Hammer drill mechanism

What is claimed is: 1. A drilling apparatus comprising: a housing; a rotary drive shaft disposed in the housing and configured to rotate with respect to the housing while drilling, the rotary drive shaft located along a longitudinal axis of the housing; a hammer within the housing and surrounding the rotary drive shaft, the hammer defining a guide groove on an outer surface; a key disposed between the hammer and the rotary drive shaft, the key arranged as an engagement key to engage the hammer with the rotary drive shaft to continuously rotate the hammer at the same rotational speed as the rotary drive shaft while allowing the hammer to move axially with respect to the rotary drive shaft; a bit box coupled to a portion of the rotary driveshaft extending through the hammer; a spring disposed in the housing and located between the hammer and a spring retainer; a guide pin extending from the housing into the guide groove; and wherein the guide groove is positioned to engage the guide pin to move the hammer axially to alternately compress the spring and allow the spring to drive the hammer to impact the rotary drive shaft to impart an impact force to the bit box as the hammer rotates. 2. The drilling apparatus of claim 1 , wherein a number of key slots are arranged between the hammer and the rotary drive shaft to accept the key. 3. The drilling apparatus of claim 1 , wherein a bearing is disposed between the housing and the hammer. 4. The drilling apparatus of claim 3 , wherein the bearing extends a length along the longitudinal axis such that motion of the hammer is within the length to which the bearing extends. 5. The drilling apparatus of claim 1 , wherein the housing includes a positive displacement motor coupled to the rotary drive shaft via splines of the rotary drive shaft. 6. The drilling apparatus of claim 5 , wherein the positive displacement motor is arranged to drive to the rotary drive shaft hydraulically or pneumatically with the hammer operatively driven mechanically by the spring. 7. The drilling apparatus of claim 1 , wherein the rotary drive shaft is coupled to a drill string. 8. The drilling apparatus of claim 1 , wherein the housing is disposed in a directional drilling tool. 9. The drilling apparatus of claim 1 , wherein the housing is disposed in a measurement-while-drilling tool. 10. A method comprising: drilling in a formation using a drilling tool; operating a rotary drill shaft extending through a hammer to rotate the rotary drill shaft and the hammer with respect to a housing of the drilling tool such that a guide groove formed on an outer surface of the hammer interfaces with a guide pin extending from the housing and compresses a spring; and rotating the rotary drill shaft to continuously rotate the hammer at the same speed as the rotary drill shaft such that the guide groove allows the spring to decompress and drive the hammer to impact the rotary drill shaft to impart an impact force to a drill bit during the drilling. 11. The method of claim 10 , wherein operating the rotary drill shaft includes driving the rotary drill shaft using a positive displacement motor disposed in the housing with the hammer and the spring. 12. The method of claim 10 , wherein operating the rotary drill shaft includes driving the rotary drill shaft using a motor operating hydraulically. 13. The method of claim 10 , wherein operating the rotary drill shaft includes driving the rotary drill shaft using a motor operating pneumatically. 14. The method of claim 10 , wherein drilling in the formation includes rotating the drill bit in contact with the formation. 15. The method of claim 10 , wherein drilling in the formation includes directional drilling. 16. The method of claim 10 , wherein drilling in the formation includes operating the drilling tool as a measurement-while-drilling tool.