PFI ES-40-2004 METHOD OF DIMENSIONING GROOVED PIPING ASSEMBLIES《沟槽管道总成尺寸标注方法》.pdf

1、PFI Standard ES-40 (Reaffirmed September 2010) METHOD OF DIMENSIONING GROOVED PIPING ASSEMBLIES Prepared by Pipe Fabrication Institute Engineering Committee All PFI Standards are advisory only. There is no agreement to adhere to any PFI Standard and their use by anyone is entirely voluntary. Copyrig

2、ht by PIPE FABRICATION INSTITUTE Dedicated to Technical Advancements and Standardization in the Pipe Fabrication Industry Since 1913 USA 511 Avenue of Americas, # 601 New York, NY 10011 CANADA 655, 32ndAvenue, # 201 Lachine, QC H8T 3G6 WEB SITE www.pfi-institute.orgPFI Standard ES-40 (Reaffirmed Sep

3、tember 2010) METHOD OF DIMENSIONING GROOVED PIPING ASSEMBLIES PFI neither endorses, approves, or recommends any specific product by issuance of this standard. METRIC CONVERSIONS The conversion of quantities between systems of units involves a determination of the number of significant digits to be r

4、etained. All conversions depend upon the intended precision of the original quantity and are rounded to the appropriate accuracy. Pipe sizes together with applicable wall thicknesses are not shown with metric equivalents. The SI (metric) values where included with the customary US values in this Sta

5、ndard are the rounded equivalents of the US values and are for reference only. Metric units were derived utilizing the following conversion factor: Conversion Factor Inches to millimeter 25.4 1. Scope 1.1 This standard covers the recommended practices for dimensioning grooved piping assemblies in a

6、manner that would enable the fabricator to furnish a product meeting the geometry intended by the design engineer. This standard may be used in conjunction with additional fabrication processes (i.e., bending, welding, etc.) in accordance with PFI standards. 2. Dimensioning 2.1 Piping is normally of

7、 a circular cross section. Thus the geometry of a piping system can be fully defined by the location of the centerline axis of the pipe. Terminal points and points of change in direction of the pipe axis are known as working points. Since two points determine a straight line, it is recommended that

8、the pipe axes be located by means of working points. Two alternate methods of locating working points are suggested in 2.2 and 2.3. 2.2 Fig. 1A illustrates location of the working points along the axis of the pipe by providing information on the length and direction of each consecutive segment of th

9、e axis. 2.3 Fig. 1B illustrates dimensioning by means of location of the work points from fixed reference planes, such as from ground elevation, column lines, etc. 2.4 While not necessary for the determination of the pipeline geometry, it is essential that the engineer provide the fabricator with ad

10、ditional information such as: a. pipe size and wall thickness b. material specification c. type of pipe fittings to be used d. bend radius for bends e. type of branch connections to be used f. type of grooves to be used (rolled or cut) g. type of couplings to be used and location of all rigid joints

11、 h. locations of all attachments i. permissible tolerances (see PFI Standard ES-39) j. system operating conditions 3. Fabrication Variables 3.1 This section intended to acquaint the engineer with the variables encountered by the fabricator. 3.2 In joining the components of a fabricated assembly, the

12、 fabricator must consider three factors; joint type and spacing; maximum and minimum pipe end separation and pipe fitting tolerances.PFI Standard ES-40 (Reaffirmed September 2010) 3.3 In order to assure proper system alignment and function, pipe ends to be joined with mechanical pipe couplings are s

13、et up with a small gap between them called end separation. This separation may vary from 0 to 1/4“ (6mm) depending on the type of groove, type of coupling used, and the diameter of pipe. 3.4 Pipe end separation will vary as the piping system is assembled and put into service. With guidance from the

14、engineer as to the type of groove, location of required rigid mechanical joints, system operating conditions and fitting tolerances, the fabricator can calculate the cut-length of all pipe segments required to complete the system. 3.5 All grooved fittings and flanges are subject to manufacturing tol

15、erances on terminal dimensions (end to end, face to face, center to end, etc.). The fitting manufacturer must be consulted for the specific tolerance to be utilized. 3.6 In fabricating the assembly, the fabricator must take the foregoing factors into account. To achieve dimension “L” in Fig. 1A, it

16、may be necessary to adjust pipe end separation or change joint type. As an alternate approach, appropriate adjustments could be made to other relevant dimensions in the piping layout to achieve the desired end result. 3.7 All of the above mentioned variables are beyond the control of the fabricator. The Pipe Fabrication Institute recommends that allowances for pipe separation be incorporated in the Engineers design drawings, and overall dimensions of close assemblies of fittings or fittings and flanges be determined on the basis of the net sum of the nominal dimensions of the component parts.