer ring positioning portion being provided in the speed-reducer housing, the outer ring positioning portion being configured to come into contact with the outer ring of the second bearing from an opposite side of the second bearing from the worm wheel, the urging member being held by the speed-reducer housing, and the urging member being configured to come into urging contact with the outer ring of the first bearing from the pinion gear-side, the seal member is disposed between the worm wheel and the first bearing, the speed-reducer housing includes a seal member positioning portion configured to come into contact with the seal member from the worm wheel-side to position the seal member, and a clearance is provided in the axial direction between the seal member and the first bearing. 5. The electric power steering system according to claim 1 , wherein a first bearing serving as the bearing is disposed between the worm wheel and the pinion gear, the electric power steering system further comprises: a second bearing disposed on an opposite side of the worm wheel from the first bearing; and a preload applying mechanism configured to apply a preload to the first bearing and the second bearing, each of the first bearing and the second bearing includes an outer ring and an inner ring, the outer ring being internally fitted to the speed-reducer housing, and the inner ring being externally fitted to the pinion shaft in a state where movement of the inner ring relative to the pinion shaft in an axial direction is restricted, the preload applying mechanism includes an outer ring positioning portion and an urging member, the outer ring positioning portion being provided in the speed-reducer housing, the outer ring positioning portion being configured to come into contact with the outer ring of the second bearing from an opposite side of the second bearing from the worm wheel, the urging member being held by the speed-reducer housing, and the urging member being configured to come into urging contact with the outer ring of the first bearing from the pinion gear-side, the seal member is disposed between the worm wheel and the first bearing, the speed-reducer housing includes a seal member positioning portion configured to come into contact with the seal member from a worm wheel-side to position the seal member, and a clearance is provided in the axial direction between the seal member and the first bearing. 6. The electric power steering system according to claim 1 , wherein: the bearing is a single bearing supporting the pinion shaft in the speed-reducer housing; the bearing includes an outer ring and an inner ring, the outer ring being internally fitted to the speed-reducer housing, and the inner ring being externally fitted to the pinion shaft in a state where the inner ring is positioned in an axial direction; the speed-reducer housing includes an outer ring positioning portion having an annular shape, the outer ring positioning portion configured to come into contact with the outer ring from a worm wheel-side; and the seal member is disposed in a clearance between the pinion shaft and the outer ring positioning portion of the speed-reducer housing, the seal member being configured to seal the clearance. 7. An electric power steering system comprising: a rack shaft connected to steered wheels; a rack housing configured to accommodate the rack shaft; a pinion shaft provided with a pinion gear meshed with a rack gear of the rack shaft; a speed-reducer including a worm wheel and a worm shaft, the worm wheel being connected to a portion of the pinion shaft such that the worm wheel is rotatable together with the pinion shaft in an integrated manner, the portion of the pinion shaft protruding from the rack housing, and the worm shaft being meshed with the worm wheel; an electric motor configured to rotationally drive the worm shaft; a speed-reducer housing having an insertion hole through which the pinion shaft passes, the insertion hole facing an inside of the rack housing, and the speed-reducer housing being configured to accommodate the speed-reducer; a bearing including an outer ring and an inner ring, the outer ring being internally fitted to an inner peripheral surface of the speed-reducer housing in the insertion hole, the inner ring being externally fitted to the pinion shaft, and the bearing being configured to support the pinion shaft in the insertion hole such that the pinion shaft is rotatable; a plug having an annular shape, the plug being screwed to the inner peripheral surface of the speed-reducer housing in the insertion hole to surround the pinion shaft, and the plug being configured to come into contact with the outer ring from the pinion gear-side; and a seal member hav