Portable ultrasonic probe having a folder part

What is claimed is: 1. A portable ultrasonic probe, comprising: a main body comprising a transducer configured to generate an ultrasonic wave, a heat pipe configured to deliver heat generated from the transducer toward a first direction, and a first connector configured to absorb the heat delivered from the heat pipe, the first direction being opposite to a second direction in which the ultrasonic wave is radiated; and a folder part comprising a first display and rotatably coupled to an end portion of the main body, wherein the main body further comprises an analog to digital (AD) converter and a beamformer, the AD converter and the beamformer being provided in a chip, wherein the transducer, the AD converter, and the beamformer are provided in a module, and the module is detachably provided in the main body, and wherein the folder part comprises a second connector that comes into contact with the first connector when the folder part is opened, the second connector configured to deliver heat from the first connector to a first side of the folder part opposite to a second side of the folder part at which the second connector is positioned. 2. The portable ultrasonic probe of claim 1 , wherein: the beamformer of the main body comprises an analog beamformer and a digital beamformer, and the analog beamformer, the AD converter, and the digital beamformer are provided in the chip. 3. The portable ultrasonic probe of claim 1 , wherein: the main body further comprises a battery configured to supply power to drive the portable ultrasonic probe. 4. The portable ultrasonic probe of claim 3 , wherein: the battery is detachably provided in the main body. 5. The portable ultrasonic probe of claim 1 , wherein: the folder part further comprises a scan converter configured to output data received from the beamformer, to the first display, and the first display displays an ultrasonic image based on the data output from the scan converter. 6. The portable ultrasonic probe of claim 1 , wherein: the first display comprises a touch panel configured to provide a user interface for controlling the portable ultrasonic probe. 7. The portable ultrasonic probe of claim 1 , wherein: the main body further comprises a communicator circuitry configured to transmit data output from the beamformer to a backend part, the backend part comprising a second display configured to display an ultrasonic image. 8. The portable ultrasonic probe of claim 1 , wherein the folder part further comprises: a coupling mechanism to rotatably couple the folder part to the main body; and an actuator configured to provide a driving force to rotate the folder part in a third direction according to at least one rotating axis thereof. 9. The portable ultrasonic probe of claim 8 , wherein the coupling mechanism comprises at least two rotating axes that are perpendicular to each other, and the actuator provides the driving force to rotate the folder part in a fourth direction according to at least one from among the at least two rotating axes. 10. The portable ultrasonic probe of claim 8 , wherein the main body further comprises: a three-axis accelerating sensor configured to detect inclination of the main body, and a processor configured to output a control signal to drive the actuator based on the detected inclination of the main body. 11. The portable ultrasonic probe of claim 1 , wherein: a surface of the main body from which the ultrasonic wave is radiated has a predetermined angle with respect to an opposite surface of the main body. 12. The portable ultrasonic probe of claim 1 , wherein the main body further comprises a heat spreader configured to absorb the heat generated from the transducer, and the heat pipe is configured to contact the heat spreader and convey the heat absorbed by the heat spreader toward the first direction. 13. The portable ultrasonic probe of claim 1 , wherein the heat pipe is formed in a bent shape based on a degree of inclination of the main body. 14. An ultrasonic system, comprising: a portable ultrasonic probe comprising a first communicator circuitry configured to transmit data output from a beamformer; and a backend part comprising a second communicator circuitry to receive the data transmitted from the first communicator circuitry, and a first display to display an ultrasonic image based on the data received by the second communicator circuitry, wherein the portable ultrasonic probe further comprises: a main body, the main body comprising the beamformer, an analog to digital (AD) converter, and a transducer configured to generate an ultrasonic wave, a heat pipe configured to deliver heat generated from the transducer toward a first direction, and a first connector configured to absorb the heat delivered from the heat pipe, the first direction being opposite to a second direction in which the ultrasonic wave is radiated; and a folder part comprising a second display and rotatably coupled to an end portion of the main body, and wherein the transducer, the AD converter, and the beamformer are provided in a module, and the module is detachably provided in the main body, and wherein the folder part comprises a second connector that comes into contact with the first connector when the folder part is opened, the second connector configured to deliver heat from the first connector to a first side of the folder part opposite to a second side of the folder part at which the second connector is positioned. 15. A portable ultrasonic probe, comprising: a main body comprising a transducer configured to generate an ultrasonic wave, a heat pipe configured to deliver heat generated from the transducer toward a first direction, and a first connector configured to absorb the heat delivered from the heat pipe, the first direction being opposite to a second direction in which the ultrasonic wave is radiated; and a folder part rotatably coupled to the main body, wherein the main body further comprises an analog to digital (AD) converter and a digital beamformer, wherein the transducer, the AD converter, and the digital beamformer are provided in a module, and the module is detachably provided in the main body, and wherein the folder part comprises a second connector that comes into contact with the first connector when the folder part is opened, the second connector configured to deliver heat from the first connector to a first side of the folder part opposite to a second side of the folder part at which the second connector is positioned. 16. The portable ultrasonic probe of claim 15 , wherein the analog to digital (AD) converter converts an ultrasonic echo signal received from the transducer into a digital signal. 17. The portable ultrasonic probe of claim 16 , wherein the digital beamformer performs beamforming on the converted digital signal. 18. The portable ultrasonic probe of claim 16 , wherein the main body further comprises an analog beamformer configured to perform analog beamforming on the ultrasonic echo signal received from the transducer and provide the analog beamformed ultrasonic echo signal to the AD converter. 19. The portable ultrasonic probe of claim 15 , wherein the folder part comprises an actuator configured to drive the folder part to rotate according to a direction of at least one axis thereof. 20. The portable ultrasonic probe of claim 15 , further comprising: a coupling mechanism configured to rotatably couple the folder part to the main body, the coupling mechanism comprising an actuato