Abstract:
A mobile-unit station dedicated to pipe cutting is provided. The station comprises an intermodal container including: a pipe cutting room comprising a first exterior door for egress to an ambient environment at a first end and an interior door at a second end, respectively, of the pipe cutting room and an at least one portal door for egress to the ambient environment on the first end; a temperature controlled clean room separated from the pipe cutting room with a fireproof wall with the interior door therethrough, the pipe cutting room housing a plurality of components therein including: a monorail extending substantially a length of the pipe cutting room, a powered hoist and a powered trolley moveably mounted on the monorail, a pipe conveyor mounted on a floor and aligned with the monorail to provide a hallway between the first door and the second door, a Computer Numerical Control (CNC) pipe cutter and an at least one dust extraction duct of a dust extraction system proximate the pipe supports, the clean room housing a plurality of components therein including: a CNC pipe cutter control box, a computer for the CNC pipe cutter, a heating and air conditioning unit, and a data management system.

Description:
CROSS REFERENCE TO RELATED APPLICATIONS 
       [0001]    This application is related to, and claims the benefit of, U.S. Provisional Patent Application No. 62/253,182, filed Nov. 10, 2015. The above-identified priority patent application is incorporated herein by reference in its entirety. 
     
    
     FIELD OF THE INVENTION 
       [0002]    The present technology is a self contained mobile pipe cutting station for use in the field and remote locations. More specifically, it is a pipe cutting system housed in an intermodal container. 
       BACKGROUND 
       [0003]    As more and more oil and gas, power generation, and mining industry projects surface to meet globular demands of an ever-expanding population, more piping systems must be planned, permitted and constructed to convey material. The methods of cutting metal pipes on construction sites (onsite) are lengthy, costly, and sometimes challenging in terms of meeting codes and standards in terms of quality and safety. The more productive and modern methods of cutting metal pipe are confined to local fabrication shops due to their physical size and immobility and are not used onsite. 
         [0004]    The cuts that are performed onsite are done using conventional oxy-fuel or plasma cutting by hand, oxy fuel, plasma on a cumbersome carriage mounted on the pipe, and other mechanical methods such as grinding discs, toothed saws, and routers. These cuts require one or more skilled tradesmen, usually pipefitters and pipe welders, to understand piping systems, compute and calculate the cut profile, as well as measure and mark the cut. Performing the cut itself requires good operator skill and predetermined engineering quality standards need to be met. The degree of difficulty in performing the cut depends on the complexity of the joint and can range from a straight cut to a mitered and coped cut with weld preparation bevel. Some cuts are extremely challenging for a tradesman to compute and mark due to their eccentricity and complexity and are performed by trial and error by repeated test fitting. Further, a single pipe can have multiple cuts and holes further increasing the risk for incorrect cuts requiring repair and rework. Larger and longer pipes are very heavy and difficult to cut and the safety hazard is increased when handling. Further to all the above, cutting a single joint onsite using conventional methods can take 10 minutes up to 8 hours or more and will usually require more than one tradesman to perform cuts. 
         [0005]    As will be readily appreciated, there is a need for improved efficiency, reduced cost, better quality, and safer methods for cutting pipe onsite. Despite this, there have been few attempts to improve pipe cutting onsite. One approach is disclosed in U.S. Patent Application 20100166513, which is directed to a mobile device for simultaneously cutting and chamfering a pipe, having a frame, at least one pipe collet-clamp attached to the frame and defining a principal axis, a split carriage rotatably mounted with respect to the frame about the axis and adjacent to the clamp(s), a router affixed to the split carriage and having a cutting-chamfering bit, and a drive motor for rotating the carriage. The router orbits around the pipe and simultaneously cuts it into two chamfered pipes. A method is also provided for cutting through a pipe and chamfering the cut ends thereof. This offers an improvement in safety and accuracy, however, much more can be done to provide a safe working environment, reduce man hours for tasks, improve efficiency, decrease human error, improve cut quality and increase safety. This method of cutting is slow with a router bit. Further it requires the tedious task of set up and removal for each and every cut. 
         [0006]    U.S. Pat. No. 7,140,409 discloses a complete and portable tool for retaining round, square or other non-flat stock, especially pipes, in a secure fashion while cutting and related operations are performed thereon. The portable pipe cutting tool includes an adjustable work support, V-shaped trough, chain and tightening device, catch tray, left and right support arm bracket, mounting stand, and power tool having a base portion that, as a unit, secure the pipe in place while being cut, grooved or otherwise worked on, by an operator. The portable pipe cutting tool prevents sideways, upward, rotational or other movement of the pipe during such operations. Again, this offers an improvement in safety and accuracy, however, it much more can be done to provide a safe working environment, reduce man hours for tasks, improve efficiency, decrease human error, improve cut quality and increase safety. This tool does not allow for eccentric cuts, bevelling, coping or holes. Further, it requires the tedious task of set up and removal for each and every cut. 
         [0007]    What is needed is a modular mobile Computer Numerical Control (CNC) pipe cutting station that is easy to transport on and off the site. The station would preferably be housed in an intermodal unit, allowing for transport by conventional means. It would preferably require little in the way of set-up and assembly on site. The intermodal unit would preferably include all safety equipment generally used in a machine shop and on industrial construction sites. It would also preferably include a power pipe conveying system that would transport the pipe into and out of the intermodular container without requiring human interaction until it is clamped by the CNC machine. It would also preferably include a rail system employing an power trolley and power hoist for lifting and transporting pipe into and out of the intermodular container. The station would preferably include computer hardware and software for the purpose of computer aided manufacturing to compute all the cuts needed for the CNC machine, as well as interface with warehousing software for stock control, scheduling and other significant warehousing controls and to locate and track pipe. The station would preferably employ fire protection, heating and ventilation systems, lighting, fume extraction, and dust collection systems, an eye wash station, a first aid kit, that meet codes, standards and best industry practices to allow workers and technicians to safely work inside the intermodular container. The station would preferably allow for physically marking and thus identifying the pipe that has been cut. This would greatly improve pipe tracking. Further, it would allow for identification of the individual who installs or stores the pipe. 
       SUMMARY 
       [0008]    The present technology is a modular mobile Computer Numerical Control (CNC) pipe cutting station that is easy to transport on and off the site. The station is housed in an intermodal unit, allowing for transport by conventional means. It requires little in the way of set-up and assembly on site. The intermodal unit includes all safety equipment generally used in a machine shop and on industrial construction sites. It also includes a power pipe conveying system that transports the pipe into and out of the intermodular container without requiring human interaction until it is clamped by the CNC machine. It also includes a dust collecting system and exterior infeed conveyor that are shipped with the conveyor and placed outside upon arrival onsite. It also includes a rail system employing a power trolley and power hoist for lifting and transporting pipe into and out of the intermodular container. The station includes computer hardware and software for the purpose of computer aided manufacturing to compute all the cuts needed for the CNC machine, as well as interface with warehousing software for stock control, scheduling and other significant warehousing controls and to locate and track pipe. The station employs fire protection, heating and ventilation systems, lighting, an eye wash station, a first aid kit, fume extraction, and dust collection systems that meet codes, standards and best industry practices to allow workers and technicians to safely work inside the intermodular container. The station allows for physically marking and thus identifying the pipe that has been cut. This greatly improves pipe tracking. Further, it allows for identification of the individual who installs or stores the pipe. 
         [0009]    In one embodiment, a self-contained mobile pipe-cutting station is provided, the station comprising an International Organization for Standardization (ISO) container including: a pipe cutting room comprising a first exterior door for egress to an ambient environment at a first end and an interior door at a second end, respectively, of the pipe cutting room and an at least one ISO portal door for egress to the ambient environment on the first end; a temperature controlled clean room separated from the pipe cutting room with a fireproof wall with the interior door therethrough, the pipe cutting room housing a plurality of components therein including: a rail system extending substantially a length of the pipe cutting room and moveably mounted on a ceiling of the pipe cutting room, a powered hoist and a powered trolley moveably mounted on the rail system, a pipe conveyor mounted on a floor and aligned with the rail system to provide a hallway between the first exterior door and the interior door, a Computer Numerical Control (CNC) pipe cutter and a powered exterior conveyor, the powered exterior conveyor removably housed in the hallway and for locating outside the ISO container, the clean room housing a plurality of components therein including: a CNC pipe cutter electrical control box, a computer for the CNC pipe cutter, a heating and air conditioning unit, a data management system, a dust extraction duct in fluid communication with the pipe cutting room, and a dust and fume collector removably housed in the clean room for locating outside the ISO container and in fluid communication with the dust extraction duct. 
         [0010]    In the station, the pipe cutting room may further comprise an operable wall extending between the first exterior door and the interior door and located between the hallway and the CNC pipe cutter. 
         [0011]    In the station, the rail system may be a monorail, the monorail slidably retained by an at least one monorail slider mounted on the ceiling of the pipe cutting room. 
         [0012]    The station may further comprise an opening between the pipe cutting room and the clean room for the monorail to extend into the clean room during storage and transport. 
         [0013]    The station may further comprise a mechanical device mounted in the clean room, in mechanical communication with the monorail and in electrical communication with a motor for urging the monorail into and out of the clean room. 
         [0014]    In the station, the mechanical device may be a leadscrew. 
         [0015]    In the station, the mechanical device may be a double drum winch. 
         [0016]    The station may further comprise a power system for electrical communication with any one of a battery, a power grid or a generator. 
         [0017]    The station may further comprise a second exterior door for egress to the ambient environment from the clean room and an at least one exterior ISO portal door at a second end of the container. 
         [0018]    In another embodiment, a method of cutting a pipe with a computer numerical control (CNC) pipe cutter is provided, the method comprising: loading the pipe to be cut into the self-contained mobile pipe-cutting station of claim  3 ; positioning a floating chuck of the CNC pipe cutter on the pipe; and cutting the pipe under control of the CNC pipe cutter to provide an at least one pipe section. 
         [0019]    The method may further comprise removing the at least one pipe section from the pipe conveyor with the powered hoist loaded with the pipe section. 
         [0020]    The method may further comprise urging the monorail from the clean room, so as to extend a length of the monorail from the self-contained mobile pipe-cutting station into the ambient. 
         [0021]    The method may further comprise removing the pipe section from the self-contained mobile pipe-cutting station to the ambient with the powered trolley on the so extended monorail. 
         [0022]    In another embodiment, a processor driven method of producing pipe sections in an on-site, mobile, self contained pipe cutter station is provided, the station comprising an ISO container, a CNC pipe cutter, a computer in electronic communication with the CNC pipe cutter, and a data management system, the method comprising designing an at least one pipe section to provide a plan, importing the plan into the computer for the CNC pipe cutter; and cutting an at least one cut in at least one pipe according to the plan; wherein all steps are conducted within the on-site, mobile, self contained station. 
         [0023]    The method may further comprise managing a pipe inventory. 
         [0024]    The method may further comprise estimating a total amount of pipe for a job. 
         [0025]    The method may further comprise identifying the at least one pipe section. 
         [0026]    The method may further comprise displaying a three-dimensional graphical representation of the at least one cut in the at least one pipe. 
         [0027]    In the method, the plan may provide for multiple cuts in the at least one pipe. 
         [0028]    In the method, the plan may provide for nesting pipe sections in the at least one pipe. 
         [0029]    In another embodiment, a self contained mobile-unit station dedicated to pipe cutting is provided. The station comprises an intermodal container including: a pipe cutting room comprising a first exterior door for egress to an ambient environment at a first end and an interior door at a second end, respectively, of the pipe cutting room and an at least one International Organization for Standardization (ISO) portal door for egress to the ambient environment on the first end; a temperature controlled clean room separated from the pipe cutting room with a fireproof wall with the steel man door therethrough, the pipe cutting room housing a plurality of components therein including: a rail system extending substantially a length of the pipe cutting room, a powered hoist and a powered trolley moveably mounted on the rail system, a pipe conveyor mounted on a floor and aligned with the rail system to provide a hallway between the first door and the second door, a Computer Numerical Control (CNC) pipe cutter a powered exterior conveyor for locating outside the intermodal container, the clean room housing a plurality of components therein including: a CNC pipe cutter electrical control box, a computer for the CNC pipe cutter, a heating and air conditioning unit, a dust extraction duct and a data management system. 
         [0030]    In the station, the pipe cutting room may further comprise a walkway between the first exterior door and the interior door. An operable wall divides the walkway from the pipe cutting room as a safety barrier to contain dust and fumes which are extracted through the dust extraction duct and contained inside the dust collector. 
         [0031]    In the station, the plurality of components in the intermodal container may be affixed to the container. 
         [0032]    The station may further comprise a power system configured for electrical communication with a battery, a power grid or a generator. 
         [0033]    In the station, the rail system may be a monorail. 
         [0034]    The station may further comprise a second exterior door for egress to the ambient environment from the clean room and an at least one exterior ISO portal door at a second end of the container 
         [0035]    In the station, the CNC cutter may include a floating chuck. 
         [0036]    In another embodiment, a method of cutting a pipe with a computer numerical control (CNC) pipe cutter is provided, the method comprising: loading the pipe to be cut into an intermobile pipe rig, the intermobile pipe rig including an intermodal container housing a pipe conveyor and the CNC pipe cutter; positioning a floating chuck of the CNC pipe cutter on the pipe; and cutting the pipe under control of the CNC pipe cutter to provide an at least one pipe section. 
         [0037]    The method may further comprise removing the at least one pipe section from the pipe conveyor with a powered hoist loaded with a pipe section. 
         [0038]    The method may further comprise moving the pipe section to an exit with a powered trolley on an aerial rail which when arrival onsite slides out of the intermodal container in a cantilevered configuration to move pipe in and out of the intermodal container. 
         [0039]    The method may compromise moving at least 1 pipe section from the intermodal container onto the exterior powered infeed conveyor which is located outside of the intermodal container. The exterior powered infeed conveyor is shipped inside the intermodal container by rolling it in on caster wheels into the hallway and securely strapped down for shipping. 
         [0040]    In the method, wherein the aerial rail may be a monorail running substantially the length of the pipe conveyor. The aerial rail also extents and cantilevers outside the intermodal container a reasonable distance to allow pipe to safely be handled by forklift without interference with the intermodal container. 
         [0041]    The method may further comprise designing the at least one pipe section to provide a plan and importing the plan into the CNC pipe cutter. 
         [0042]    The method may further comprise identifying the pipe section. 
         [0043]    The method may further comprise managing pipe inventory. 
         [0044]    In yet another embodiment, a processor driven method of producing pipe sections in an on-site mobile-self contained station comprising an ISO container is provided, the method comprising designing an at least one pipe section to provide a plan, importing the plan into a CNC pipe cutter; and cutting an at least one cut in at least one pipe according to the plan; wherein all steps are conducted within the on-site mobile-self contained station. 
         [0045]    The method may further comprise managing a pipe inventory. 
         [0046]    The method may further comprise estimating a total amount of pipe for a job. 
         [0047]    The method may further comprise identifying the at least one pipe section. 
         [0048]    The method may further comprise displaying a three dimensional graphical representation of the at least one cut in the at least one pipe. 
         [0049]    In the method, the plan may provide for multiple cuts in the at least one pipe. 
         [0050]    In the method, the plan may provide for nesting pipe sections in the at least one pipe. 
     
    
     
       FIGURES 
         [0051]      FIG. 1A  is a perspective drawing showing a mobile CNC pipe cutting station in the storage and transport mode. 
           [0052]      FIG. 1B  is a perspective drawing showing the mobile CNC pipe cutting station in the operational mode in accordance with one embodiment of the present technology. 
           [0053]      FIG. 2  is a front view of the mobile CNC pipe cutting station of  FIG. 1  with the front exterior wall and roof not shown. 
           [0054]      FIG. 3  is a rear view of the mobile CNC pipe cutting station of  FIG. 1  with the rear exterior wall and roof not shown. 
           [0055]      FIG. 4  is a schematic showing the electrical system of the mobile CNC pipe cutting station of  FIG. 1 . 
           [0056]      FIG. 5  is a non-exhaustive block diagram showing the processor controlled data management system. 
           [0057]      FIG. 6  is a non-exhaustive block diagram showing the data management system tasks. 
           [0058]      FIG. 7  is a top view of the mobile CNC pipe cutting station of  FIG. 1  with the exterior walls and roof not shown. 
           [0059]      FIG. 8  is a perspective drawing of the CNC machine and its components. 
           [0060]      FIG. 9A  is a perspective drawing showing the rail sliding system, rail, powered trolley and powered hoist. 
           [0061]      FIG. 9B  is a perspective drawing of an alternative embodiment of  FIG. 9A . 
       
    
    
     DETAILED DESCRIPTION 
       [0062]    A mobile CNC pipe cutting station in the storage and transport mode, generally referred to as  10  is shown in  FIG. 1A . All the components are contained within an intermodal container  12 . The operational mode is shown in  FIG. 1B . The intermodal container  12  houses a CNC machine  14 . An opening  15  extends substantially the length of the CNC machine  14  to allow pipe to be loaded onto the CNC machine  14 . Sliding doors  17  open and close to cover and expose the opening  15 . These sliding doors are reinforced and configured to ensure that the container meets the International Organization for Standardization (ISO) standards for freight containers. An exterior infeed conveyor  502  is moved from the pipe cutting room  38  ( FIG. 3 ) and is aligned with the CNC machine at the opening  84  for feeding pipe through the opening  84  and onto the CNC machine. A monorail  16 , with a powered trolley  18  and a powered hoist  20  slidably mounted on the monorail, extends out from the pipe cutting room  38  overtop the exterior infeed conveyor  502 . A dust and fume collector  50  is moved from the clean room  40  ( FIG. 3 ) to the outside. The station  10  is then ready for use. 
         [0063]    As shown in  FIG. 2 , the station  10  includes a monorail  16 , a powered trolley  18  and a powered hoist  20 , an infeed power roller pipe conveyor  22  extending longitudinally, each with at least two rollers  24 , a power source  30 , a plasma cutter torch  32 , the CNC controlled moving cutting apparatus  36  and a floating chuck  34  of the CNC machine  14  in the pipe cutting room, generally referred to as  38 . The monorail  16  is aligned with the conveyor  22  along the length of the pipe cutting room  38 . The powered trolley  18  and powered hoist  20  travel along the monorail  16 , which protrudes in a cantilevered configuration out of the intermodal container  12  to move cut sections of pipe vertically and horizontally. All pipe sections over 50 pounds are lifted with the powered trolley and powered hoist to when used in Canada, in order to comply with safety regulations. 
         [0064]    In an alternative embodiment, the monorail can be any rail system, such as two adjacent rails. 
         [0065]    As plasma cutting is a dirty operation, a clean room effectively isolates major operating components from the dust and smoke produced in the pipe cutting room  38 . As shown in  FIG. 3 , the dust and fumes are contained to the pipe cutting room  38  with an operable wall  504  and extracted through the dust extraction duct  26  to the dust and fume collector  50  located outside of the intermodal container  12 . The clean room, generally referred to as  40  is separated from the pipe cutting room  38  by a fireproof wall  42  with a steel man interior door  41 (See  FIG. 7 ). It contains an air dryer  44 , an air compressor  46 , a CNC electrical control box  48 , an inlet power connection  52 , an electrical panel  54 , a transformer  56 , plasma cutter power source  30 , and a computer  60 . The air dryer  44  can improve the quality of the cutting, if the ambient air is of high humidity. The air going to the plasma cutter torch  32  is compressed with the air compressor  46 , dried with the air dryer  44 , further cleaned and dried with an air filter, coalescer and desiccator system  61 . These all function to improve cut quality. A heating and air conditioning unit  66  is also in the clean room  40 . 
         [0066]    As shown in  FIG. 3 , the clean room  40  also has a fire extinguisher  62 , eyewash station  63 , a smoke detector  64 , a first aid kit  65 , and an exit sign and light apparatus  67 . 
         [0067]    The pipe cutting room also has two fire extinguisher  62 , two emergency exit sign and light apparatuses  67 . 
         [0068]    Returning to  FIG. 1B , a first end  70  of the intermodal container  12  (and the pipe cutting room  38 ) has two large ISO intermodal portal doors  72 ,  74 . Note that a single ISO door could alternatively be employed. A first end wall  78  with a first steel exterior man door  82  and a second opening  84  for pipe egress is directly inside the doors  72 ,  74 . The exterior infeed conveyor  502  is located immediately adjacent to the opening  84  for delivering pipe through opening  84  to the infeed power roller conveyor  22  to deliver pipe to the CNC cutter. Returning to  FIG. 2 , a second steel exterior man door  88  provides entry through a second end wall  90  into the clean room  40  from the outside. 
         [0069]    As the station  10  is for transporting to a field site, all the components in the intermodal container  12  are bolted or otherwise affixed to the container  12 . Once on site, the station  10  is powered by a generator or available site utility power grid by plugging the system into the inlet power connection  52  which powers a power system. The exterior infeed conveyor  502  and dust collector  50  are secured and stored inside the intermodal container  12  in the hallway  302  (see  FIG. 7 ) during shipping and subsequently placed outside in position by use of caster wheels and a forklift. The monorail  16  is slid out of the intermodal container  12  in a cantilevered configuration for effective transport of pipes into and out of the intermodal container  12  (which will be discussed in  FIG. 9  below). Referring to  FIG. 4 , a schematic of the power system, generally referred to as  110 , shows that the inlet power connection  52  branches into 4 routes—route one  112 , route two  114 , route three  115  and route four  117 . Route one  112  allows power to be drawn by the plasma cutter power source  30  through an emergency stop and lockout switch assembly  116 . Route two  114  allows power to be drawn by many components (which will be discussed below) through an emergency stop and lockout switch assembly  118 , the electrical panel  54 , a power conditioner  120 , and the transformer  56 . Route three  115  allows power to be drawn by the dust and fume collector  50 . Route four  117  allows power to be drawn by the CNC machine  14 . The components drawing power through route  114  include exterior flood lights  122 , interior lighting  124 , 120V receptacle outlets for miscellaneous general use  126 , air compressor  46 , air dryer  44 , heating, ventilating and air conditioning unit  66 , powered trolley  18 , powered hoist  20 , smoke detectors  64 , exit sign and light apparatus  67 . The power system  110  powers the required components to make the station operable and is compliant with all applicable electrical codes including grounding and work leads. The power system includes a main kill switch  130  for emergency shut off and lock-out capabilities for maintenance and repair. 
         [0070]    As shown in  FIG. 5 , a client  400  provides some or all of the following information to the mobile CNC pipe cutting station  10 : Specifications to be met  402 , schedules to be met  404 , manpower schedule  406 , isometric drawings  408 , 3 dimensional models  410 , pipe line lists  412 , pipe inventory data  414 , pipe cut lists  416 , site conditions and layout  418 , available resources  420  and on the fly pipe information  422 . This information is fed into the data management system  430 . The data management system includes a memory configured to instruct a processor to: import isometric drawings from other CAD programmes  432 , import three dimensional models from other Cad programmes  434 , import pipe line lists  436 , import pipe inventory data  438 , import pipe cut lists  440 , automatically nest parts  442 , automatically and accurately estimate cut time and pipe quantities  444 , schedule pipes to be cut to match client&#39;s schedule and manpower  446 , use interactive CAD/CAM interfacing  448 , design parts  450 , instruct CNC machine to cut parts  452  and create an efficient manufacturing plan to match site layout and conditions  455 . The memory then instructs the processor to communicate  460  the following to the client  400 : An efficient manufacturing plan to fit site layout and conditions  462 , pipe information such as heat number, etc.  464 , tracking for each pipe and part cut  466 , tracking of pipe inventory and data  468 , management of uncut pipe and cut pipe inventory  470 , a warehouse logistic plan  472 , tracking of pipe usage  474 , replicate specific parts and/or entire jobs  476 , schedule feedback  478  and cost feedback  480 . Cut pipe is also provided  482  to the client. 
         [0071]    As shown in  FIG. 6 , data variables can be input variables  250 , process variables  252  and output variables  254 . Variables that can be input are data from computer aided drafting programs  256 , 3D modelling programs  258 , spreadsheet and databasing programs  260 , pipe information such as heat number, diameter, schedule, material  262 , and on-the-fly operator input  264 . The process variables  252  take the input variables  250  and manipulates the data as necessary to view 3 dimensional graphical representations of the pipe to be cut or multiple cuts  266 , nesting  268 , design parts  270 , computer aided machining interfacing  272 , auto track each pipe and part cut  274 , track real time cut status from machine feedback  276 , and scheduling  278 , warehouse logistics and planning  280 . The output variables  254  are part cut history  282 , pipe usage history  284 , estimate cut time  286 , estimate cut times for entire jobs  288 , find and replicate specific parts and entire jobs  290 , track pipe inventory and data  292  and run and drive  294  the CNC machine components. This results in an efficient manufacturing plan that matches the site layout and conditions. As would be known to one skilled in the art, the data management system is an important component to excellent productivity, efficiency and accuracy and is not currently employed on the field. 
         [0072]    The components are bolted or otherwise affixed to the container  12 . Placement of many of the components is important for proper work flow, user comfort and user safety. This is especially with regard to the pipe cutting room and its components, and the monorail. 
         [0073]      FIG. 7  is a sectional top view showing the steel interior man door  41 . It is for entry into the clean room  40  from the cutting room  38 . The monorail  16 , the CNC cutting machine  14 , infeed power roller pipe conveyor  22 , are offset from a centre line  300  of the pipe cutting room  38  to provide a hallway  302  between the first exterior man door  82  to the sliding interior man door  41 . The operable wall  504  separates the hallway  302  from the monorail  16 , the CNC cutting machine  14 , infeed power roller pipe conveyor  22 . The hallway  302  continues between the interior man door  41  and the second exterior man door  88 . This hallway  302  provides a walking space substantially along the length of the pipe cutting room  38  and the clean room  40 , from the first end  70  to the second end  304  for access and egress. A computer monitor  306 , keyboard  308  and mouse  310 , are located proximate the clean room  40  in the cutting room  38 . Two exterior intermodal container (ISO) portal doors  312 ,  314  are located outside the second exterior man door  88 . The portal doors  72 ,  74 ,  312 ,  314  add strength and integrity to the container  12 , permitting it to be certified as an ISO container. 
         [0074]    The use of an operable wall  504  allows for relatively simply and highly effective dust removal. In an earlier design, a dust duct and extraction arms were needed. With the dust and fume collector  50  located outside the container in use, and the operable wall  504 , fumes and dust are both contained and removed. 
         [0075]    As shown in  FIG. 8 , the following components are part of the CNC machine: the infeed power roller pipe conveyor  22  with at least two rollers  24 , the floating chuck  34 , the CNC controlled moving cutting apparatus  36 , the electrical control box  48 , the computer  60 , the computer monitor  306 , the keyboard  308 , and the mouse  310 , the automatic pipe marker system  316  and the exterior infeed conveyor  502 . The CNC machine is configured to provide 4 axis torch movement giving ability to cut pipe saddles, laterals, copes, miters, T&#39;s, Y&#39;s, crosses, offsets, K&#39;s, complex intersections of 5 pipes, bevel angles, matching diameters, mismatching diameters, reinforcements, hole-on cuts, hole-in cuts, weld joint prep, and beveled holes for piping and structural applications. The computer  60  comes with software to form the processing component of the data management system. 
         [0076]    As shown in  FIG. 9A  the monorail  16  is allowed to slide in and out of the intermodal container  12  in a cantilevered configuration by use of the monorail sliders  520  which allows the powered trolley  18  and powered hoist  20  to place cut pipes on the exterior infeed conveyor  502  for removal. The monorail sliders are affixed to the structurally reinforced ceiling  522  of the pipe cutting room  38 . An opening  524  corresponding to the profile of the monorail  16  is in the wall  42  between the pipe cutting room  38  and the clean room  40  to allow the monorail  16  to extend into the clean room  40  during storage and transport. The monorail  16  is then urged out of the intermodal container along the sliders  520  a distance to allow the powered trolley  18  and powered hoist  20  to move over at least a portion of the exterior infeed conveyor  502 . In one embodiment, a double drum winch system  526  is used to move the monorail  16 . In another embodiment, shown in  FIG. 9B , a leadscrew  528  in the clean room  40  is aligned with the monorail  16  and is retained by two bearings  530  one on end wall  90  and another on clean room wall  42 . The leadscrew is able to turn by two chain sprockets  532 , a drive chain  534 , and an electric motor  536 . Electric motor  536  is mounted on to wall  90  by bracket  538  to retain it in place. When the leadscrew turns, the leadscrew nut  540 , which is affixed to the monorail  16 , will urge the monorail  16  in and out depending on the direction the motor  536  turns. 
         [0077]    The intermodal container  12  is constructed to allow it to be stacked, lifted, placed on uneven terrain and transported by ship, train, truck and the like. For this reason, and to ensure fireproofing, it is steel construction. The container  12  meets the International Organization for Standardization (ISO) standards for freight containers. The design of the CNC machine is such that the container can be placed on uneven terrain such that it is out of level and/or not plumb and the CNC machine will function effectively and cut pipes to specification. This is because of the floating chuck  34  and CNC controlled moving torch apparatus  36  are able to automatically adjust to accommodate inconsistencies. 
         [0078]    It is expected that after the pipe is loaded into the machine, that multiples of extremely complex cuts on large diameter and heavy pipes can be performed in 10 minutes or less and meet quality standards without compromising the safety of multiple tradesmen, a substantial improvement over conventional methods, producing significant cost and time savings. The station is capable of handling pipes of about 1.9 inches to about 36 inches in diameter, about 0.0625 inches thick to about 4 inches thick and weighing up to about 20,000lbs. It is configured for cutting metal pipe. This pipe is usually random twenties and random forties metal pipe, meaning that it is about 20 feet to about 21 feet long, or about 40 to about 42 feet long. As would be known to one skilled in the art, shorter lengths may be loaded onto the conveyor and cut. Once cut, the pieces can be removed by hand, removed using the power trolley and hoist or by offloading using the conveyor. 
         [0079]    While example embodiments have been described in connection with what is presently considered to be an example of a possible most practical and/or suitable embodiment, it is to be understood that the descriptions are not to be limited to the disclosed embodiments, but on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the example embodiment. Those skilled in the art will recognize, or be able to ascertain using no more than routine experimentation, many equivalents to the specific example embodiments specifically described herein. Such equivalents are intended to be encompassed in the scope of the claims, if appended hereto or subsequently filed.