Air bed having an improved built-in air pump

What is claimed is: 1. An air mattress comprising: a built-in air pump provided within an internal portion of the air mattress; a valve assembly disposed on a top surface of the air mattress and connected to the built-in air pump, the top surface having a plurality of top surface connection points on an internal side of the top surface, and the valve assembly comprising: a valve body attached to the top surface of the air mattress, wherein the valve body comprises: a flat flange connected to the top surface of the air mattress; and a wavy surface having a side surface, the wavy surface being connected to the flat flange at the side surface of the wavy surface; a diaphragm valve positioned on a bottom portion of the valve body; a valve cap configured to attach to the valve body; and a cap gasket positioned within the valve cap; a bottom surface having a plurality of bottom surface connection points on an internal side of the bottom surface; and one or more side surfaces connecting the top surface to the bottom surface such that the top surface, the bottom surface, and the one or more side surfaces form an airtight enclosure that defines an interior volume of the air mattress, wherein the internal sides of the top and bottom surfaces face into the airtight enclosure. 2. The air mattress of claim 1 , wherein the built-in air pump further comprises: a hollow structure defining an inner cavity between the top surface and the bottom surface; a compression spring located within the inner cavity and attached to the top surface and the bottom surface; a bellow connected to a side surface of the hollow structure, the bellow providing an air pathway from the inner cavity to the interior volume of the air mattress; a top end cap attached to a top portion of the compression spring and abutting the top surface; and a bottom end cap attached to a bottom portion of the compression spring and abutting the bottom surface. 3. The air mattress of claim 2 , wherein the hollow structure comprises a plurality of flexible sheets. 4. The air mattress of claim 2 , wherein when a downward force on the valve assembly exceeds an outward force exerted on the diaphragm valve of the valve assembly by the compression spring, and wherein when an inward force of atmospheric air pressure acting on the valve assembly exceeds an outward force exerted on the diaphragm valve of the valve assembly by air pressure internal to the air mattress, the downward force causes the compression spring and the hollow structure to contract such that the top end cap moves toward the bottom end cap. 5. The air mattress of claim 4 , wherein when the top end cap moves toward the bottom end cap, air contained in the inner cavity flows through the bellow into the interior volume of the air mattress. 6. The air mattress of claim 1 , wherein when an outward force exerted on the diaphragm valve of the valve assembly by air pressure internal to the air mattress exceeds an inward force exerted on the valve assembly by atmospheric air pressure, the outward force causes the diaphragm valve to close the valve body. 7. The air mattress of claim 1 , wherein the valve body further comprises: a cap strap configured to attach to the valve cap. 8. The air mattress of claim 7 , wherein the wavy surface includes a set of openings such that the wavy surface allows air to enter the valve assembly when the valve assembly is covered. 9. The air mattress of claim 7 , wherein the valve body is injection molded. 10. The air mattress of claim 1 , further comprising a mesh web that is attached to two or more of the plurality of top surface connection points and two or more of the plurality of bottom surface connection points. 11. An air mattress comprising: a top surface having a plurality of top surface connection points on an internal side of the top surface; a bottom surface having a plurality of bottom surface connection points on an internal side of the bottom surface; one or more side surfaces connecting the top surface to the bottom surface such that the top surface, the bottom surface, and the one or more side surfaces form an airtight enclosure that defines an interior volume of the air mattress; a built-in air pump provided within an internal portion of the air mattress, the built-in air pump comprising: a hollow structure defining an inner cavity between the top surface and the bottom surface; a compression spring located within the inner cavity and attached to the top surface and the bottom surface; a bellow connected to a side surface of the hollow structure, the bellow providing an air pathway from the inner cavity to the interior volume of the air mattress; a top end cap attached to a top portion of the compression spring and abutting the top surface; and a bottom end cap attached to a bottom portion of the compression spring and abutting the bottom surface; and a valve assembly disposed on the top surface of the air mattress and connected to the built-in air pump, wherein the valve assembly comprises a valve body comprising: a flat flange connected to the top surface of the air mattress; and a wavy surface having a side surface, the wavy surface being connected to the flat flange at the side surface of the wavy surface. 12. The air mattress of claim 11 , wherein the valve assembly comprises: a diaphragm valve positioned at a bottom portion of the valve body; a valve cap configured to attach to the valve body; and a cap gasket positioned within the valve cap. 13. The air mattress of claim 12 , wherein the valve body further comprises: a cap strap configured to attach to the valve cap. 14. The air mattress of claim 11 , wherein the wavy surface includes a set of openings such that the wavy surface allows air to enter the valve assembly when the valve assembly is covered. 15. The air mattress of claim 12 , wherein the valve body is injection molded. 16. The air mattress of claim 11 , further comprising a mesh web that is attached to two or more of the plurality of top surface connection points and two or more of the plurality of bottom surface connection points. 17. The air mattress of claim 11 , wherein the hollow structure comprises a plurality of flexible sheets. 18. The air mattress of claim 12 , wherein when a downward force on the valve assembly exceeds an outward force exerted on the diaphragm valve of the valve assembly by the compression spring, and wherein when an inward force of atmospheric air pressure acting on the valve assembly exceeds an outward force exerted on the diaphragm valve of the valve assembly by air pressure internal to the air mattress, the downward force causes the compression spring and the hollow structure to contract such that the top end cap moves toward the bottom end cap. 19. The air mattress of claim 18 , wherein when the top end cap moves toward the bottom end cap, air contained in the inner cavity flows through the bellow into the interior volume of the air mattress. 20. The air mattress of claim 12 , wherein when an outward force exerted on the diaphragm valve of the valve assembly by air pressure internal to the air mattress exceeds an inward force exerted on the valve assembly by atmospheric air pressure, the outward force causes the diaphragm valve to close the valve body. 21. The air mattress of claim 12 , wherein when an inward force exerted on the valve assembly by atmospheric air pressure exceeds an outward force exerted on the diaphragm valve of the valve assembly by air pres