METHOD AND APPARATUS FOR PRECISION ALIGNMENT AND TACK WELDING OF WELD-NECK PIPE FITTINGS TO PIPE

Abstract

Internal clamping of a weld-neck fitting to a pipe in preparation for precision tack welding of the fitting to the pipe is established by a pair of alignment and clamping wedge members, each having alignment and gripping members and angulated reaction surfaces which are positioned within the pipe and weld-neck fitting with the angulated reaction surfaces in relatively moveable engagement. One of the alignment and clamping wedge members is moved linearly, causing the angulated reaction surfaces to translate the linear movement to lateral movement, forcing the alignment and gripping members laterally against the internal surfaces of the pipe and fitting and supporting the fitting in precision aligned relation with the pipe to facilitate tack welding. A gauge member confirms precision alignment of the fitting with the pipe before and after applying the tack welds, then the alignment and clamping apparatus is loosened by opposite linear movement of the wedge members which are removed to permit final weld connection of the fitting to the pipe.

Claims

1. A method for establishing precision alignment of a weld-neck pipe fitting with an end of a pipe and tack welding the weld-neck pipe fitting to the pipe in preparation for finish welding of said weld-neck pipe fitting to said pipe, comprising: positioning first and second wedge-shaped members in relatively moveable relation within a pipe and within a weld-neck pipe fitting, said first and second alignment wedge-shaped members each having substantially straight alignment and clamping members and having angulated reaction members disposed in relatively moveable engagement; moving said first wedge-shaped member linearly in an alignment and clamping direction relative to said second wedge-shaped member while maintaining said second wedge-shaped member substantially static causing reaction of said angulated reaction members with one another resulting in lateral movement of said spaced alignment and clamping members to achieve internal clamping and aligning relation thereof within said pipe and said weld-neck pipe fitting; establishing tack welds securing said weld-neck fitting in precisely aligned immoveable and supported relation with said pipe; moving said second alignment and clamping wedge member linearly in a clamp releasing direction, opposite said clamping direction permitting lateral collapsing and clamp releasing movement of said internal alignment and clamping assembly; and removing said internal alignment and clamping assembly from said pipe and said weld-neck pipe fitting.

2. The method of claim 1, comprising: after lateral expansion and internal clamping of said internal clamping assembly within said pipe and said weld-neck pipe fitting and before establishment of said tack welds, determining precision alignment and spacing of said weld-neck fitting with the pipe.

3. The method of claim 2, comprising: the weld-neck pipe fitting defines a sealing flange having a planar sealing face; and prior to making said tack welds, determining precise perpendicular orientation of said planar sealing face of said weld-neck fitting relative to said pipe.

4. The method of claim 1, comprising: said wedge-shaped members being unconnected and being positioned together within said pipe and said weld-neck fitting; positioning said wedge-shaped members loosely within said cylindrical surfaces of said pipe and said weld-neck fitting with said angulated reaction members thereof in relatively moveable reactive engagement; and maintaining said second wedge-shaped member substantially static within said pipe and said weld-neck fitting and moving said first wedge-shaped member linearly in a clamping direction causing said angulated reaction members to convert said linear movement to lateral expansion and internal clamping movement of said internal alignment and clamping members to achieve forceful internal clamping engagement with said internal cylindrical surfaces of said pipe and said weld-neck fitting.

5. An alignment and internal clamping assembly for precision alignment of a weld-neck pipe fitting with a pipe in preparation for tack welding of the weld-neck pipe fitting to the pipe, comprising: first and second alignment wedge-shaped members each having an internal alignment and clamping member and an angulated reaction member; said first and second alignment wedge-shaped members being positioned within internal cylindrical surfaces of a weld-neck fitting and a pipe and with said angulated reaction members in reactive engagement with one another; defining an internal alignment and clamping assembly establishing precision positioning of a weld-neck pipe fitting relative to a pipe to which the weld-neck pipe fitting is to be welded; said spaced alignment members each being positioned for aligning and clamping engagement with the internal surface of the pipe and with the internal surface of the weld-neck fitting; and said angulated reaction surfaces reacting during relative linear movement of said first and second alignment wedge-shaped members to cause lateral expansion or contraction movement of said first and second alignment wedge members depending on the direction of linear movement and causing lateral movement of said spaced alignment members to and from aligning and clamping engagement with the internal surface of the pipe and with the internal surface of the weld-neck fitting.

6. The alignment and internal clamping assembly of claim 5, comprising: each of said first and second internal alignment and clamping wedge-shaped members being composed of substantially flat material joined to define a wedge-shaped configuration; said spaced alignment members of each of said first and second alignment wedge-shaped members having spaced lateral parallel corners being oriented for aligning and internal clamping engagement with cylindrical interior surfaces of said pipe and said weld-neck fitting; and said angulated reaction members of each of said first and second alignment wedge-shaped members being defined by substantially straight and flat members being connected and oriented in angular relation with said spaced alignment members and reacting with each other upon relative linear movement of said first and second alignment wedge-shaped members to impart lateral aligning and selective internal clamping movement and clamp releasing movement to said first and second alignment wedge members.

7. The alignment and internal clamping assembly of claim 5, comprising: said first and second internal alignment and clamping wedge-shaped members being individual unconnected internal clamping components that react with one another within the confines of cylindrical internal surfaces of said pipe and said weld-neck fitting responsive to relative linear movement thereof and convert said relative linear movement to lateral expansion and contracting movement for selective internal clamping and releasing activity.

8. The alignment and internal clamping assembly of claim 5, comprising: each of said first and second internal alignment and clamping wedge-shaped members being composed of a solid material, such as a metal or polymer material or polymer composite material, having a wedge-shaped configuration defining said first external surface configuration having said spaced alignment members and a second substantially planar external surface disposed in angular relation with said first external surface configuration.

9. The alignment and internal clamping assembly of claim 5, comprising: each of said alignment and internal clamping wedge-shaped members having an elongate generally rectangular member of defined length having parallel corners oriented for internal clamping engagement with the internal cylindrical surfaces of a pipe and a weld-neck fitting to be welded to the pipe; an elongate reaction member having a defined length being fixed at one end thereof to an end of said alignment and internal clamping wedge-shaped member and being oriented in angular relation with said elongate generally rectangular member; and a structural member having a first end thereof fixed to said elongate generally rectangular member intermediate said defined length and having a second end thereof fixed to said elongate reaction member intermediate said defined length and serving to enhance the rigidity of said alignment and internal clamping wedge-shaped member.

10. The alignment and internal clamping assembly of claim 9, comprising: said angular relation of said elongate generally rectangular member and said elongate reaction member being configured at a defined angle dependent upon the internal diameter of the weld-neck fitting and pipe being fabricated.

11. An alignment and internal clamping assembly for precision alignment and support of a weld-neck pipe fitting by a pipe in preparation for tack welding of the weld-neck pipe fitting to the pipe, comprising: first and second elongate generally straight internal alignment and clamping members each having a defined length sufficient to engage within a pipe and extend through a weld-neck pipe fitting to be welded to the pipe, each of said first and second elongate generally straight internal alignment and clamping members defining aligning and clamping members positioned for engagement with internal cylindrical surfaces of the pipe and weld-neck pipe fitting; angulated reaction members being connected in angular relation with each of said elongate generally straight internal alignment and clamping members, said angulated reaction members each having reaction surfaces disposed in relatively moveable surface-to-surface engagement and serving to translate substantially linear motion of said angulated reaction members into transverse motion of said elongate generally straight internal alignment and clamping members for internal clamping or clamp releasing activity depending on the direction of substantially linear movement of said angulated reaction members.

12. The alignment and internal clamping assembly of claim 11, comprising: each of said first and second internal alignment and clamping wedge-shaped members being composed of substantially flat material joined to define a wedge-shaped configuration; said spaced alignment members of each of said first and second alignment wedge-shaped members having spaced lateral parallel corners being oriented for aligning and internal clamping engagement with cylindrical interior surfaces of said pipe and said weld-neck fitting; and said angulated reaction members of each of said first and second alignment wedge-shaped members being defined by substantially straight and flat members being connected and oriented in angular relation with said spaced alignment members and reacting with each other upon relative linear movement of said first and second alignment wedge-shaped members to impart lateral aligning and selective internal clamping movement and clamp releasing movement to said first and second alignment wedge members.

13. The alignment and internal clamping assembly of claim 11, comprising: said first and second internal alignment and clamping wedge-shaped members being individual unconnected internal clamping components that react with one another within the confines of cylindrical internal surfaces of said pipe and said weld-neck fitting responsive to relative linear movement thereof and convert said relative linear movement to lateral expansion and contracting movement for selective internal clamping and releasing activity.

14. The alignment and internal clamping assembly of claim 11, comprising: each of said first and second internal alignment and clamping wedge-shaped members being composed of a solid material, such as a metal or polymer material or polymer composite material, having a wedge-shaped configuration defining said first external surface configuration having said spaced alignment members and a second substantially planar external surface disposed in angular relation with said first external surface configuration.

15. The alignment and internal clamping assembly of claim 11, comprising: each of said alignment and internal clamping wedge-shaped members having an elongate generally rectangular member of defined length having parallel corners oriented for internal clamping engagement with the internal cylindrical surfaces of a pipe and a weld-neck fitting to be welded to the pipe; an elongate reaction member having a defined length being fixed at one end thereof to an end of said alignment and internal clamping wedge-shaped member and being oriented in angular relation with said elongate generally rectangular member; and a structural member having a first end thereof fixed to said elongate generally rectangular member intermediate said defined length and having a second end thereof fixed to said elongate reaction member intermediate said defined length and serving to enhance the rigidity of said alignment and internal clamping wedge-shaped member.

16. The alignment and internal clamping assembly of claim 11, comprising: each of said alignment and internal clamping wedge-shaped members being defined by an elongate body of generally wedge-shaped configuration having first and second opposed sides; said first side of said elongate body having spaced and parallel clamping members disposed for internal clamping engagement with internal cylindrical surfaces of a pipe and a weld-neck pipe fitting; said second side of said elongate body having defining a reaction member disposed in angular relation with said spaced and parallel clamping members; and said elongate bodies being positioned within a pipe and a weld-neck pipe fitting with said reaction members disposed in relatively moveable engagement and with said spaced and parallel clamping members oriented for clamping engagement with said internal cylindrical surfaces of the pipe and weld-neck pipe fitting, wherein linear movement of one of said elongate bodies relative to the other causes lateral expansion and clamping movement said elongate bodies within the internal cylindrical surfaces of the pipe and weld-neck pipe fitting by force translating reaction of said angular reaction members.

17. The alignment and internal clamping assembly of claim 16, comprising: said elongate bodies being disposed in non-connected relation when positioned within said pipe and said weld-neck fitting, with said reaction members disposed in reactive engagement; one of said elongate bodies being maintained substantially static within said internal cylindrical surfaces of the pipe and weld-neck pipe fitting and reaction with one another during linear movement of the other of said elongate bodies to translate said linear movement to forceful lateral movement, forcing said spaced and parallel clamping members into internal clamping engagement within said cylindrical surfaces of the pipe and weld-neck pipe fitting; and opposite relative movement of said elongate bodies within said cylindrical surfaces of the pipe and weld-neck pipe fitting releasing said clamping engagement and permitting retraction movement of said elongate bodies for extraction from the pipe and weld-neck pipe fitting.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0017] So that the manner in which the above recited features, advantages and objects of the present invention are attained and can be understood in detail, a more particular description of the invention, briefly summarized above, may be had by reference to the preferred embodiment thereof which is illustrated in the appended drawings, which drawings are incorporated as a part hereof.

[0018] It is to be noted however, that the appended drawings illustrate only a typical embodiment of this invention and are therefore not to be considered limiting of its scope, for the invention may admit to other equally effective embodiments.

[0019] In the Drawings:

[0020] FIG. 1 is an isometric illustration showing a weld-neck pipe fitting in the process of being moved to a position with its tubular weld connector spool disposed in closely spaced precision aligned relation with the weld connector end of a pipe of substantially the same internal diameter and being secured in place by an alignment and internal clamping tool embodying the principles of the present invention;

[0021] FIG. 2 is a section view taken along line 2-2 of FIG. 1 showing the flow passage of the pipe and showing spaced contact of outer alignment and clamping portions of the two wedge-shaped sections of the alignment and clamping tool of the present invention;

[0022] FIG. 3 is an isometric illustration showing the wedge-shaped alignment and internal clamping devices of FIG. 1 being positioned for relative linear expansion and pipe gripping movement, the wedge-shaped devices being fabricated from strips of plate metal;

[0023] FIG. 4 is an isometric illustration showing solid internal alignment and clamping wedge devices composed of lightweight polymer material or a lightweight metal and functioning in similar manner for internal gripping and precision positioning of a weld-neck pipe fitting or any other tubular member relative to the weld prepared end of a section of pipe;

[0024] FIG. 5 is an isometric illustration showing the expanding and internal gripping wedges of FIG. 2 being expanded within tubular members by relative linear movement to establish internal alignment and frictional gripping contact of four linear corners of the expansion wedge devices with the cylindrical internal surfaces of axially spaced pipe sections;

[0025] FIG. 6 is an isometric illustration showing the internal alignment and internal clamping wedge members of this invention being positioned within the flow passages of a pipe and weld-neck pipe fitting for expansion and gripping thereof and further showing a precision alignment gauge engaging and confirming precision perpendicular positioning of the sealing face of the weld-neck fitting; and

[0026] FIG. 7 is another isometric illustration showing a weld-neck pipe fitting being moved toward proper tack-welding position relative to a pipe, being disposed in supported relation by the expanding and internal gripping wedges of FIG. 2, with the circular sealing face of its sealing flange in precisely perpendicular relation with the pipe as confirmed by the precision alignment confirming gauge of FIG. 6.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENT

[0027] Referring now to the drawings and first to FIG. 1, a sealing flange type weld-neck pipe fitting for a welded connection to a pipe is shown generally at 10 and has a sealing flange member 12 having an array of bolt holes 14 that receive threaded bolts or studs for securing the sealing flange member in tightly sealed relation with an identical sealing flange member of a fluid or gas handling piping system. The pipe fitting has a tubular weld connection spool 16 extending from one side of the sealing flange and being designed for optimum strength to accommodate piping loads. The weld connection spool 16 has a tapered connection section 18 projecting from the sealing flange member 12 and merging with a generally cylindrical connection section 20 typically having a circular beveled weld preparation.

[0028] The sealing flange 12 defines a circular planar sealing face 21, shown in FIG. 6, that establishes sealing engagement with an identical sealing flange of a pipe as the sealing flanges are drawn together by tightening of the bolts or studs that engage the bolt holes 14 of adjacent sealing flanges. The connection section 20 defines a circular end 22 that is of generally tapered configuration for a weld connection with a similar circular tapered end 24 of a section of pipe 26. Both the pipe flange fitting 10 and the pipe 26 may have flow passages of substantially identical diameter being defined by internal generally cylindrical surfaces 25 and 27. The prepared beveled end of the weld connection spool of the fitting is typically positioned in closely spaced relation with the prepared, beveled end of the pipe, in the order of from about 1/32 to about (the spacing could be more or less depending upon the requirements of the weld procedure specifications being followed) to facilitate complete weld penetration, for an optimum welded connection. In FIG. 1, for the purpose of simplicity and to promote ready understanding of this invention, the weld connection spool 16-20 is shown to have much greater spaced relation with the weld prepared end of the pipe 26, a condition that exists as the weld-neck fitting is being moved toward the desired closely spaced position for optimum weld connection.

[0029] Shown in FIG. 1 being positioned within the flow passages of the weld-neck pipe flange fitting and the pipe 26 is an internal alignment and clamping mechanism shown generally at 30 having two generally triangular wedge-shaped internal alignment and clamping members 32 and 34 that are shown to be positioned adjacent to one another in FIG. 3. The internal alignment and clamping wedge-shaped members are not connected with one another according to this embodiment, though they may be connected in moveable assembly without departing from the spirit and scope of this invention. Each of the wedge-shaped members 32 and 34 define substantially planar elongate substantially straight reaction members 36 and 38, respectively, that are oriented in angular relation with the center-line C/L of the pipe flange fitting and pipe. The reaction members 36 and 38 are shown in FIG. 3 to define substantially straight reaction surfaces 40 and 42 that are shown in reactive engagement with one another when the internal pipe alignment and clamping system 30 is in use. It is to be borne in mind, however, that the reaction surfaces of the reaction members 36 and 38 need not be of planar configuration since the reaction geometry of these members may have forms, such as reaction ridges or grooves, that cause reactive lateral expansion or collapsing movement of the internal pipe alignment and clamping system 30 when the generally triangular wedge-shaped internal alignment and clamping members 32 and 34 are moved linearly relative to one another.

[0030] As shown in FIG. 2 and in FIG. 3, the angular reaction surfaces 40 and 42 of the angularly oriented reaction members 36 and 38 achieve lateral expansion or contraction movement of the wedge-shaped members 32 and 34, as shown by movement arrows, when the wedge-shaped members are moved substantially linearly relative to one another. The outer portions of each of the wedge-shaped members 32 and 34 have substantially straight and rigid members 44 and 46, that are defined by rigid metal straps according to the preferred embodiment and best mode of the invention. These rigid metal straps preferably have substantially straight and planar surfaces 48 and 50 that are disposed in substantially parallel relation when the expanding wedge apparatus is in use.

[0031] As shown in FIG. 1 and as further shown in the transverse section view of FIG. 2 and in FIG. 3, the substantially straight member 44 of the expanding wedge section 32 defines two spaced parallel straight edged corners 47 and 49 that establish spaced and generally parallel line contact with the cylindrical internal surfaces 25 of the weld-neck pipe fitting 10 and 27 of the pipe 26. The angularly oriented reaction member 36 and the substantially straight member rigid 44 of the expanding wedge section 32 are connected at one end by an end weld 51 or by any other means for fixed connection. Likewise, the angulated reaction member 38 and the substantially straight member 46 are connected by an end weld 53. As further shown in the section view of FIG. 2, and in FIGS. 3, 5 and 6 expanding wedge section 34 has an outer straight and rigid portion 50 that defines two spaced parallel straight edged corners 56 and 58 that establish spaced parallel internal line contact with the internal cylindrical surfaces 25 and 27 of the weld-neck pipe fitting and the pipe. Thus, the assembled wedge-shaped members 32 and 34 establish clamping line contact at four spaced internal locations with both the pipe and weld-neck fitting to achieve precision alignment of the weld-neck fitting with respect to the pipe. The assembled wedge-shaped members 32 and 34 also establish sufficient internal clamping force to achieve support of the weld-neck fitting by the pipe.

[0032] To enhance the structural integrity of the wedge-shaped members, transverse structural supports maintain proper angular positioning and resist bending or other deformation thereof under internal clamping load. For example, as shown in FIG. 3, wedge-shaped member 32 includes a structural support wall 60 that is welded or otherwise fixed to the angularly oriented strap member 36 and to the rigid strap member 44 and serves to maintain the strap members 44 and 36 fixed at the desired angle for efficient internal clamping within the pipe and weld-neck fitting. Likewise wedge member 34 has a structural support wall 62 that is welded or otherwise fixed to the straight rigid strap member 46 and to the angulated reaction member 38 and serves to maintain the strap members 38 and 46 fixed at the desired angle for alignment of the weld-neck fitting with the pipe member to promote efficient internal clamping.

[0033] The wedge-shaped alignment and clamping members may have forms other than the open wedge structure shown in FIGS. 1-3. For example, as shown in FIG. 4 a pair of wedge-shaped alignment and clamping members shown generally at 64 and 66 may be of substantially solid structure, being formed of a lightweight structure such as a polymer material, a lightweight metal such as an aluminum alloy or a composite material such as a filled fiberglass or the like. The wedge-shaped members 64 and 66 may be substantially identical. The internal alignment and clamping wedge-shaped member 64 defines elongate parallel alignment and clamping corners 68 and 70 that function in the same manner as discussed above in connection with FIGS. 1-3. Likewise, the internal alignment and clamping wedge-shaped member 66 defines elongate parallel alignment and clamping corners 72 and 74 with a surface 76 therebetween that may be of planar configuration if desired. Though internal clamping is accomplished by forceful engagement of the spaced clamping corners of each wedge-shaped member, the wedge members may be provided with spaced clamping buttons or clamping ridges that engage the inner cylindrical surfaces of the weld-neck fitting and the pipe with sufficient force to establish immoveable clamping with both the weld-neck fitting and pipe and retain the weld-neck fitting in immoveable assembly with the pipe, sufficient to permit a tack welding operation to fix the fitting to the pipe.

[0034] It should be borne in mind that the spirit and scope of the present invention is not intended to be limited by the metal strap welded construction that is shown in the drawings and described herein, because other embodiments of this invention may be provided if desired. For example, the internal alignment and clamping wedge sections may be composed of any relatively lightweight polymer material or a composite of polymer and metal materials having sufficient structural integrity for supporting a pipe flange fitting or other type of pipe fitting in aligned assembly with a section of pipe.

[0035] As shown in FIG. 1 and the transverse section view of FIG. 2, the substantially straight members 44 and 46 of the alignment and internal clamping wedge-shaped members each define two spaced parallel straight edged corners that establish spaced parallel line contact with the cylindrical internal surface 25 of the pipe flange fitting 10 and the internal cylindrical surface 27 of the pipe 26. As shown in the transverse section view of FIG. 2, and in FIGS. 1, 3-6, wedge-shaped member 34 has an outer portion 50 that defines two spaced parallel straight edged corners 56 and 58 that establish spaced parallel line contact with the internal cylindrical surface 27 of the pipe 26 and the internal cylindrical surface 25 of the pipe flange fitting 10. Similarly, the expanding wedge-shaped member 32 has an outer portion 48 that defines substantially straight and parallel corners 47 and 49 that function when the wedge members are in engagement to establish multiple locations of internal essential line contact engagement with opposite internal sides of both the pipe and weld-neck pipe flange fitting to establish centering of the internal alignment mechanism within the pipe and establish centering of the weld-neck fitting relative to the pipe.

Operation

[0036] Use of the method and apparatus of the present invention that is described herein for securing a weld-neck fitting, typically a flange type fitting, to a pipe is typically initiated by assembling two wedge-shaped members 32 and 34 of the internal clamping assembly 30 in collapsed and loose assembly with the angulated reaction surfaces 40 and 42 thereof in contact. A welder will then position an end portion of the assembly within the cylindrical flow passage of the pipe and with the opposite end portion of the assembly projecting from the pipe. A weld-neck fitting 10 is then positioned with its cylindrical flow passage receiving the opposite end portion of the internal clamping assembly and with an end portion of the assembly projecting from the flow passage of the fitting and extending beyond the circular sealing projection 21 of the flange or flow passage opening of the fitting as shown in FIGS. 1, 6 and 7. The weld-neck fitting 10 will then be moved along the length of the internal clamping assembly 30 until the beveled end 22 of the connection spool 16 of the fitting is located in closely spaced relation with the circular beveled end 24 of the pipe 26.

[0037] One of the internal alignment and clamping wedge-shaped members 32 or 34 is then moved linearly relative to the other internal alignment and clamping wedge-shaped member with sufficient force that the inclined reactive surfaces 40 and 42 react and drive the substantially straight and rigid members laterally, as shown by the force and movement arrows in FIGS. 3 and 4. In a simple form of the present invention, movement of a wedge-shaped member for tightening and generation of clamping force can be accomplished by striking the end of one of the wedge-shaped members with a hammer. However, relative linear movement of one wedge-shaped member relative to the other may be accomplished by any suitable means, such as application of force by a tool that is energized mechanically, electrically, hydraulically or pneumatically. This lateral movement causes the respective straight corners 47 and 49 of the straight rigid member 44 and 56 and 58 of the straight and rigid member 50 to be moved laterally into internal clamping engagement with the internal cylindrical surface 27 of the pipe 26 and with the internal cylindrical surface 25 of the weld-neck fitting 10. Such lateral movement causes the elongate straight corners of the straight and rigid members 44 and 50 to be driven laterally into forcible internal clamping engagement with the internal cylindrical surfaces of the pipe and fitting. This internal clamping engagement occurs at multiple locations of internal essential line contact engagement with the internal cylindrical surfaces of the pipe and the weld-neck fitting with sufficient force to support the weld-neck fitting in properly aligned and slightly spaced position by the pipe and in position for tack welding.

[0038] Prior to the tack-welding operation, it is desirable to ensure that the weld-neck pipe fitting is in precise alignment with the weld prepared or beveled end of the pipe, such that the circular planar sealing face 21 of a pipe sealing flange 12, if provided, is located in precisely perpendicular relation with the pipe and is located in precisely concentric relation with the pipe. This feature is accomplished by means of a position confirming gauge member shown in broken line generally at 80 in FIGS. 6 and 7. This gauge member does not comprise any portion of the present invention, but is shown in the drawings because of its value, especially when weld-neck flange fittings are being welded during field conditions. The position confirming gauge member has a pipe engagement arm 82 that is an integral or one-piece device having a straight edge 84 that is intended to be positioned in longitudinal engagement with the external cylindrical surface 86 of the pipe 26. The position confirming gauge member 80 defines a second pipe flange engagement arm 88 having a straight edge 90 that is positioned in precisely perpendicular relation with the straight edge 84 of the pipe engagement arm 82. The circular sealing projection 21 of the sealing flange 12 of the weld-neck fitting 10 is positioned in precisely perpendicular relation with the pipe 26 and its cylindrical external surface when the straight edge 84 is in engagement with the external surface of the pipe 86 and the straight edge 90 of the second gauge arm 88 is in engagement across the entire sealing face 21 of the sealing flange 12.

[0039] To accommodate the circular dimension of the sealing flange and to adapt the position confirming gauge member 80 for use with sealing flanges of different dimension, the position confirming gauge member 80 is provided with an off-set section 92 from which the second gauge arm 88 depends and from which a connection arm 94 also depends. The pipe engagement arm 82 is connected with and supported by the connection arm 94. The position confirming gauge member is preferably composed of flat metal stock, such as stainless steel or chrome plated steel for corrosion resistance, but can be composed of any number of suitable materials, such as a durable polymer, fiberglass, or the like.

[0040] After the precisely aligned and properly spaced position of the weld-neck fitting has been confirmed, several tack welds, typically three or more, are then made at spaced locations about the joint to secure the weld-neck fitting in precisely aligned and immoveable relation with the pipe. Typically, after the tack-welding operation has been completed, the position confirming gauge member 80 is then used again to ensure that the properly aligned and spaced position of the weld-neck fitting has not been changed during the tack welding operation.

[0041] At this point loosening of internal clamping is accomplished by opposite relative linear movement of the wedge-shaped members wherein one of the internal alignment and clamping wedge members is moved linearly in a clamp loosening direction relative to the other internal alignment and clamping wedge member accomplishing lateral movement of the spaced parallel corners of the wedge members away from the internal cylindrical surfaces of the pipe and the weld-neck pipe fitting. The loosened internal alignment and clamping assembly is then removed from the pipe and weld-neck fitting, leaving the weld joint free for the final welding operation permanently connecting the weld-neck fitting to the pipe.

[0042] In view of the foregoing it is evident that the present invention is one well adapted to attain all of the objects and features hereinabove set forth, together with other objects and features which are inherent in the apparatus disclosed herein.

[0043] As will be readily apparent to those skilled in the art, the present invention may easily be produced in other specific forms without departing from its spirit or essential characteristics. The present embodiment is, therefore, to be considered as merely illustrative and not restrictive, the scope of the invention being indicated by the claims rather than the foregoing description, and all changes which come within the meaning and range of equivalence of the claims are therefore intended to be embraced therein.