Ultrasonic surgical instrument with removable shaft assembly portion

We claim: 1. An apparatus, comprising: (a) a body comprising a knob; (b) a shaft assembly, wherein the shaft assembly comprises: (i) an outer tube, (ii) a proximal inner tube member, (iii) a distal inner tube member, and (iv) an acoustic waveguide; (c) an end effector, wherein the end effector comprises: (i) an ultrasonic blade acoustically coupled with the acoustic waveguide, and (ii) a clamp arm, wherein a first portion of the clamp arm is pivotably coupled with a distal end of the outer tube, wherein a second portion of the clamp arm is pivotably coupled with a distal end of the distal inner tube member; and (d) an angular orientation assembly comprising: (i) a first guide feature associated with either the knob or the outer tube, and (ii) a second guide feature associated with either the knob or the outer tube; wherein the outer tube is configured to removably couple with the body and the distal inner tube member is configured to removably couple with the proximal inner tube member such that the outer tube, the distal inner tube member, and the clamp arm are configured to removably couple with the body and the remainder of the shaft assembly and end effector as a unit, wherein the knob is operable to rotate the shaft assembly and the end effector about a longitudinal axis defined by the shaft assembly, wherein the angular orientation assembly is configured to restrict longitudinal insertion of a proximal end of the outer tube into the body based on a first angular orientation of the outer tube relative to the knob about the longitudinal axis, wherein the angular orientation assembly is configured to allow longitudinal insertion of the proximal end of the outer tube into the body based on a second angular orientation of the outer tube relative to the knob about the longitudinal axis. 2. The apparatus of claim 1 , wherein the distal inner tube member comprises a resilient latch feature configured to removably secure the distal inner tube member to the proximal inner tube member. 3. The apparatus of claim 2 , wherein the outer tube includes a lateral opening configured to accommodate outward deflection of the resilient latch feature. 4. The apparatus of claim 1 , wherein the distal inner tube member is configured to removably couple with the proximal inner tube member via a snap fitting. 5. The apparatus of claim 1 , wherein the body and the shaft assembly further comprise complementary guide features, wherein the guide features are configured to guide angular positioning of the clamp arm relative to the ultrasonic blade about a longitudinal axis defined by the shaft assembly. 6. The apparatus of claim 5 , wherein the guide features comprise a bayonet slot. 7. The apparatus of claim 6 , wherein the bayonet slot is formed in a proximal end of the outer tube. 8. The apparatus of claim 6 , wherein the body comprises a coupling member, wherein the bayonet slot is formed in the coupling member. 9. The apparatus of claim 1 , wherein the body includes a coupling member, wherein a proximal end of the outer tube is configured to removably couple with the coupling member of the body. 10. The apparatus of claim 9 , wherein the coupling member of the body is configured to provide a snap fit with the proximal end of the outer tube. 11. The apparatus of claim 9 , wherein the proximal end of the outer tube comprises a coupling member, wherein the coupling member of the outer tube is configured to engage the coupling member of the body to thereby secure the proximal end of the outer tube to the body. 12. The apparatus of claim 11 , wherein the coupling member of the outer tube and the coupling member of the body comprise complementary detent features, wherein the detent features are configured to removably secure the proximal end of the outer tube to the body. 13. The apparatus of claim 1 , wherein the body comprises a handle assembly. 14. The apparatus of claim 13 , wherein the handle assembly comprises the knob. 15. The apparatus of claim 14 , wherein the first guide feature comprises a channel, wherein the second guide feature comprises a guide tab, wherein the knob defines the channel, wherein the outer tube further comprises the guide tab. 16. The apparatus of claim 1 , wherein the proximal inner tube member and the acoustic waveguide are secured to the body such that the proximal inner tube member and the acoustic waveguide are prevented from translating longitudinally relative to the body. 17. An apparatus, comprising: (a) a body; (b) a shaft assembly, wherein the shaft assembly comprises: (i) an outer tube defining an elongate opening along an outer surface, wherein the entire outer tube is configured to be removably coupled with the body, (ii) a proximal inner tube member, wherein the proximal inner tube member is integral with the body, (iii) a distal inner tube member comprising a coupling member, wherein the distal inner tube member is configured to be removably coupled with the proximal inner tube member via the coupling member, wherein the elongate opening houses the coupling member, and (iv) an acoustic waveguide, wherein the acoustic waveguide is integral with the body; and (c) an end effector, wherein the end effector comprises: (i) an ultrasonic blade acoustically coupled with the acoustic waveguide, and (ii) a clamp arm, wherein a first portion of the clamp arm is pivotably coupled with a distal end of the outer tube, wherein a second portion of the clamp arm is pivotably coupled with a distal end of the distal inner tube member. 18. The apparatus of claim 17 , wherein the outer tube, the distal inner tube member, and the clamp arm are configured to removably couple with the body and the remainder of the shaft assembly and end effector as a unit. 19. A method of assembling a surgical instrument, the method comprising: (a) grasping a first sub-assembly, wherein the first sub-assembly comprises: (i) an outer tube comprising a first alignment feature, (ii) a distal inner tube portion, and (iii) a clamp arm, wherein the clamp arm is pivotably coupled with the outer tube, wherein the clamp arm is further pivotably coupled with the distal inner tube portion; (b) grasping a second sub-assembly, wherein the second sub-assembly comprises: (i) a body comprising a knob, wherein the knob is configured to rotate the rest of the second sub-assembly about a longitudinal axis, wherein the knob comprises a second alignment feature, (ii) an acoustic waveguide extending distally from the body, (iii) a proximal inner tube portion extending distally from the body, and (iv) an ultrasonic blade positioned at a distal end of the acoustic waveguide; (c) aligning the first alignment feature of the outer tube with the second alignment feature of the knob; and (d) moving the first sub-assembly relative to the second sub-assembly, thereby securing the outer tube to the body, and thereby securing the distal inner tube portion to the proximal inner tube portion, wherein moving the first sub-assembly relative to the second sub-assembly further comprises rotating the first alignment feature along the longitudinal axis about a path defined by the second alignment feature. 20. The method of claim 19 , wherein the act of moving the first sub-assembly proximally relative to the second sub-assembly comprises: (i) moving the first sub-assembly proximally relative to the second sub-assembly, and (ii) rotating the first sub-assembly relative to the second sub-assembly.