Seating device having a height adjustment mechanism

What is claimed is: 1. A height adjustment device for a seating device comprising: an actuator; a first linkage connected to the actuator; a second linkage connected to the first linkage, the second linkage having a cavity, the second linkage having a first end and a second end opposite the first end of the second linkage; a rotatable member having a plurality of spaced apart projections that define a plurality of spaced apart recesses, each of the recesses sized and shaped to receive the first end of the second linkage for locking engagement with projections that define that recess; a shaft having a first end and a second end opposite the first end of the shaft, the second end of the shaft being attached to the rotatable member such that rotation of the shaft causes the rotatable member to rotate; wherein the shaft has at least one thread that is mateable with at least one thread defined in a portion of a base of the seating device such that linear motion of the shaft in a first direction causes the shaft to rotate in a first rotational direction during that linear motion of the shaft in the first direction of linear motion and linear motion of the shaft in a second direction of linear motion that is opposite the first direction of linear motion causes the shaft to rotate in a second rotational direction that is opposite the first rotational direction during linear motion of the shaft in the second direction of linear motion; a plurality of ring elements connected to the shaft to induce friction during motion of the shaft in one of the first direction of linear motion and the second direction of linear motion; a first spring positioned within the cavity of the second linkage; and a second spring positioned adjacent the second end of the second linkage to provide a biasing force that acts against the second end of the second linkage to bias the first end of the second linkage toward the rotatable member. 2. The height adjustment mechanism of claim 1 , comprising: a plurality of ring elements connected to a housing that at least partially defines a cavity that at least partially encloses the shaft, the shaft passing through the ring elements connected to the housing to induce friction during motion of the shaft in one of the first direction of linear motion and the second direction of linear motion, the ring elements connected to the housing being spaced apart from each other and being positioned such that at least one ring element of the ring elements connected to the shaft is positioned between immediately adjacent ring elements connected to the housing; and the ring elements connected to the shaft being spaced apart from each other and being positioned such that at least one ring element of the ring elements connected to the housing is positioned between immediately adjacent ring elements connected to the shaft. 3. The height adjustment mechanism of claim 1 , wherein the first spring is positioned within the cavity such that the first spring is compressible from a first length to a second shorter length, the first end of the second linkage maintaining a position within a recess of the rotatable member when the first spring is compressed to the second length of the first spring. 4. The height adjustment mechanism of claim 1 , wherein the second spring is positioned to be compressible from a first length to a second shorter length when the actuator is moved from a first position to a second position and the first spring is maintained at the first length of the first spring. 5. The height adjustment mechanism of claim 4 , wherein the first and second springs are positioned such that the first spring is compressible from the first length of the first spring to the second length of the first spring while the second spring is maintained at the first length of the second spring. 6. The height adjustment mechanism of claim 4 , wherein the first spring is connected between the first linkage and the second linkage. 7. The height adjustment mechanism of claim 6 , wherein the second spring is positioned between a wall and the second end of the second linkage. 8. The height adjustment mechanism of claim 1 , comprising: a guide having a slot that receives a projection extending from the first linkage, the slot defining a path of travel of the first linkage such that the projection moves along the slot when the actuator is moved from the first position to the second position. 9. A height adjustment device for a seating device comprising: an actuator; a first linkage connected to the actuator; a second linkage connected to the first linkage, the second linkage having a cavity, the second linkage having a first end and a second end opposite the first end of the second linkage; a rotatable member having a plurality of spaced apart projections that define a plurality of spaced apart recesses, each of the recesses sized and shaped to receive the first end of the second linkage for locking engagement with projections that define that recess; a first spring positioned within the cavity of the second linkage; and a second spring positioned adjacent the second end of the second linkage to provide a biasing force that acts against the second end of the second linkage to bias the first end of the second linkage toward the rotatable member; the first spring being positioned within the cavity of the second linkage such that the first spring compresses from a first length to a second length that is shorter than the first length, the first end of the second linkage maintaining a position within a recess of the rotatable member when the first spring is compressed to the second length of the first spring, and the second spring is positioned to be compressible from a first length to a second shorter length when the actuator is moved from a first position to a second position and the first spring is maintained at the first length of the first spring, the first end of the second linkage moving away from the rotatable member such that the first end of the second linkage is moved out of engagement with the projections of the rotatable member when the second spring is compressed to the second length of the second spring. 10. The height adjustment mechanism of claim 9 , wherein the first and second springs are positioned such that the first spring is compressible from the first length of the first spring to the second length of the first spring while the second spring is maintained at the first length of the second spring. 11. The height adjustment mechanism of claim 10 , comprising: a shaft having a first end and a second end opposite the first end of the shaft, the second end of the shaft being attached to the rotatable member such that rotation of the shaft causes the rotatable member to rotate; the first end of the shaft being connectable to a base of the seating device such that rotation of the shaft results in height adjustment of a seat of the seating device. 12. A seating device comprising: a seat; a base connected to the seat to support the seat on a floor; a height adjustment mechanism connected to the base such that actuation of the height adjustment mechanism facilitates height adjustment of the seat, the height adjustment mechanism comprising: an actuator; a first linkage connected to the actuator; a second linkage connected to the first linkage, the second linkage having a cavity, the second linkage having a first end and a second end opposite the first end of the second linkage; a rotatable member having a plurality of spaced apart projections that define a plurality of spaced apart recesses, each of the recesses sized and shaped to receive the first end of the second lin