Probe assembly, ultrasound imaging apparatus and controlling method of ultrasound imaging apparatus

What is claimed is: 1 . An ultrasound imaging apparatus comprising: a placing unit in which at least one probe connector is placed; an identification information receiver receiving probe assembly identification information from the placed probe connector; an input device receiving a selection command of at least one probe connector; and a locking unit locking the at least one probe connector into the ultrasound imaging apparatus based on the selection command. 2 . The ultrasound imaging apparatus of claim 1 wherein the identification information receiver comprises a second contact point receiving the probe assembly identification information by making contact with a first contact point placed in the probe connector. 3 . The ultrasound imaging apparatus of claim 2 wherein the second contact point makes contact with the first contact point by manual operation of a user. 4 . The ultrasound imaging apparatus of claim 2 wherein the locking unit locks the probe connector into the ultrasound imaging apparatus so that the first contact point makes contact with the second contact point. 5 . The ultrasound imaging apparatus of claim 1 wherein the identification information receiver comprises a second wireless communication module receiving the probe assembly identification information by being connected to a first wireless communication module of the probe connector. 6 . The ultrasound imaging apparatus of claim 5 wherein the locking unit locks the probe connector into the ultrasound imaging apparatus so that the first wireless communication module is connected to the second wireless communication module. 7 . The ultrasound imaging apparatus of claim 1 further comprising: a display device displaying the probe assembly identification information. 8 . The ultrasound imaging apparatus of claim 1 wherein the locking unit performs a first locking connecting the identification information transmitter of the probe connector to the identification information receiver of the ultrasound imaging apparatus, and a second locking connecting a probe signal transceiver of the probe connector to a body signal transceiver of the ultrasound imaging apparatus. 9 . The ultrasound imaging apparatus of claim 8 wherein the locking unit releases the first locking between a probe connector, which is not selected from the plurality of probe connectors, and the ultrasound imaging apparatus. 10 . The ultrasound imaging apparatus of claim 8 wherein when the input device receives whether to select a first probe assembly, and then the first probe assembly is selected, the locking unit performs a second locking between the first probe assembly and the ultrasound imaging apparatus, and when the first probe assembly is not selected, the locking unit performs the first locking between a second probe assembly and the ultrasound imaging apparatus. 11 . The ultrasound imaging apparatus of claim 10 wherein when the first probe assembly is not selected, the locking unit releases the first locking between the first probe assembly and the ultrasound imaging apparatus. 12 . The ultrasound imaging apparatus of claim 8 further comprising: a controller generating a control signal to control the locking unit wherein the locking unit comprises a motor or an actuator, both of which perform the first locking or the second locking, based on the control signal. 13 . The ultrasound imaging apparatus of claim 8 wherein the placing unit is realized by an internal screw type, and the locking unit performs the first locking or the second locking by rotary coupling a housing of the probe assembly realized by an external screw type to the placing unit realized by an internal screw type. 14 . The ultrasound imaging apparatus of claim 1 wherein the placing unit is realized by a coupling groove forming member, in which coupling grooves are formed so that a locking shaft of the probe assembly is placed. 15 . The ultrasound imaging apparatus of claim 14 wherein locking grooves, in which a locking pin of the locking shaft is inserted, are formed in the coupling groove forming member, and the locking unit comprises a coupling member provided at a position formed by an extension of the coupling groove and a motor rotating the locking shaft placed in the coupling member, wherein the motor performs locking by inserting the locking pin into the locking groove by rotating the locking shaft. 16 . The ultrasound imaging apparatus of claim 1 wherein the locking unit comprises an electromagnet and a driving device wherein the driving device performs locking by moving the electromagnet. 17 . A probe connector comprising: a storage unit storing probe assembly identification information; an identification information transmitter transmitting the probe assembly identification information to an ultrasound imaging apparatus when placed in the ultrasound imaging apparatus; and a probe signal transceiver connected to a body signal transceiver of the ultrasound imaging apparatus 18 . The probe connector of claim 17 wherein the storage unit comprises an electronic tag. 19 . The probe connector of claim 17 wherein the identification information transmitter comprises a first contact point transmitting the probe assembly identification information by making contact with a second contact point placed in the ultrasound imaging apparatus. 20 . The probe connector of claim 17 wherein the identification information transmitter comprises a first wireless communication module transmitting the probe assembly identification information by being connected to a second wireless communication module of the ultrasound imaging apparatus. 21 . The probe connector of claim 17 wherein the probe signal transceiver comprises a conductive connection pin. 22 . A control method of an ultrasound imaging apparatus comprising: an operation in which an identification information receiver receives probe assembly identification information from at least one probe connector, which is placed in a placing unit; receiving a selection command of at least one probe connector; and an operation in which a locking unit locks the at least one probe connector into an ultrasound imaging apparatus based on the selection command.