Mobile workstation with adjustable height

We claim: 1. A mobile workstation comprising: (a) a top assembly; (b) a base assembly; and (c) an adjustment assembly configured to selectively change the distance between the top assembly and the base assembly, the adjustment assembly comprising: (i) a set of shaft segments including a bottom shaft segment that is secured to the base assembly, a middle shaft segment that is slideably engaged with the bottom shaft segment, and a top shaft segment that is secured to the top assembly and that is slideably engaged with the middle shaft segment, (ii) a first cable diverter configured to engage and change a cable's direction, (iii) a first cable, wherein the first cable extends from a first end to a spaced apart second end, wherein the first cable is engaged with the first cable diverter, and wherein each of the first end of the first cable and the second end of the first cable are secured to different shaft segments of the set of shaft segments, (iv) a second cable diverter configured to engage and change a cable's direction, (v) a second cable, wherein the second cable extends from a first end to a spaced apart second end, wherein the second cable is engaged with the second cable diverter, and wherein each of the first end of the second cable and the second end of the second cable are secured to different shaft segments of the set of shaft segments, and wherein each of the set of shaft segments is secured to at least one of the first cable or the second cable. 2. The mobile workstation of claim 1 , wherein the first cable diverter comprises a pulley. 3. The mobile workstation of claim 1 , wherein the first end of the first cable is secured to the top shaft segment. 4. The mobile workstation of claim 3 , wherein the second end of the first cable is secured to the middle shaft segment. 5. The mobile workstation of claim 1 , wherein the adjustment assembly is configured to, when changing the distance between the top assembly and the base assembly, cause the top shaft segment to extend from or retract towards the middle shaft segment at an adjustment rate, and simultaneously cause the middle shaft segment to extend from or retract into the bottom shaft segment at that same adjustment rate. 6. The mobile workstation of claim 1 , further comprising a linear actuator operable to automatically change the distance between the top assembly and the base assembly. 7. The mobile workstation of claim 1 , further comprising a biasing element, wherein the biasing element is configured to bias the top shaft segment away from the middle shaft segment. 8. The mobile workstation of claim 1 , further comprising a lock assembly operable to selectively lock the set of shaft segments at their current positions. 9. The mobile workstation of claim 7 , wherein a first end of the biasing element is coupled to the top shaft segment, and a second end of the biasing element is coupled to the middle shaft segment. 10. A mobile workstation comprising: (a) a top assembly; (b) a base assembly; and (c) an adjustment assembly configured to selectively change the distance between the top assembly and the base assembly, the adjustment assembly comprising: (i) a set of shaft segments including a bottom shaft segment that is secured to the base assembly, a middle shaft segment that is slideably engaged with the bottom shaft segment, and a top shaft segment that is secured to the top assembly and that is slideably engaged with the middle shaft segment, (ii) a cable diverter, (iii) a cable, wherein the cable extends from a first end to a spaced apart second end, wherein the cable is engaged with the cable diverter, and wherein the first end of the cable is secured to an upper plate of the top shaft segment, and wherein the second end of the cable is secured to a lower plate of the bottom shaft segment. 11. The mobile workstation of claim 10 , wherein the cable diverter comprises a pulley. 12. The mobile workstation of claim 10 , wherein the first end of the cable is secured to the top shaft segment. 13. The mobile workstation of claim 10 , wherein the second end of the cable is secured to the middle shaft segment. 14. The mobile workstation of claim 10 , wherein the adjustment assembly is configured to, when changing the distance between the top assembly and the base assembly, cause the top shaft segment to extend from or retract towards the middle shaft segment at an adjustment rate, and simultaneously cause the middle shaft segment to extend from or retract into the bottom shaft segment at that same adjustment rate. 15. The mobile workstation of claim 10 , further comprising a linear actuator operable to automatically change the distance between the top assembly and the base assembly. 16. The mobile workstation of claim 10 , further comprising a biasing element, wherein the biasing element is configured to bias the top shaft segment away from the middle shaft segment. 17. The mobile workstation of claim 16 , wherein a first end of the biasing element is coupled to the top shaft segment, and a second end of the biasing element is coupled to the middle shaft segment. 18. The mobile workstation of claim 10 , further comprising a lock assembly operable to selectively lock the set of shaft segments at their current positions. 19. An adjustment assembly comprising: (a) a set of shaft segments including a bottom shaft segment that includes a bottom coupling configured to receive a base assembly, a middle shaft segment that is slideably engaged with the bottom shaft segment, and a top shaft segment that is slideably engaged with the middle shaft segment and that includes a top coupling configured to receive a top assembly; (b) a first cable diverter configured to engage and change a cable's direction; (c) a first cable, wherein the first cable extends from a first end to a spaced apart second end, wherein the first cable is engaged with the first cable diverter, and wherein each of the first end of the first cable and the second end of the first cable are secured to different shaft segments of the set of shaft segments; (d) an adjustment element operable by a user to selectively change the distance between the top coupling and the bottom coupling; (e) a second cable diverter configured to engage and change a cable's direction; and (f) a second cable, wherein the second cable extends from a first end to a spaced apart second end, wherein the second cable is engaged with the second cable diverter, and wherein each of the first end of the second cable and the second end of the second cable are secured to different shaft segments of the set of shaft segments; wherein each of the set of shaft segments is secured to at least one of the first cable or the second cable. 20. The adjustment assembly of claim 19 , wherein the adjustment element comprises a lever. 21. The adjustment assembly of claim 19 , wherein the first end of the first cable is secured to the top shaft segment and the second end of the first cable is secured to the middle shaft segment. 22. The method of claim 19 , further comprising operating the adjustment element to change the distance between the top coupling and the bottom coupling by causing the top shaft segment to extend from or retract towards the middle shaft segment at an adjustment rate, and simultaneously causing the middle shaft segment to extend from or retract into the bottom shaft segment at that same adjustment rate. 23. The method of claim 22 , wherein the ad