Rotary solenoid

What is claimed is: 1. A rotary solenoid comprising: a core comprising two electromagnet poles which terminate in two respective pole faces; a shaft; a rotor mounted on the shaft; two end caps mounted to the core and between which the shaft extends for rotational motion relative to the pole faces in accordance with energization of the two electromagnetic poles; wherein at least one of the end caps comprises: a cover member comprising an aperture through which the shaft extends; an axial wall which extends from the cover member in a direction of a shaft axis and which is configured to provide a feature which aligns the two pole faces with the aperture in the cover member for self-aligning the two pole faces with an outer diameter of the rotor. 2. The rotary solenoid of claim 1 , further comprising a first end cap and a second end cap; wherein the first end cap comprises: a first end cap cover member comprising a first end cap aperture through which the shaft extends; a first end cap axial wall which extends from the first end cap cover member in a direction of a shaft axis and which is configured: to provide a first end cap feature which aligns the two pole faces with the aperture in the first end cap cover member for self-aligning the two pole faces with an outer diameter of the rotor; and to provide both an end-of-travel stop surface for the rotor and a bearing surface for the shaft; wherein the second end cap comprises: a second end cap cover member comprising a second end cap aperture through which the shaft extends; a second end cap axial wall which extends from the second end cap cover member in a direction of a shaft axis and which is configured: to provide a second end cap feature which aligns the two pole faces with the aperture in the second send cap cover member for self-aligning the two pole faces with an outer diameter of the rotor; and to provide both an end-of-travel stop surface for the rotor and a bearing surface for the shaft. 3. The rotary solenoid of claim 2 , wherein the first end cap feature which aligns the two pole faces with the aperture in the first end cap cover member and the second end cap feature which aligns the two pole faces with the aperture in the second send cap cover member form windows in which at least portions of the two pole faces are disposed and through which at least portions of the two pole faces are exposed to the rotor. 4. The rotary solenoid of claim 1 , wherein at least one of the two end caps comprises a plastic material and wherein the aperture of the at least one end cap serves as a plastic bearing for the shaft. 5. The rotary solenoid of claim 1 , wherein at least one of the end caps comprises a channel formed to accommodate ball bearings to support the shaft. 6. The rotary solenoid of claim 1 , wherein the cover member and the wall are integrally formed of plastic. 7. The rotary solenoid of claim 1 , wherein the cover member is metallic and the wall comprises a plastic wall insert member that attaches to an interior surface of the cover member, the plastic wall insert comprising a second aperture which provides a bearing surface for the shaft and thrust ring surfaces for the rotor. 8. A rotary solenoid comprising: a core comprising two electromagnet poles which terminate in two respective pole faces; a shaft; a rotor mounted on the shaft; two end caps mounted to the core and between which the shaft extends for rotational motion relative to the pole faces in accordance with energization of the two electromagnetic poles; wherein at least one of the end caps comprises: a cover member comprising an aperture through which the shaft extends; an axial wall which extends from the cover member in a direction of a shaft axis and which is configured to provide an end-of-travel stop surface for the rotor. 9. The rotary solenoid of claim 8 , wherein the axial wall provides two end-of-travel stop surfaces for the rotor. 10. The rotary solenoid of claim 8 , wherein the axial wall is further configured to provide an end-of-travel stop surface for the rotor and a bearing surface for the shaft. 11. The rotary solenoid of claim 8 , further comprising a first end cap and a second end cap; wherein the first end cap comprises: a first end cap cover member comprising a first end cap aperture through which the shaft extends; a first end cap axial wall which extends from the first end cap cover member in a direction of a shaft axis and which is configured: to provide a first end cap feature which aligns the two pole faces with the aperture in the first send cap cover member for self-aligning the two pole faces with an outer diameter of the rotor; and to provide both an end-of-travel stop surface for the rotor and a bearing surface for the shaft; wherein the second end cap comprises: a second end cap cover member comprising a second end cap aperture through which the shaft extends; a second end cap axial wall which extends from the second end cap cover member in a direction of a shaft axis and which is configured: to provide a second end cap feature which aligns the two pole faces with the aperture in the second send cap cover member for self-aligning the two pole faces with an outer diameter of the rotor; and to provide both an end-of-travel stop surface for the rotor and a bearing surface for the shaft. 12. The rotary solenoid of claim 8 , wherein at least one of the two end caps comprises a plastic material and wherein the aperture of the at least one end cap serves as a plastic bearing for the shaft. 13. The rotary solenoid of claim 8 , wherein at least one of the end caps comprises a channel formed to accommodate ball bearings to support the shaft. 14. The rotary solenoid of claim 8 , wherein the cover member and the wall are integrally formed of plastic. 15. The rotary solenoid of claim 8 , wherein the cover member is metallic and the wall comprises a plastic wall insert member that attaches to an interior surface of the cover member, the plastic wall insert comprising a second aperture which provides a bearing surface for the shaft and thrust ring surfaces for the rotor. 16. A rotary solenoid comprising: a core comprising two electromagnet poles which terminate in two respective pole faces; a shaft; a rotor mounted to the shaft; two end caps mounted to the core and between which the shaft extends for rotational motion relative to the pole faces in accordance with energization of the two electromagnetic poles, one of the two end caps comprising an anchor feature; a torsion spring configured to return the shaft to a home position when the two magnetic poles are not energized, the torsion spring comprising a coil which terminates in a torsion spring first end and a torsion spring second end, the torsion spring first end being configured for engagement with the anchor feature; a spring holder attached to the shaft, the spring holder comprising a holder body about which the coil of the torsion spring makes at least one turn, the spring holder further comprising a set point for retaining the torsion spring second end, the spring holder body being configured with at least one enlarged lobe to preclude removal of the torsion spring along a direction of the shaft axis after the torsion spring is set. 17. A rotary solenoid comprising: a core comprising two electromagnet poles which terminate in two respective pole faces; a rotor assembly comprising: a shaft comprising a stepped portion; a magnetic rotor carried by the shaft and configured to be accommodated between the two pole faces, the m