Lock with water-resistant touch keypad

The invention claimed is: 1. An electronic lock comprising: a latch assembly including a bolt movable between an extended position and a retracted position; an interior assembly coupled to the latch assembly and configured to move the bolt between the extended position and the retracted position; an exterior assembly coupled to the latch assembly and including a touch keypad subassembly configured to detect touches to at least a portion of a surface; wherein the touch keypad subassembly defines an opening through which a wiring harness extends; wherein the opening of the touch keypad subassembly is sealed, at least in part by: (1) an epoxy resin; and/or (2) one or more structures of the touch keypad subassembly; and wherein one or more internal structures of the touch keypad subassembly form a close-ended cavity extending from the opening in the touch keypad subassembly and the epoxy resin is located in the close-ended cavity. 2. The electronic lock of claim 1 , wherein the epoxy resin makes the close-ended cavity substantially waterproof. 3. The electronic lock of claim 2 , wherein the epoxy resin substantially fills the close-ended cavity. 4. The electronic lock of claim 1 , wherein the close-ended cavity restricts flow of the epoxy resin. 5. The electronic lock of claim 1 , wherein the close-ended cavity is formed, at least in part, by a plurality of internal ridges formed in the touch keypad subassembly. 6. The electronic lock of claim 5 , wherein the internal ridges substantially surround the opening in the touch keypad subassembly. 7. The electronic lock of claim 5 , wherein the touch keypad subassembly includes a touch circuit configured to detect touches on the surface and the close-ended cavity is formed, at least in part, by a portion of the touch circuit. 8. The electronic lock of claim 7 , wherein the touch keypad subassembly includes a biasing member configured to urge at least a portion of the touch circuit in a first direction toward the internal ridges. 9. The electronic lock of claim 8 , wherein the biasing member is configured to urge one or more internal components in a second direction generally opposite the first direction. 10. An electronic lock comprising: a latch assembly including a bolt movable between an extended position and a retracted position; an interior assembly coupled to the latch assembly and configured to move the bolt between the extended position and the retracted position; an exterior assembly coupled to the latch assembly and including a touch keypad subassembly comprising: a touch overlay; a touch circuit configured to detect touches on the touch overlay; a plurality of LEDs arranged to correspond with touch areas on the touch overlay; a wiring harness configured to be electrically connected with a circuit in the interior assembly; a screen holder with a recessed area dimensioned to receive at least a portion of the touch circuit, wherein the screen holder includes an opening dimensioned to receive the wiring harness; a diffuser assembly including a diffuser formed from a translucent material configured to diffuse light emanating from the LEDs, wherein the diffuser assembly includes a resilient portion configured to urge at least a portion of the touch circuit towards the screen holder; and wherein the opening in the screen holder is sealed, at least in part, by: (1) an epoxy resin and/or (2) one or a combination of the touch circuit, screen holder and diffuser assembly. 11. The electronic lock as recited in claim 10 , wherein the diffuser assembly includes a spacer formed from a generally opaque material disposed between the diffuser and the LEDs. 12. The electronic lock as recited in claim 11 , wherein the spacer includes a plurality of holes arranged to correspond with the LEDs. 13. The electronic lock as recited in claim 12 , wherein the spacer includes a resilient structure extending from at least a portion of the openings that urge at least a portion of the touch circuit towards the screen holder. 14. The electronic lock as recited in claim 13 , wherein the resilient structure is configured to urge the diffuser towards the touch overlay. 15. The electronic lock of claim 10 , wherein the recessed area of the screen holder includes a plurality of ridges and the resilient portion of the diffuser assembly urges at least a portion of the touch circuit against the plurality of ridges to form a cavity extending from the opening in the screen holder. 16. The electronic lock of claim 15 , wherein the cavity is configured to restrict flow of the epoxy resin. 17. The electronic lock of claim 15 , wherein the epoxy resin is arranged in the cavity to make the cavity substantially waterproof. 18. A method of manufacturing an electronic lock comprising: providing an electronic lock with a touch keypad subassembly including a touch overlay, a diffuser assembly, a touch circuit, and a screen holder configured to receive the touch keypad assembly with the diffuser assembly and touch circuit positioned between the touch overlay and screen holder, the screen holder formed to include an opening through which a wiring harness extends; forming a close-ended cavity extending from the opening in the screen holder with at least a portion of the touch circuit; and sealing the cavity: (1) by applying an epoxy resin; and/or (2) with one or more internal structures of the touch keypad subassembly. 19. The method of claim 18 , wherein the cavity is formed, at least in part, by biasing a portion of a touch circuit towards the screen holder. 20. The method of claim 19 , further comprising biasing a second portion of the touch circuit towards the touch overlay. 21. The method of claim 19 , wherein the screen holder includes a plurality of ridges and the step of biasing a portion of a touch circuit towards the screen holder urges the portion of the touch circuit against the plurality of ridges. 22. The method of claim 21 , wherein resulting contact between the touch circuit and ridges restricts the flow of the resin seal to within the formed cavity.