Apparatus and method of aligning and securing components of a liquid cooled plasma arc torch using a multi-thread connection

What is claimed is: 1. A coolant tube assembly for a torch, comprising: a coolant tube holder having a distal end and a proximate end, each of said ends having an opening to create a channel in said coolant tube holder, where said coolant tube holder channel has an inner surface; and a coolant tube inserted into said channel of said coolant tube holder, where said coolant tube is inserted into said opening at said proximate end of said coolant tube holder, where said coolant tube has a distal end and a proximate end and each of said ends of said coolant tube has an opening to create a channel in said coolant tube; wherein said coolant tube further comprises a stabilization portion which extends radially around said coolant tube and said stabilization portion has an outer surface which engages with said inner surface of said coolant tube holder and said engagement centers said coolant tube in said coolant tube holder, where said engagement is a sealed engagement such that no fluid can pass by said stabilization portion when engage with said inner surface of said coolant tube holder; wherein said coolant tube further comprises a securing portion which is closer to said proximate end of said coolant tube than said stabilization portion, said securing portion has a distal surface which engages with an end surface on said proximate end of said coolant tube holder; wherein said coolant tube holder further comprises a plurality of exits ports, where said exits ports are positioned closer to the distal end of said coolant tube holder than said engagement between said stabilization portion and said coolant tube holder and said exit ports are in communication with said coolant tube holder channel; wherein said coolant tube comprises an undercut portion between said stabilization portion and said securing portion creating a gap between said inner surface of said coolant tube holder and said coolant tube; and wherein said coolant tube holder further comprises a first threaded portion at its distal end and a second threaded portion on an outer surface of said coolant tube holder, where at least one of said first and second threaded portions have at least three separate and distinct thread paths, where each of said multiple separate and distinct thread paths are disposed and running adjacent to each other and are utilized by said at least one threaded connection. 2. The coolant tube assembly of claim 1 , wherein said at least one threaded portion having said at last three threads is said first threaded portion and an electrode is coupled to said first threaded portion, said electrode having at least three separate and distinct thread paths which match with said at least three separate and distinct thread paths of said first threaded portion to secure said electrode. 3. The coolant tube assembly of claim 2 , wherein the number of rotations of said electrode to fully install said electrode with respect to said coolant tube holder is in the range of 1 to 2. 4. The coolant tube assembly of claim 2 , wherein the number of rotations of said electrode to fully install said electrode with respect to said coolant tube holder is in the range of 1.25 to 1.5. 5. The coolant tube assembly of claim 2 , wherein said first threaded portion is on an inner surface of said coolant tube holder. 6. The coolant tube assembly of claim 2 , wherein said second threaded portion has at least three separate and distinct thread paths to engage said coolant tube assembly into a torch assembly, and where the number of rotations of said coolant tube assembly to fully install said coolant tube assembly with respect to said torch assembly is in the range of 1 to 2. 7. The coolant tube assembly of claim 2 , wherein said second threaded portion has at least three separate and distinct thread paths to engage said coolant tube assembly into a torch assembly, and where the number of rotations of said coolant tube assembly to fully install said coolant tube assembly with respect to said torch assembly is in the range of 1.25 to 1.5. 8. The coolant tube assembly of claim 1 , wherein said outer surface of said stabilization portion which engages with said inner surface of said coolant tube holder has a length which is in the range of 4 to 25% of the length of the coolant tube which is inserted into the coolant tube holder. 9. The coolant tube assembly of claim 1 , wherein a distal end of said stabilization portion comprises an angled surface from said coolant tube to said outer surface of said stabilization portion, and said angled surface having an angle between its surface and the coolant tube in the range of 16 to 60 degrees. 10. A cutting torch comprising the coolant tube assembly of claim 1 . 11. A coolant tube assembly for a torch, comprising: a coolant tube holder having a distal end and a proximate end, each of said ends having an opening to create a channel in said coolant tube holder, where said coolant tube holder channel has an inner surface; and a coolant tube inserted into said channel of said coolant tube holder, where said coolant tube is inserted into said opening at said proximate end of said coolant tube holder, where said coolant tube has a distal end and a proximate end and each of said ends of said coolant tube has an opening to create a channel in said coolant tube; wherein said coolant tube further comprises a stabilization portion which extends radially around said coolant tube and said stabilization portion has an outer surface which engages with said inner surface of said coolant tube holder and said engagement centers said coolant tube in said coolant tube holder, where said engagement is a sealed engagement such that no fluid can pass by said stabilization portion when engage with said inner surface of said coolant tube holder; wherein said coolant tube further comprises a securing portion which is closer to said proximate end of said coolant tube than said stabilization portion, said securing portion has a distal surface which engages with an end surface on said proximate end of said coolant tube holder; wherein said coolant tube holder further comprises a plurality of exits ports, where said exits ports are positioned closer to the distal end of said coolant tube holder than said engagement between said stabilization portion and said coolant tube holder and said exit ports are in communication with said coolant tube holder channel; wherein said coolant tube comprises an undercut portion between said stabilization portion and said securing portion creating a gap between said inner surface of said coolant tube holder and said coolant tube; wherein said outer surface of said stabilization portion which engages with said inner surface of said coolant tube holder has a length which is in the range of 4 to 25% of the length of the coolant tube which is inserted into the coolant tube holder; wherein a distal end of said stabilization portion comprises an angled surface from said coolant tube to said outer surface of said stabilization portion; and wherein said coolant tube holder further comprises a first threaded portion at its distal end and a second threaded portion on an outer surface of said coolant tube holder, where at least one of said first and second threaded portions have at least three separate and distinct thread paths, where each of said multiple separate and distinct thread paths are disposed and running adjacent to each other and are utilized by said at least one threaded connection. 12. The coolant tube assembly of claim 11 , wherein said at least one threaded portion having said at last three threads is said first threaded portion and an electrode is coupled to said first threaded portion,