Linear compressor with a ball joint coupling

What is claimed is: 1. A linear compressor, comprising: a driving coil; an inner back iron assembly positioned at least partially in the driving coil; a magnet mounted to the inner back iron assembly, the driving coil configured for magnetically engaging the magnet in order to reciprocate the inner back iron assembly relative to the driving coil; a piston having a post; and a coupling extending between the inner back iron assembly and the piston, the coupling comprising a ball seat press-fit on the post of the piston, the ball seat defining a seating surface; a shaft defining a chamber at an end of the shaft; a pin press-fit to the shaft at the chamber of the shaft; a ball positioned on the seating surface of the ball seat, the ball having an outer surface that is complementary to the seating surface of the ball seat, the pin extending through the ball; a ball shoe positioned opposite the ball seat about the ball, the ball shoe defining a seating surface, the ball positioned on the seating surface of the ball shoe, the outer surface of the ball being complementary to the seating surface of the ball shoe; a housing mounted to the ball seat and positioned over the ball and the ball shoe; and a spring positioned within the housing, the spring urging the ball shoe against the ball. 2. The linear compressor of claim 1 , wherein the coupling defines an axial direction, the shaft extending between a first end portion and a second end portion along the axial direction, the ball seat and the ball shoe spaced apart from each other along the axial direction. 3. The linear compressor of claim 2 , wherein the first end portion of the shaft is positioned at the piston and the second end portion of the shaft is positioned at the inner back iron assembly, the pin is press-fit to the shaft at the first end portion of the shaft. 4. The linear compressor of claim 2 , wherein the first end portion of the shaft is positioned at the piston and the second end portion of the shaft is positioned at the inner back iron assembly, the pin is press-fit to the shaft at the second end portion of the shaft. 5. The linear compressor of claim 1 , wherein the housing comprises a cylindrical sidewall and an end wall, the end wall of the housing defining a frustoconical opening. 6. The linear compressor of claim 5 , wherein the spring extends between the ball shoe and the end wall of the housing within the housing. 7. The linear compressor of claim 1 , wherein the outer surface of the ball is spherical, the seating surface of the ball seat and the seating surface of the ball shoe being semispherical. 8. The linear compressor of claim 1 , wherein the housing is press-fit onto the ball seat. 9. The linear compressor of claim 1 , wherein the ball is fixed relative to the shaft by the pin. 10. A linear compressor, comprising: a driving coil; a piston; an inner back iron assembly positioned at least partially in the driving coil, the driving coil configured for magnetically engaging a magnet proximate the inner back iron assembly in order to reciprocate the piston relative to the driving coil; and a coupling couples the magnet and the piston, the coupling comprising a shaft; and a pair of ball joints, each ball joint of pair of the ball joints comprising a pin, a ball seat, a ball, a ball shoe, a housing and a spring, wherein, for each ball joint of the pair of ball joints, the pin extends through the ball and is press-fit to the shaft at an end portion of the shaft, the ball seat defines a seating surface, the ball is positioned on the ball seat at the seating surface of the ball seat, an outer surface of the ball is complementary to the seating surface of the ball seat, the ball shoe is positioned opposite the ball seat about the ball, the ball shoe defines a seating surface, the ball is positioned on the seating surface of the ball shoe, the outer surface of the ball is complementary to the seating surface of the ball shoe, the housing is mounted to the ball seat and positioned over the ball and the ball shoe, the spring is positioned within the housing and the spring urges the ball shoe against the ball. 11. The linear compressor of claim 10 , wherein the coupling defines an axial direction, the shaft extending between a first end portion and a second end portion along the axial direction, the ball seat and the ball shoe spaced apart from each other along the axial direction for each ball joint of the pair of ball joints. 12. The linear compressor of claim 11 , wherein the first end portion of the shaft is positioned at the piston and the second end portion of the shaft is positioned at the inner back iron assembly, the pin of one of the pair of ball joints press-fit to the shaft at the first end portion of the shaft, the pin of another one of the pair of ball joints press-fit to the shaft at the second end portion of the shaft. 13. The linear compressor of claim 10 , wherein the housing comprises a cylindrical sidewall and an end wall for each ball joint of the pair of ball joints, the end wall of the housing defining a frustoconical opening for each ball joint of the pair of ball joints. 14. The linear compressor of claim 13 , wherein the spring extends the ball shoe and the end wall of the housing within the housing for each ball joint of the pair of ball joints. 15. The linear compressor of claim 10 , wherein the outer surface of the ball is spherical for each ball joint of the pair of ball joints, the seating surface of the ball seat and the seating surface of the ball shoe being semispherical for each ball joint of the pair of ball joints. 16. The linear compressor of claim 10 , wherein the housing is press-fit onto the ball seat for each ball joint of the pair of ball joints. 17. The linear compressor of claim 10 , wherein the ball is fixed relative to the shaft for each ball joint of the pair of ball joints. 18. A linear compressor, comprising: a driving coil; an inner back iron assembly positioned at least partially in the driving coil; a magnet mounted to the inner back iron assembly, the driving coil configured for magnetically engaging the magnet in order to reciprocate the inner back iron assembly relative to the driving coil; a piston having a post; and a coupling extending between the inner back iron assembly and the piston, the coupling comprising a shaft; a ball seat press-fit on the shaft, the ball seat defining a seating surface; a pin press-fit to the post of the piston; a ball positioned on the seating surface of the ball seat, the ball having an outer surface that is complementary to the seating surface of the ball seat, the pin extending through the ball; a ball shoe positioned opposite the ball seat about the ball, the ball shoe defining a seating surface, the ball positioned on the seating surface of the ball shoe, the outer surface of the ball being complementary to the seating surface of the ball shoe; a housing mounted to the ball seat and positioned over the ball and the ball shoe; and a spring positioned within the housing, the spring urging the ball shoe against the ball. 19. The linear compressor of claim 18 , wherein the outer surface of the ball is spherical, the seating surface of the ball seat and the seating surface of the ball shoe being semispherical. 20. The linear compressor of claim 18 , wherein the housing is press-fit onto the ball seat.