Hand wand for ultrasonic cosmetic treatment and imaging

What is claimed is: 1. A hand wand for use in cosmetic treatment, the wand comprising: a handle comprising an integrated receptacle configured for insertion of at least one of a first removable transducer module and a second removable transducer module, and an electrical cable, wherein said first removable transducer module and second removable transducer module are configured for interchangeable coupling to the handle with a spring pin connector, wherein the first removable transducer module comprises: a first ultrasonic treatment piezoelectric element configured to focus ultrasound at a first depth in a range between 3 mm and 4.5 mm below a skin surface with a first treatment frequency in a range of 1 MHz to 10 MHz at a first acoustic power in a range of 1 watt to 100 watts, a first printed circuit board configured for electrical connection to the spring pin connector, and a first storage device containing data for calibration or storage in a first sealed housing, the first sealed housing comprising a first acoustic fluid and a first acoustically transparent window, wherein the first ultrasonic treatment piezoelectric element is acoustically coupled to the first acoustically transparent window via the first acoustic fluid in the first sealed housing, wherein the second removable transducer module comprises: a second ultrasonic treatment piezoelectric element configured to focus ultrasound at a second depth in a range between 3 mm and 4.5 mm below the skin surface with a second treatment frequency in a range of 1 MHz to 10 MHz at a second acoustic power in a range of 1 watt to 100 watts, a second printed circuit board configured for electrical connection to the spring pin connector, and a second storage device containing data for calibration or storage in a second sealed housing, the second sealing housing comprising a second acoustic fluid and a second acoustically transparent window, wherein the second ultrasonic treatment piezoelectric element is acoustically coupled to the second acoustically transparent window via the second acoustic fluid in the second sealed housing, a movement mechanism comprising a shaft, a stepper motor, a scotch yoke, and a magnetic coupling, the movement mechanism configured to move at least one of the first ultrasonic treatment piezoelectric element and the second ultrasonic treatment piezoelectric element along the shaft to direct a ultrasonic treatment in a linear sequence of individual thermal lesions, wherein the movement mechanism further comprises an encoder disposed on the shaft, the encoder configured for measuring a position of the first ultrasonic treatment piezoelectric element along the shaft in the first sealed housing, an image button on the handle operably controlling an ultrasonic imaging piezoelectric element for providing ultrasonic imaging on a display, wherein the display comprises a graphical user interface, wherein the graphical user interface displays any one of the group of an operating condition, equipment status, and a system message; a treatment button on the handle operably controlling said first ultrasonic treatment piezoelectric element when the first removable transducer module is coupled to the handle to provide a first ultrasonic treatment function for providing a first ultrasonic treatment with the first removable transducer module at a first depth configured for treatment in at least one of the group consisting of: skin, superficial muscular aponeurotic system (“SMAS”), or fat, wherein the treatment button on the handle is configured for operably controlling said second ultrasonic treatment piezoelectric element when the second removable transducer module is coupled to the handle to provide a second ultrasonic treatment function for providing a second ultrasonic treatment with the second removable transducer module at a second depth configured for treatment in at least one of the group consisting of: skin, SMAS, or fat; wherein said first depth is different than said second depth, and wherein said first removable transducer module and second removable transducer module are configured to be operably coupled to said image button and said treatment button, wherein the movement mechanism is configured for travel through a liquid-tight seal, wherein the movement mechanism moves the first ultrasonic treatment piezoelectric element when the first removable transducer module is coupled to the handle, and wherein the movement mechanism moves the second ultrasonic treatment piezoelectric element when the second removable transducer module is coupled to the handle. 2. The hand wand of claim 1 , further comprising a third removable transducer module comprising: a third ultrasonic treatment piezoelectric element configured to focus ultrasound at a third depth in a range of 1.5 mm to 2 mm below the skin surface with a third treatment frequency in a range of 1 MHz to 10 MHz at a third acoustic power in a range of 1 watt to 100 watts, a third printed circuit board configured for electrical connection to the spring pin connector, and a third storage device containing data for calibration or storage in a third sealed housing, the third sealing housing comprising a third acoustic fluid and a third acoustically transparent window, wherein the third ultrasonic treatment piezoelectric element is acoustically coupled to the third acoustically transparent window via the third acoustic fluid in the third sealed housing. 3. The hand wand according to claim 1 , wherein said first removable transducer module and second removable transducer module are configured to provide treatment at different depths below the skin surface. 4. The hand wand of claim 1 , wherein at least one of the image button and the treatment button is connected to a microprocessor for activating said first removable transducer module and second removable transducer module. 5. The hand wand of claim 1 , wherein the scotch yoke comprises a slot to interface with a pin attached to the stepper motor as the pin moves in a circular path to linearly move the first ultrasonic treatment piezoelectric element. 6. A wand for use in cosmetic treatment, the wand comprising: a first button on said wand operably controlling an imaging function; a second button on said wand operably controlling a treatment function; a movement mechanism, an integrated receptacle comprising a spring pin connector, and a removable transducer module comprising: a printed circuit board configured for electrical connection to the spring pin connector operably coupled to said wand at the integrated receptacle, a sealed housing comprising an acoustically transparent window an acoustic fluid, and an ultrasonic treatment piezoelectric element wherein said ultrasonic treatment piezoelectric element is contained with the sealed housing and is configured for acoustic coupling to the acoustically transparent window via the acoustic fluid, wherein the ultrasonic treatment piezoelectric element is configured to focus ultrasound at a depth in a range between 3 mm and 4.5 mm below a skin surface with a treatment frequency in a range of 1 MHz to 10 MHz at an acoustic power in a range of 1 watt to 100 watts, wherein the movement mechanism moves the ultrasonic treatment piezoelectric element inside the removable transducer module along a shaft when the removable transducer module is coupled to the handle, wherein the movement mechanism comprises a stepper motor, a scotch yoke, and a magnetic coupling, the movement mechanism configured to direct a ultrasonic treatment in a linear sequence of individual thermal lesions, wherein the movement mechanism further comprises an encoder provided along the shaft, the encoder being configured to measure a position of the ultrasonic treatment piezoele