Breakaway obturator for downhole

What is claimed is: 1. A system, comprising: wellbore equipment comprising a central bore for connection to a wellbore tubing string at a subterranean location; an annular seat located in the central bore of the wellbore equipment, wherein the annular seat has an up hole facing surface located at an up hole end thereof and a central bore formed therethrough; wherein the wellbore equipment further comprises a seat release mechanism holding the annular seat in axial position in the wellbore equipment until an axial force on the annular seat exceeds a first amount; and an obturator, comprising: an elongated body having an up hole end and a bottom hole end, and a shape to pass through the annular seat; an annular member arranged at the up hole end of the elongated body and having a downwardly directed surface to engage the up hole facing surface of the annular seat, wherein the annular member comprises a central passageway formed therethrough, wherein an internal diameter of the central passageway is approximately equal to that of the central bore through the annular seat; and a release mechanism connecting the annular member to the elongated body until an axial force on the body exceeds a second amount; wherein, the system is configured such that with the obturator in the wellbore equipment with the downhole directed surface of the annular member in engagement with the up hole facing surface of the seat, increasing fluid pressure acting on the obturator until the resulting force acting on the seat exceeds the first amount causes the seat release mechanism to release the seat to shift axially together with the obturator, and thereafter increasing the fluid pressure acting on the obturator until the resulting force acting on the body exceeds the second amount causes the release mechanism to release the body to shift axially and pass through the wellbore equipment. 2. The system according to claim 1 , wherein the release mechanism comprises a frangible member. 3. The system according to claim 2 , wherein the frangible member comprises a shear pin. 4. The system according to claim 1 , wherein the release mechanism comprises a lock ring. 5. The system according to claim 1 , wherein the release mechanism comprises a magnetic field. 6. The system according to claim 1 , wherein the body is cylindrical shaped. 7. The system according to claim 1 , wherein the obturator comprises a dart. 8. The system according to claim 1 , further comprising: the tubing string extending into a wellbore to the subterranean location; wherein the wellbore equipment is connected to the tubing string at the subterranean location. 9. The system according to claim 1 , wherein the body comprises a hollow cylinder. 10. A method of using an obturator to actuate wellbore equipment connected to a tubing string at a subterranean location, the method comprising: providing wellbore equipment having comprising a central bore; providing an annular seat located in the central bore of the wellbore equipment, the annular seat having an up hole facing surface located at an up hole end thereof, and a central bore formed therethrough, the annular seat being mounted to shift axially upon contact by an obturator, wherein the wellbore equipment further comprises a seat release mechanism holding the annular seat in axial position in the wellbore equipment until an axial force on the annular seat exceeds a first amount; connecting the wellbore equipment with its central bore in fluid communication with the tubing string; providing an obturator comprising: an elongated body having an up hole end and a bottom hole end, and a shape to pass through the annular seat in the wellbore equipment; an annular engagement member arranged at the up hole end of the elongated body and having a downwardly directed surface to engage the up hole facing surface of the annular seat; and an engagement member release mechanism connecting the annular engagement member to the elongated body until an axial force on the body exceeds a second amount, wherein the annular engagement member comprises a central passageway formed therethrough with an internal diameter that is approximately equal to that of the central bore through the seat; placing the obturator in the tubing string and transporting the obturator into the wellbore equipment until the annular engagement member contacts the seat with the downhole directed surface of the annular engagement member in engagement with the up hole facing surface of the seat; increasing the fluid pressure acting on the obturator until the resulting force acting on the seat exceeds the first amount to cause the seat release mechanism to release the seat to shift axially; and thereafter increasing the fluid pressure acting on the obturator until the resulting force acting on the body exceeds the second amount to cause the engagement member release mechanism to release the body to shift axially and pass through the wellbore equipment. 11. The method according to claim 10 , wherein one or both of the engagement member release mechanism and the seat release mechanism comprises a frangible member. 12. The method according to claim 10 , wherein the obturator and seat are of a size and shape such that the force of the first amount is created by a first pressure and the force of the second amount is created by a second higher pressure. 13. The method of claim 10 , further comprising: setting a packer element into sealing engagement with the tubing string in response to direct engagement of the seat with the packer element during axial shifting of the seat; and after setting the packer element, increasing the fluid pressure acting on the body to cause the engagement member release mechanism to release the body from the annular engagement member.