System for discharging heat out of head-mounted display

What is claimed is: 1. A head-mounted display (HMD) comprising: a fan having a center axis extending from a rear side of the HMD to a front side of the HMD, the fan configured to expel air through a slit at a front rigid body of the HMD; a circuit board with at least one processor separated from the fan, the at least one processor generating heat during operation of the HMD; and a metal frame acting as a heat sink and configured to receive the heat and dissipate the heat, the central axis of the fan perpendicular to a side of the metal frame facing the fan, the circuit board directly mounted onto the metal frame for cooling by the metal frame and the fan. 2. The HMD of claim 1 , wherein a front cover of the front rigid body is attached to a side cover of the front rigid body with the slit between an outer edge of the front cover and an outer edge of the side cover to discharge the heat out of the HMD. 3. The HMD of claim 2 , wherein the air is pushed to flow at least partially along an inner surface of the front cover and out of the HMD through the slit. 4. The HMD of claim 1 , wherein the metal frame, the fan and the circuit board are enclosed within a side cover of the front rigid body. 5. The HMD of claim 1 , wherein the metal frame spreads the heat to facilitate discharging the heat out of the HMD through the slit. 6. The HMD of claim 1 , wherein the metal frame has edges shaped with contours that at least partially match an internal contour of a side cover of the front rigid body to support the side cover. 7. The HMD of claim 1 , wherein the fan is further configured to pull air from a cavity between a face of a user wearing the HMD and the front side to decrease a temperature in the cavity. 8. The HMD of claim 1 , wherein the fan is further configured to pull air from the rear side of the HMD to cool the at least one processor. 9. The HMD of claim 1 , wherein the fan is further configured to exhaust air to flow over the at least one processor for cooling the at least one processor. 10. The HMD of claim 1 , wherein the fan is further configured to exhaust air at sides of the fan after pulling the air from the rear side of the HMD. 11. The HMD of claim 1 , further comprising: a heat pipe in an interior space defined by a front cover of the front rigid body and a side cover of the front rigid body, the heat pipe at least partially surrounding a periphery of the fan and transferring the heat away from the at least one processor. 12. The HMD of claim 11 , wherein an end of the heat pipe is coupled to the at least one processor via a thermal interface material, and the heat pipe transfers the heat away from the at least one processor into the metal frame. 13. The HMD of claim 11 , wherein the heat pipe is horseshoe shaped with a first member coupled to the at least one processor, a second member extending parallel to the first member and a third member connecting the first member and the second member. 14. A head-mounted display (HMD) comprising: a fan having a center axis extending from a rear side of the HMD to a front side of the HMD, the fan configured to expel air through a slit at a front rigid body of the HMD; a circuit board with at least one processor in an interior space defined by a front cover of the front rigid body and a side cover of the front rigid body, the at least one processor generating heat during operation of the HMD; a metal frame acting as a heat sink in the interior space configured to receive the heat and dissipate the heat, the central axis of the fan perpendicular to a side of the metal frame facing the fan, the circuit board directly mounted onto the metal frame for cooling by the heat sink and the fan. 15. The HMD of claim 14 , wherein the fan is further configured to pull air from a cavity between a face of a user wearing the HMD and the front side to decrease a temperature in the cavity. 16. The HMD of claim 14 , wherein the fan is further configured to pull air from the rear side of the HMD to cool the at least one processor. 17. The HMD of claim 14 , wherein the fan is further configured to exhaust air to flow over the at least one processor for cooling the at least one processor. 18. The HMD of claim 14 , wherein the air is pushed to flow at least partially along an inner surface of the front cover and out of the HMD through the slit.