Dust inflow sensing unit and robot cleaner having the same

What is claimed is: 1. A robot cleaner, comprising: a main body; a drive unit to drive the main body; a brush drum unit provided on the main body to form a dust inflow channel; and a dust inflow sensing unit to sense dust flowing into the main body through the dust inflow channel of the brush drum unit, the dust inflow sensing unit including: a light emitting part having a transmission region to emit a beam, and a light receiving part having a reception region to overlap the transmission region and the reception region is restricted to a designated range, the light receiving part including a light receiving element and a light receiving guide member to restrict the reception region of the light receiving element, wherein the light receiving guide member enables a width of the reception region of the light receiving element to be gradually decreased in a direction toward the light emitting part. 2. The robot cleaner according to claim 1 , wherein: the brush drum unit includes a housing having a first opening and a second opening so as to form the dust inflow channel; and the light emitting part and the light receiving part are installed in the second opening so as to be opposite to each other. 3. The robot cleaner according to claim 1 , further comprising a dust container provided with an inflow hole to store the dust flowing into the main body through the dust inflow channel of the brush drum unit, and the light emitting part and the light receiving part are installed in the inflow hole so as to be opposite to each other. 4. The robot cleaner according to claim 1 , wherein a width of the reception region of the light receiving part is smaller than that of the transmission region of the light emitting part at a position at which the light emitting part is located. 5. The robot cleaner according to claim 1 , further comprising a control unit to determine an area in which dust is sensed by the dust inflow sensing unit and an area in which dust is not sensed by the dust inflow sensing unit, wherein the control unit controls the robot cleaner so as to divisionally clean the area in which dust is sensed by the dust inflow sensing unit and the area in which dust is not sensed by the dust inflow sensing unit. 6. The robot cleaner according to claim 1 , further comprising a control unit to determine an area in which dust is sensed by the dust inflow sensing unit and an area in which dust is not sensed by the dust inflow sensing unit, wherein the control unit controls the robot cleaner so as to repeatedly clean the area in which dust is sensed by the dust inflow sensing unit more than the area in which dust is not sensed by the dust inflow sensing unit. 7. The robot cleaner according to claim 1 , further comprising a control unit to determine an area in which dust is sensed by the dust inflow sensing unit and an area in which dust is not sensed by the dust inflow sensing unit, wherein: the brush drum unit includes a brush unit provided in the dust inflow channel; and the control unit increases rotary force of the brush unit in the area in which dust is sensed by the dust inflow sensing unit. 8. The robot cleaner according to claim 1 , further comprising: an air blowing unit to provide suction force to the dust inflow channel of the brush drum unit; and a control unit to determine an area in which dust is sensed by the dust inflow sensing unit and an area in which dust is not sensed by the dust inflow sensing unit, wherein the control unit increases suction force of the air blowing unit in the area in which dust is sensed by the dust inflow sensing unit. 9. A robot cleaner comprising: a main body; a drive unit to drive the main body; a brush drum unit provided on the main body to form a dust inflow channel; and a dust inflow sensing unit to sense dust flowing into the main body through the dust inflow channel of the brush drum unit, the dust inflow sensing unit including: a light emitting part having a transmission region to emit a beam, and a light receiving part having a reception region to overlap the transmission region and the reception region is restricted to a designated range, the light receiving part including a light receiving element and a light receiving guide member to restrict the reception region of the light receiving element, wherein the light receiving guide member enables a width of the reception region of the light receiving part to be uniformly maintained in a direction toward the light emitting part. 10. The robot cleaner according to claim 9 , wherein the width of the reception region of the light receiving part is equal to that of the transmission region of the light emitting part at a position at which the light emitting part is located. 11. A robot cleaner comprising: a main body; a drive unit to drive the main body; a brush drum unit provided on the main body to form a dust inflow channel; and a dust inflow sensing unit to sense dust flowing into the main body through the dust inflow channel of the brush drum unit, the dust inflow sensing unit including: a light emitting part having a transmission region to emit a beam, and a light receiving part having a reception region to overlap the transmission region and the reception region is restricted to a designated range, the light receiving part including a light receiving element and a light receiving guide member to restrict the reception region of the light receiving element, wherein the guide member enables a width of the reception region of the light receiving part to be gradually increased in a direction toward the light emitting part. 12. The robot cleaner according to claim 11 , wherein the width of the reception region of the light receiving part is greater than that of the transmission region of the light emitting part at a position at which the light emitting part is located.