Methods and features for coupling ultrasonic surgical instrument components together

We claim: 1. A surgical kit, comprising: (a) a transducer assembly, wherein the transducer assembly is operable to convert electrical power into ultrasonic vibrations; (b) an ultrasonic waveguide, wherein the waveguide is configured to couple with the transducer assembly, wherein the waveguide has a distal end forming a blade; (c) a cap removably disposed on the blade, wherein the cap comprises: (i) a resilient feature configured to resiliently bear against the blade and thereby removably secure the cap to the blade, and (ii) a proximally facing surface; and (d) a torque wrench, wherein the torque wrench is operable to drive rotation of the waveguide to thereby couple the waveguide with the transducer assembly, wherein the torque wrench comprises: (i) a torque limiting feature, wherein the torque limiting feature is operable to restrict an amount of torque by which the waveguide may be coupled with the transducer assembly, and (ii) a cap engagement feature comprising a resilient latch member, wherein the resilient latch member comprises an inwardly extending tab, wherein the cap engagement feature is operable to engage the cap and thereby remove the cap from the blade, wherein the resilient latch member is configured to contact the proximal facing surface of the cap such that distal movement of the cap engagement feature removes the cap from the blade. 2. The surgical kit of claim 1 , wherein the cap engagement feature defines a pocket dimensioned to receive the cap. 3. The surgical kit of claim 2 , wherein the cap engagement feature comprises a rigid base member. 4. The surgical kit of claim 1 , wherein the ultrasonic waveguide comprises a threaded bore. 5. The surgical kit of claim 4 , wherein the transducer assembly comprises a threaded stud configured to couple with the threaded bore of the ultrasonic waveguide. 6. The surgical kit of claim 5 , wherein the transducer assembly further comprises a horn, wherein the threaded stud extends distally from the horn. 7. The surgical kit of claim 1 , further comprising a housing, wherein the transducer assembly is at least partially disposed within the housing. 8. The surgical kit of claim 7 , further comprising a shroud configured to attach to a distal portion of the housing, wherein the waveguide is dimensioned to be inserted within the confines of the shroud. 9. The surgical kit of claim 1 , wherein the transducer assembly comprises a first conductive ring and a second conductive ring. 10. The surgical kit of claim 9 , wherein the first conductive ring is electrically isolated from the second conductive ring. 11. The surgical kit of claim 1 , wherein the torque limiting feature is configured to provide audible feedback when the torque limiting feature restricts the amount of torque by which the waveguide is coupled to the transducer assembly. 12. The surgical kit of claim 1 , wherein the torque limiting feature is configured to provide tactile feedback when the torque limiting feature restricts the amount of torque by which the waveguide is coupled to the transducer assembly. 13. A surgical kit, comprising: (a) a transducer assembly, wherein the transducer assembly is operable to convert electrical power into ultrasonic vibrations; (b) an ultrasonic waveguide, wherein the waveguide is configured to couple with the transducer assembly, wherein the waveguide has a distal end forming a blade; (c) a cap disposed on the blade via a friction fitting, wherein the friction fitting resists longitudinal motion of the cap relative to the blade; and (d) a torque wrench, wherein the torque wrench is operable to drive rotation of the waveguide to thereby couple the waveguide with the transducer assembly, wherein the torque wrench comprises: (i) a torque limiting feature, wherein the torque limiting feature is operable to restrict an amount of torque by which the waveguide may be coupled with the transducer assembly, and (ii) a resilient cap engagement feature, wherein the resilient cap engagement feature is configured to directly engage a proximal facing surface of the cap, wherein the resilient cap engagement feature is operable to engage the cap such that distal movement of the resilient cap engagement feature drives the cap away from the blade by overcoming the friction fitting between the cap and the blade. 14. The surgical kit of claim 13 , wherein the cap engagement feature comprises a resilient latch configured to engage the cap. 15. The surgical kit of claim 14 , wherein the cap further comprise a shelf configured to engage the resilient latch. 16. A surgical kit, comprising: (a) a transducer assembly, wherein the transducer assembly is operable to convert electrical power into ultrasonic vibrations; (b) an ultrasonic waveguide, wherein the waveguide is configured to couple with the transducer assembly, wherein the waveguide has a distal end forming a blade; (c) a cap comprising a resilient body, wherein the resilient body is configured to bias against the blade of the ultrasonic waveguide and thereby removably secure the cap to the blade; and (d) a torque wrench, wherein the torque wrench is operable to drive rotation of the waveguide to thereby couple the waveguide with the transducer assembly, wherein the torque wrench comprises: (i)a torque limiting feature, wherein the torque limiting feature is operable to restrict an amount of torque by which the waveguide may be coupled with the transducer assembly, and (ii) a cap engagement feature that is resiliently flexible relative to the torque limiting feature to contact a proximal facing surface of the cap, wherein the cap engagement feature is operable to resiliently flex to engage the cap, wherein the cap engagement feature is configured to actuate distally while engaged with the cap in order to drive the cap from the blade by overcoming the biasing force of the resilient body against the ultrasonic waveguide.