Magnetically coupled print head for additive manufacturing system

What is claimed is: 1. An additive manufacturing system comprising: a gantry configured to move in a build plane; a platen configured to support a part being built in a layer by layer process, wherein the platen is configured to move in a direction substantially normal to the build plane; a head carriage carried by the gantry, the head carriage comprising: a wall having an opening having a length and a width, the opening sized to receive at least one print head; a first shaft compositionally comprising at least partially ferromagnetic material, located below the wall; and a second shaft spaced from the first shaft, the second shaft located below the wall; and at least one print head configured to be positioned within the opening of the wall, the at least one print head comprising: a housing; and one or more magnets attached to the housing wherein the at least one print head is configured to be coupled to the first shaft through a magnetic coupling between the one or more magnets and the ferromagnetic material such that the print head is configured to move rotationally relative to the head carriage. 2. The additive manufacturing system of claim 1 and wherein the first shaft comprises: a main body having a substantially cylindrical configuration from a first end to a second end; and a first set of spaced apart slots extending into the main body wherein each of the first set of spaced apart slots comprises: spaced apart inwardly tapered side walls; and an inner surface connecting the spaced apart side walls. 3. The additive manufacturing system of claim 2 and wherein the housing comprises: one or more first magnets secured to the housing and configured to mangetically couple to the first shaft; and first and second rotational bearing surfaces extending from the housing wherein each of the first and second rotational bearing surfaces are configured to engage the first set of spaced apart slots on the first shaft. 4. The additive manufacturing system of claim 3 and wherein the housing further comprises: one or more second magnets spaced apart from the one or more first magnets, the one or more second magnets are configured to removably magnetically couple with the second shaft such that the print head is positively stopped by the second shaft. 5. The additive manufacturing system of claim 1 and further comprising: a support member secured to the wall of the head carriage, wherein the support member is located proximate a first end of the print head when the print head is retained to the head carriage; and an actuator comprising: a first portion secured to the support member; and a second portion secured to the first end of the housing wherein the actuator is located a distance from the magnetic coupling, wherein the actuator is configured to impart a moment force on the print head at the magnetic coupling to cause a pitch of the print head to change relative to the head carriage. 6. The additive manufacturing system of claim 5 and wherein the actuator comprises a voice coil actuator wherein the first portion comprises a voice coil and the second portion comprises permanent magnets. 7. The additive manufacturing system of claim 6 wherein the support member comprises a printed circuit board and wherein the voice coil is electrically coupled to the printed circuit board. 8. The additive manufacturing system of claim 7 and further comprising a position sensor configured to sense a position of the print head relative to the head carriage. 9. he additive manufacturing system of claim 8 and wherein the position sensor comprises an optical reflective encoder, the optical reflective encoder comprises: an emitter/detector attached to the printed circuit board, the emitter/detector configured to emit a light beam and sense a reflected light beam; and a reflective encoder target attached to the first end of the print head, wherein the reflective encoder is configured to reflect the light beam emitted from the emitter/detector back to the emitter/detector. 10. An additive manufacturing system comprising: a gantry configured to move in a build plane; a platen configured to support a part being built in a layer by layer process, wherein the platen is configured to move in a direction substantially normal to the build plane; a head carriage carried by the gantry wherein the head carriage comprises: a wall comprising an opening with a length and a width, the opening sized to receive two or more print heads; a first shaft, compositionally at least partially ferromagnetic material, located below the wall; and a second shaft spaced from the first shaft, the second shaft located below the wall; a first print head comprising: a first housing; and one or more first magnets attached to the first housing wherein the first print head is configured to be coupled to the head carriage through a magnetic coupling between the one or more first magnets and the ferromagnetic material such that the first print head is configured to move rotationally relative to the head carriage; and a second print head comprising: a second housing; and one or more second magnets attached to the second housing wherein the second print head is configured to be coupled to the head carriage through a magnetic coupling between the one or more second magnets and the ferromagnetic material such that the second print head is configured to move rotationally relative to the head carriage wherein the magnetic coupling of the first and second print heads to the ferromagnetic material of the first shafts allows the first and second print heads to be positioned side by side. 11. The additive manufacturing system of claim 10 and wherein the first shaft comprises: a main body having a substantially cylindrical configuration from a first end to a second end; a first set of spaced apart slots extending into the main body wherein each of the first set of spaced apart slots comprises: first spaced apart inwardly tapered side walls; and a first inner surface connecting the first spaced apart side walls; and a second set of spaced apart slots extending into the main body and spaced from the first set of spaced apart slots wherein each of the second set of spaced apart slots comprises: second spaced apart inwardly tapered side walls; and a second inner surface connecting the second spaced apart side walls. 12. The additive manufacturing system of claim 11 and wherein each of the first and second housings comprises: one or more first magnets secured to the housing and configured to magnetically couple to the first shaft; and first and second rotational bearing surfaces extending from the housing wherein each of the first and second rotational bearing surfaces are configured to engage the first set of spaced apart slots on the first shaft. 13. The additive manufacturing system of claim 12 and wherein each of the first and second housings further comprises: one or more second magnets spaced apart from the one or more first magnets, the one or more second magnets are configured to removably magnetically couple with the second shaft such that the print head is positively stopped by the second shaft. 14. The additive manufacturing system of claim 10 and further comprising: a support member secured to the wall of the head carriage, wherein the support member is located proximate a first end of the print head when the print head is retained to the head carriage; a first actuator comprising: a first portion secured to the support member; and a second portion secured to the first end of the first housing wherein the first actuator