Vertical cable manager

What is claimed is: 1. A method of arranging or assembling a modular cable manager without the aid of tools, the method comprising: providing upper and lower cable manager units, each comprised of a pair of side cable guides interconnected via a separate midsection member, each side cable guide including a plurality of projections that extend forwardly from a support column; providing a splice plate having a beveled locking catch at each of first and second opposite ends thereof; positioning the first end of the splice plate within a first receiving area disposed at a top of a selected one of the support columns of the lower cable manager unit; maneuvering the splice plate so that the beveled locking catch at the first end deflects and then releases a lock tab, disposed at an interior of the first receiving area, into a locked position, thereby securing the first end of the splice plate to the lower cable manager unit; positioning the second end of the splice plate within a second receiving area disposed at a bottom of a selected one of the support columns of the upper cable manager unit; and maneuvering the splice plate so that the beveled locking catch at the second end deflects and then releases a lock tab, disposed at an interior of the second receiving area, into a locked position, thereby securing the second end of the splice plate to the upper cable manager unit; wherein, upon securement of the splice plate to each of the upper and lower cable manager units, the upper and lower cable manager units are secured in an end-to-end relationship. 2. The method of claim 1 , wherein the upper cable manager unit has a first height and the lower cable manager unit has a second height different from the first height. 3. The method of claim 1 , further comprising: providing a cover having a panel with first and second hinge structures disposed at opposite edges thereof, each of the first and second hinge structures including a pair of fingers that define a channel; and arranging the cover relative to one of the upper and lower cable manager units such that at least one of the plurality of projections of one of the pair of side cable guides is received within the channel of one of the first and second hinge structures. 4. The method of claim 3 , wherein the cover has a single-piece extruded construction. 5. The method of claim 3 , wherein each of the first and second hinge structures is a separate component fitted to a respective edge of the panel. 6. The method of claim 1 , further comprising: depressing the lock tab at one of the first and second cable manager units so that the lock tab becomes deflected, thereby freeing the splice plate to be removed from the respective receiving area; and separating the upper and lower cable manager units from one another. 7. A method of arranging or assembling a modular cable manager without the aid of tools, the method comprising: providing first, second, third and fourth side cable guides each comprised of a plurality of projections that extend forwardly from a support column; providing first and second midsection members each having a generally uniform cross-sectional shape; providing a splice plate having a locking catch at each of first and second opposite ends thereof; inserting a first end of the first midsection member into a socket of the support column of the first side cable guide and inserting a second end of the first midsection member, opposite the first end, into a socket of the support column of the second side cable guide, thereby forming a first cable manager unit; inserting a first end of the second midsection member into a socket of the support column of the third side cable guide and inserting a second end of the second midsection member, opposite the first end, into a socket of the support column of the fourth side cable guide, thereby forming a second cable manager unit; positioning the first end of the splice plate within a first receiving area disposed at a top of a selected one of the support columns of the first cable manager unit so that a locking catch at the first end engages a lock tab disposed at an interior of the first receiving area; and positioning the second end of the splice plate within a second receiving area disposed at a bottom of a selected one of the support columns of the second cable manager unit so that a locking catch at the second end engages a lock tab disposed at an interior of the second receiving area; wherein, upon engagement of the locking catches of the splice plate with the respective lock tabs, the first and second cable manager units are secured in an end-to-end relationship. 8. The method of claim 7 , wherein, for each of the first, second, third and fourth side cable guides, the support column includes a deflectable tab for engaging an edge of a respective midsection member. 9. The method of claim 7 , where, for each of the first, second, third and fourth side cable guides, the deflectable tab is beveled. 10. The method of claim 7 , wherein, for each of the first, second, third and fourth side cable guides, the socket is tapered such that a width at an entrance thereto is greater than a width at an interior thereof. 11. The method of claim 7 , further comprising: providing a cover having a panel with first and second hinge structures disposed at opposite edges thereof, each of the first and second hinge structures including a pair of fingers that define a channel; and arranging the cover relative to at least one of the first and second cable manager units such that at least one of the plurality of projections of one of the side cable guides is received within the channel of one of the first and second hinge structures. 12. The method of claim 11 , wherein the cover has a single-piece extruded construction. 13. The method of claim 11 , wherein each of the first and second hinge structures is a separate component fitted to a respective edge of the panel. 14. The method of claim 11 , wherein the at least one of the plurality of projections is a hinge boss.