Ultrasonic sensor and robot cleaner equipped therewith

What is claimed is: 1. An ultrasonic sensor comprising: a transmitter that emits ultrasonic waves; a plurality of receivers installed at positions spaced apart from the transmitter by a predetermined distance to receive ultrasonic waves emitted from the transmitter; and an electrical signal transmission unit electrically connecting the transmitter and at least one of the plurality of receivers, wherein the electrical signal transmission unit transmits a predetermined electrical signal to a receiver connected to the transmitter in addition to the ultrasonic waves emitted from the transmitter, wherein electrical signal transmission unit transmits a predetermined electrical signal to the receiver when the transmitter emits ultrasonic waves; wherein the electrical signal transmission unit transmits the predetermined electrical signal to the receiver before the ultrasonic waves emitted by the transmitter reach the receiver, and wherein the electrical signal transmission unit transmits the predetermined electrical signal to the receiver such that an overlapping region between a first signal output by the receiver in response to the electrical signal and a second signal output by the receiver in response to ultrasonic waves emitted by the transmitter is below a predetermined time interval. 2. The ultrasonic sensor of claim 1 , wherein the electrical signal transmission unit transmits the predetermined electrical signal to the receiver before the receiver increases an output above a predetermined value in response to the ultrasonic waves emitted by the transmitter. 3. The ultrasonic sensor of claim 1 , wherein the electrical signal transmission unit transmits the predetermined electrical signal to the receiver before an increase rate of output of the receiver is changed from a positive value to a negative value while the receiver changes an output in response to the ultrasonic waves emitted by the transmitter. 4. The ultrasonic sensor of claim 1 , wherein the receiver outputs the first signal based on the reception of the electrical signal received from the electrical signal transmission unit, and outputs the second signal based on the reception of ultrasonic waves emitted by the transmitter. 5. The ultrasonic sensor of claim 1 , wherein the receiver outputs the first signal prior to the second signal. 6. The ultrasonic sensor of claim 5 , wherein a time range in which the first signal is output and a time range in which the second signal is output overlap with each other within a predetermined time interval. 7. The ultrasonic sensor of claim 1 , wherein the transmitter has a positive output terminal and a negative output terminal, and the electrical signal transmission unit is connected between the negative output terminal and any one of the plurality of receivers. 8. The ultrasonic sensor of claim 7 , wherein the electric signal transmission unit comprises a MOSFET. 9. The ultrasonic sensor of claim 8 , wherein a gate terminal of the MOSFET is connected to a negative output terminal of the transmitter. 10. The ultrasonic sensor of claim 1 , wherein a level of the electrical signal transmitted to the receiver by the electrical signal transmission unit is variably set. 11. The ultrasonic sensor of claim 1 , wherein the electrical signal transmission unit is turned off so as not to transmit an electrical signal to the receiver when a period during which the transmitter generates ultrasonic waves is reduced below a threshold period. 12. A robot cleaner performing autonomous driving, the robot cleaner comprising: a main body; a driving unit configured to move the main body; an ultrasonic sensor configured to sense a distance between the main body and an obstacle; and a controller configured to control the driving unit using an output value of the ultrasonic sensor, where the ultrasonic sensor comprises: a transmitter installed at a point on an outer surface of the main body to emit ultrasonic waves in a predetermined direction; a plurality of receivers installed at positions spaced apart from the transmitter by a predetermined distance on the outer surface of the main body to receive ultrasonic waves emitted from the transmitter and then reflected by the obstacle; and an electrical signal transmission unit electrically connecting the transmitter and at least one of the plurality of receivers, and wherein the electrical signal transmission unit transmits a predetermined electrical signal to the receiver in addition to ultrasonic waves emitted from the transmitter, wherein the electrical signal transmission unit transmits the predetermined electrical signal to the receiver before ultrasonic waves emitted by the transmitter reaches the receiver, wherein the receiver outputs a first signal based on the reception of the electrical signal received from the electrical signal transmission unit, and outputs a second signal based on the reception of ultrasonic waves emitted by the transmitter, and wherein the electrical signal transmission unit transmits the predetermined electrical signal to the receiver such that an overlapping region between the first signal output by the receiver in response to the electrical signal and the second signal output by the receiver in response to ultrasonic waves emitted by the transmitter is below a predetermined time interval. 13. The robot cleaner of claim 12 , wherein a circuit constituting the electrical signal transmission unit is installed separately in a different position from a circuit constituting the controller. 14. The robot cleaner of claim 12 , wherein the receiver outputs the first signal prior to the second signal. 15. The robot cleaner of claim 12 , wherein the controller receives an output of the first signal and an output of the second signal through a single harness. 16. An ultrasonic sensor comprising: a transmitter that emits ultrasonic waves; a plurality of receivers installed at positions spaced apart from the transmitter by a predetermined distance to receive ultrasonic waves emitted from the transmitter; and an electrical signal transmission unit electrically connecting the transmitter and at least one of the plurality of receivers, wherein the electrical signal transmission unit transmits a predetermined electrical signal to a receiver connected to the transmitter in addition to the ultrasonic waves emitted from the transmitter, wherein the electrical signal transmission unit is turned off so as not to transmit an electrical signal to the receiver when a period during which the transmitter generates ultrasonic waves is reduced below a threshold period.