Extendable wrench

What is claimed is: 1 . A wrench, comprising: a head comprising: an aperture; a bore at a first end of the head and extending along a longitudinal axis of the wrench; a lower jaw coupled to a second end of the head, the lower jaw defining a lower contact region; an upper jaw partially extending through the aperture of the head, the upper jaw defining an upper contact region; an actuator engaged with the upper jaw such that rotation of the actuator moves the upper jaw relative to the lower jaw; an extendable handle received within the bore of the head; a lever comprising an end, the end comprising at least two cam surfaces; and a friction block positioned between the lever and the extendable handle; wherein the lever is rotatable about a pivot between a locked position in which the extendable handle is fixed with respect to the head and an unlocked position in which the extendable handle is adjustable with respect to the head; wherein the end of the lever engages the friction block in both the locked position and in the unlocked position; wherein the head further comprises a rear surface, and wherein the rear surface includes a recess configured to receive the lever when the lever is in the locked position. 2 . The wrench of claim 1 , wherein the lever applies a normal force on the friction block when in the locked position and the friction block distributes the normal force to the extendable handle such that the extendable handle is secured at a desired length. 3 . The wrench of claim 1 , wherein the at least two cam surfaces comprise a first cam surface and a second cam surface and wherein the first cam surface of the lever applies a first force on the friction block in the locked position and the second cam surface applies a second force on the friction block in the unlocked position. 4 . The wrench of claim 1 , wherein the friction block includes a concave surface layer formed from a first material, a midsection layer formed from a second material, and a plate layer having a flat rectangular shape and formed from a third material. 5 . The wrench of claim 4 , wherein the first material has a first hardness, the second material has a second hardness, and the third material has a third hardness, and wherein the second hardness is less than first hardness and the third hardness. 6 . The wrench of claim 4 , wherein the second material is a compressible elastic material such that a normal force on the concave surface layer is distributed between the concave surface layer, the midsection layer and the plate layer. 7 . The wrench of claim 1 , further comprising a channel lock mechanism including: a channel extending longitudinally within the head; a biased projection coupled to the extendable handle, the biased projection configured to slide within the channel during adjustment of the extendable handle; a pocket at the first end of the head configured to capture the biased projection such that the extendable handle is retained within the bore; and an angled groove within the head; wherein, when the lever is in the unlocked position and the extendable handle is extended to a maximum length the angled groove interfaces with the biased projection such that the biased projection is pushed inward and the extendable handle is released from the bore. 8 . The wrench of claim 1 , the lever further comprising a gripping end and an arm coupled to an inner surface of the lever, the gripping end opposing the pivot and the arm extending across the inner surface in a perpendicular orientation relative to a longitudinal axis of the lever. 9 . A pipe wrench, comprising: a head comprising an aperture and a recess; a bore at a first end of the head and extending along a longitudinal axis of the pipe wrench; a lower jaw coupled to a second end of the head, the lower jaw comprising a plurality of teeth that define a lower contact region; an upper jaw partially extending through the aperture of the head, the upper jaw comprising a plurality of teeth that define an upper contact region; an actuator engaged with the upper jaw such that rotation of the actuator moves the upper jaw relative to the lower jaw; an extendable handle received within the bore of the head; and a handle length locking mechanism comprising: a lever pivotally coupled to the head, the lever comprising a base and a wall at an end; and a friction element positioned between the lever and the extendable handle, the friction element contacting the lever; wherein the lever is rotatable about a pivot between a locked position in which the lever is positioned in the recess and the base faces the extendable handle and an unlocked position in which the base faces the upper jaw and the extendable handle is adjustable with respect to the head. 10 . The pipe wrench of claim 9 , wherein, when the lever is in the locked position, the lever pushes the friction element into engagement with the extendable handle such that the extendable handle is fixed with respect to the head and wherein, when the lever is in the unlocked position the extendable handle is adjustable with respect to the head. 11 . The pipe wrench of claim 9 , further comprising a channel lock mechanism configured to retain the extendable handle within the bore, the channel lock mechanism comprising: a channel extending longitudinally within the head; a biased projection coupled to the extendable handle, the biased projection configured to slide within the channel during adjustment of the extendable handle; a pocket at the first end of the head configured to capture the biased projection such that the extendable handle is retained within the bore; and an angled groove within the head. 12 . The pipe wrench of claim 11 , wherein, when the lever is in the unlocked position and the extendable handle is extended to a maximum length the angled groove interfaces with the biased projection such that the biased projection is pushed inward and the extendable handle is released from the bore. 13 . The pipe wrench of claim 9 , wherein the base applies a first force on the friction element in the locked position and the wall applies a second force on the friction element in the unlocked position, and wherein the first force is different from the second force. 14 . The pipe wrench of claim 9 , wherein a base thickness is defined between an edge of the pivot and a surface of the base and wherein a wall thickness is defined between an edge of the pivot and a surface of the wall, and wherein the base thickness is greater than the wall thickness. 15 . The pipe wrench of claim 9 , the friction element comprising: a bottom layer having a concave surface and formed from a first material; a midsection layer formed from a second material; and a plate layer formed from a third material. 16 . A pipe wrench, comprising: a head comprising an aperture and a recess; shoulders positioned on opposing sides of the recess; a bore at a first end of the head and extending along a longitudinal axis of the pipe wrench; a lower jaw coupled to a second end of the head; an upper jaw partially extending through the aperture of the head; an actuator engaged with the upper jaw such that rotation of the actuator moves the upper jaw relative to the lower jaw; an extendable handle received within the bore of the head; a lever; and a friction block positioned between the lever and the extendable handle; wherein the lever is rotatable about a pivot between a locked position in which the lever extends within the recess, between the shoulders and along the longit