Systems and methods for applying vacuum pressure to composite parts

The invention claimed is: 1. A vacuum probe for applying vacuum pressure to a composite part, the probe comprising: a vacuum channel having an axis and first and second openings at opposite ends of the probe; a spring urging a valve element toward a valve seat arranged at the first opening, the valve element configured to displace away from the valve seat along the axis by quick connection with a vacuum hose so as to open the vacuum channel; a coupling element arranged on an outer surface of the probe for making said quick connection into a coupling element of the vacuum hose; and a sharpened body that points away from the first opening of the vacuum channel and projects outside of the vacuum channel in a vicinity of the second opening of the vacuum channel for puncturing an uplifted vacuum bag laid over the composite part. 2. The vacuum probe as recited in claim 1 , wherein: the valve seat surrounds the first opening of the vacuum channel, the valve element is axially displaceable in the vacuum channel between first and second axial positions, the valve element being in contact with the valve seat while in the first axial position and being separated from the valve seat while in the second axial position, the probe further comprises a rod disposed in the vacuum channel, the rod having a first end to which the sharpened body is fixedly coupled and a second end that is either connected to or in abutment with the valve element, and the sharpened body is axially displaceable in tandem with the valve element as the valve element moves toward the second axial position, the sharpened body projecting outside the vacuum channel when the valve element is in the second axial position. 3. The vacuum probe as recited in claim 2 , wherein the second end of the rod is connected to the valve element, the probe further comprising an air-permeable sharpened body support element to which the first end of the rod and the sharpened body are affixed. 4. The vacuum probe as recited in claim 3 , wherein the air-permeable sharpened body support element is a disk having at least one through-hole. 5. The vacuum probe as recited in claim 2 , further comprising: an externally threaded portion having a portion of the vacuum channel disposed therein; and an air-permeable sharpened body support element seated inside the portion of the vacuum channel that is disposed in the externally threaded portion and to which the sharpened body is affixed. 6. The vacuum probe as recited in claim 2 , wherein the second end of the rod is in abutment with the valve element, further comprising a spring that urges the rod toward the valve element. 7. The vacuum probe as recited in claim 2 , further comprising an externally threaded portion projecting downward from a bottom of the vacuum probe, an internally threaded end cap threadably coupled to the externally threaded portion, and a chamber affixed to the internally threaded end cap, wherein the internally threaded end cap comprises an opening through which the sharpened body passes, and wherein the chamber comprises an opening through which the rod passes. 8. The vacuum probe as recited in claim 7 , wherein the internally threaded end cap comprises through-holes which allow air to flow into the chamber, and wherein the chamber comprises through-holes which allow air to flow out of the chamber and into the vacuum channel. 9. A system for applying vacuum pressure to a composite part, the system comprising: a tool that supports a composite part; a vacuum bag overlying the composite part supported by the tool; a flexible sealant tape that seals the vacuum bag to the tool along a perimeter that surrounds the composite part; sealing material on an exterior surface of the vacuum bag within the perimeter and separated from the composite part; the vacuum probe of claim 1 on top of the sealing material, wherein the valve element is axially displaceable in the vacuum channel between a first axial position in contact with the valve seat and a second axial position separated from the valve seat; and a vacuum hose coupled to an end of the vacuum probe in a manner that causes the valve element to axially displace from the first axial position to the second axial position. 10. The system as recited in claim 9 , further comprising a rod having a first end to which the sharpened body is fixedly coupled and a second end that is either connected to or in abutment with the valve element, wherein the sharpened body is axially displaceable in tandem with the valve element as the valve element moves toward the second axial position, the sharpened body projecting into a space surrounded by the sealing material when the valve element is in the second axial position. 11. The system as recited in claim 10 , wherein the second end of the rod is connected to the valve element, the system further comprising an air-permeable sharpened body support element to which the first end of the rod and the sharpened body are affixed. 12. The system as recited in claim 9 , further comprising: an externally threaded portion having a portion of the vacuum channel disposed therein; and an air-permeable sharpened body support element seated inside the portion of the vacuum channel that is disposed in the externally threaded portion and to which the sharpened body is affixed. 13. The system as recited in claim 12 , wherein the air-permeable sharpened body support element is a plug made of porous material. 14. The system as recited in claim 9 , wherein the vacuum probe further comprises: an externally threaded portion projecting into the space surrounded by the sealant tape; an internally threaded end cap threadably coupled to the externally threaded portion of the vacuum probe; and a chamber affixed to the internally threaded end cap, wherein the internally threaded end cap comprises an opening through which the sharpened body passes, and wherein the chamber comprises an opening through which the rod passes. 15. The system as recited in claim 14 , wherein the internally threaded end cap comprises through-holes which allow air to flow into the chamber, and wherein the chamber comprises through-holes which allow air to flow out of the chamber and into the vacuum channel. 16. A method for applying vacuum pressure to a composite part, the method comprising: (a) placing a composite part on a tool; (b) placing a sealant tape on the tool along a perimeter that surrounds the composite part; (c) laying a vacuum bag over the composite part and in contact with the sealant tape; (d) placing the vacuum probe of claim 1 overlying a portion of the vacuum bag with sealing material disposed between the vacuum probe and the vacuum bag; (e) coupling a vacuum hose to an end of the vacuum probe in a manner that causes the valve element to separate from the valve seat inside the vacuum channel of the vacuum probe; and (f) applying a vacuum pressure inside the vacuum channel by way of the vacuum hose, as a result of which a portion of the vacuum bag surrounded by the sealing material is pulled toward and punctured by the sharpened body. 17. The method as recited in claim 16 , wherein coupling the vacuum hose to the end of the vacuum probe also causes the sharpened body to move in tandem with the valve element in a direction away from the valve seat until the sharpened body protrudes outside the vacuum channel and into a space overlying the vacuum bag. 18. The method as recited in claim 17 , wherein the sharpened body is connected to a rod that is connected to the valve element.