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GB/T 14791-2013 English PDF

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GB/T 14791-2013: Screw threads -- Vocabulary
Status: Valid

GB/T 14791: Historical versions

Standard ID	USD	BUY PDF	Lead-Days	Standard Title (Description)	Status
GB/T 14791-2013	694	Add to Cart	5 days	Screw threads -- Vocabulary	Valid
GB/T 14791-1993	839	Add to Cart	6 days	The terms of screw threads	Obsolete

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Basic data

Standard ID: GB/T 14791-2013 (GB/T14791-2013)
Description (Translated English): Screw threads -- Vocabulary
Sector / Industry: National Standard (Recommended)
Classification of Chinese Standard: J04
Classification of International Standard: 21.040.01
Word Count Estimation: 35,363
Older Standard (superseded by this standard): GB/T 14791-1993
Quoted Standard: ISO 286-1-1988
Adopted Standard: ISO 5408-2009, IDT
Regulation (derived from): National Standards Bulletin No. 25 of 2013
Issuing agency(ies): General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China, Standardization Administration of the People's Republic of China
Summary: This standard specifies the basic terms and their definitions threads. This standard applies to the symmetric and asymmetric screw threads, or cylindrical threaded and tapered threads. When there is more than one corresponds to a definition of the term, s

GB/T 14791-2013: Screw threads -- Vocabulary

---This is a DRAFT version for illustration, not a final translation. Full copy of true-PDF in English version (including equations, symbols, images, flow-chart, tables, and figures etc.) will be manually/carefully translated upon your order.
Screw threads. Vocabulary ICS 21.040.01 J04 National Standards of People's Republic of China Replacing GB/T 14791-1993 Thread term (ISO 5408.2009, IDT) Issued on. 2013-12-17 2014-10-01 implementation Administration of Quality Supervision, Inspection and Quarantine of People's Republic of China Standardization Administration of China released

Preface Ⅰ 1 Scope 1 2 Normative references 1 3 General terms 1 4 and the thread type related terms 4 5 and the thread diameter related terms 9 6 and the thread pitch and lead related terms 12 7 and 14 threads with related terms 8 with the threaded tolerance test and related terms 16 9 and 18 related terms asymmetrical thread 10 and 18 seal pipe thread related terms 11 and 20 thread strength related terms Appendix A (normative) Additional list of terms 21 French, German, Japanese and Swedish threaded terminology Annex B (informative) equivalent to 22 Pinyin index 27 English equivalents index 29

Foreword

This standard GB/T 1.1-2009 given rule drafting. This standard replaces GB/T 14791-1993 "threaded term." This standard compared with GB/T 14791-1993, the main technical change Into. --- The standard adds 25 new terms. helix lead (3.1.2), spiral lead angle (3.1.3), symmetrical thread (3.2.4), asymmetrically Thread (3.2.5), the guide thread (3.2.13), the adjacent flank (4.9.1), the same name as the flank (4.9.2), the tooth (4.10), alveolar (4.11), Alveolar pitch (6.2), the cumulative pitch (6.3), the number of teeth (6.4), alveolar lead (6.6), thread contact height (7.2), fitted long thread Degree (7.4), alveolar pitch deviation (8.1.2), alveolar lead deviation (8.1.5), the maximum material difference (8.2.1), tolerance code (8.2.2), reference plane (10.9), to accommodate the length of (10.10), the diameter of the conical taper (10.11), in close distance (10.12), thread tension Intensity area (11.1), the shear strength of the threaded area (11.2). --- "Original triangle" "Basic tooth type" relationship with. the 1993 edition of the "original triangle" Export "Basic tooth type" (1993 edition 3.1.2 and 3.1.4); this standard from "Basic tooth type" Export "original triangle" (see 4.1 and 4.5). --- "Flank" is defined. the 1993 version does not define the shape of the tooth side (the 1993 edition of 3.1.11); this standard is defined in parallel to the axis flank Rectilinear inner surface (see 4.9). --- "Functional diameter" is defined.1993 Edition no clear position of the imaginary thread inclusive actual thread (1993 version 3.2.8); this standard Quasi clearly defined inclusive actual position of the imaginary thread in the thread "flank" Department (see 5.11). --- "Pitch" is defined. the 1993 measure did not define a position on the pitch (1993 Version 3.3.1) flank; This standard defines spiro Pitch is the distance between the flank (see 6.1). --- On the "flank contact height" and "thread contact height" Terminology.1993 Edition no clear distinction between the two terms, only a "connection Touch height "Terminology (1993 Version 4.1); This standard makes a distinction between the two terms, and gives a clear definition (see 7.1 and 7.2). --- About "screwed length" and "thread assembly length" terms. the 1993 edition is no clear distinction between the two terms, only a "Length" terms (1993 edition 4.4); This standard makes a distinction between the two terms, and gives a clear definition (see 7.3 and 7.4). --- The 1993 edition of "cumulative pitch error" and "lead the accumulated error" terms were changed to "the cumulative pitch deviation" and "cumulative Lead bias "term; and to redefine the definition (see 8.1.3 and 8.1.7). --- Revised 1993 edition of "reference diameter" is defined (see 10.4). --- Use the "pull tight balance" term instead of the 1993 edition of "tightening margin" terms; and delete the definitions of the terms in the 1993 edition of the "minimum Two entities within the limits thread "and" taper thread "(see 10.8). This standard uses the translation method identical with ISO 5408.2009 "Thread the term" (in English). Consistency correspondence with international standards in this standard references of our standards are as follows. Part 1 (GPS) Limits and fits GB/T 1800.1-2009 Geometrical product specifications. tolerances, deviations and fits the base Base (ISO 286-1. 1988, MOD) This standard makes the following editorial changes. --- Increased the Chinese Pinyin index terms. --- Modify the title of Appendix B and Table B.1 in the order of content; deleted chapter numbers are listed in the table. --- Deleted the Chapter 1 (range) on the ISO standard official languages. --- "Single diameter" is defined. ISO 5408.2009 thread limit measure the axial length within the term defined as an alveolar width, The most commonly recommended amount behind its definition of the needle (ball volume) measurements contradict; this standard deleted the measure defined within ISO Limit the amount of content length (see 5.10). Thread term

1 Scope

This standard specifies the basic terms and their definitions thread. This standard applies to symmetric and asymmetric screw threaded, or threaded cylindrical and tapered threads. When there is more than one corresponds to a defined term, preference should be given black bold terms. Appendix A lists some of the standard text does not give the definition of the term. With Chinese and English terminology thread equivalent French, German, Japanese and Swedish terminology, see Appendix B.

2 Normative references

The following documents for the application of this document is essential. For dated references, only the dated version suitable for use herein Member. For undated references, the latest edition (including any amendments) applies to this document. ISO 286-1. Section 11988 of the ISO system of limits and fits. tolerances, deviations and infrastructure (ISO systemof fit limitsandfits-Part 1. Basesoftolerances, deviationsandfits)

3 General terms

3.1 helix 3.1.1 Helix helix Cylindrical or conical surface along the trajectory of the moving point, axial displacement of the point corresponding to a predetermined angular displacement ratio. see picture 1. 3.1.2 Helix lead leadofhelix Ph (metric thread) L (inch screw threads) In the same spiral (3.1.1), the same position, corresponding to the axial distance between two adjacent points. That is a point of rotation along the helix Corresponding week axial distance. see picture 1. 3.1.3 Helix lead angle leadangleofhelix φ (metric thread) λ (inch screw threads) Helix (3.1.1) the tangent perpendicular to the axis of the helix angle between the planes. see picture 1. Note 1. For metric thread, which is calculated as tanφ = Ph 2πr ; For inch system thread, which is calculated as tanλ = 2πr Note 2. The conical spiral (3.1.1), spiral lead angle (3.1.3) its axis at different positions are different. 4.12 Crest crest (4.10) at the top surface of the connection of two adjacent flank (4.9.1) of the tooth. Figure 12. 4.13 Bottom tooth root Connecting two adjacent flank (4.9.1) alveolar (4.11) at the bottom surface. Figure 12. 4.14 Tooth type height threadheight High tooth Radial distance from one thread (3.2.1) tooth (4.10) crest (4.12) to its bottom teeth (4.13) between. Figure 12. 4.15 Crest high addendum From a thread (3.2.1) tooth (4.10) crest (4.12) in which the radial distance diameters (5.8) between the to. Figure 10. 4.16 High dedendum bottom teeth From a thread (3.2.1) tooth (4.10) tooth bottom (4.13) in which the radial distance diameters (5.8) between the to. Figure 10. 4.17 Flank angle flankangle β (metric thread) In the thread type (4.4) on a flank (4.9) and the angle between the plane perpendicular to the axis of the thread between (5.12). Figure 2, Figure 3 and Figure 12. Note. inch screw threads, symmetrical thread (3.2.4), code-named the flank angle α, asymmetrical thread (3.2.5), code-named the flank angle α1 and α2. 4.18 Tooth type angle threadangle; includedangle α (metric thread) In the thread type (4.4), the angle between two adjacent flank (4.9.1) between. Figure 2, Figure 3 and Figure 12. Note. inch screw threads, symmetrical thread (3.2.4) of the tooth-type angle codenamed 2α, asymmetrical thread (3.2.5) of the tooth-type angle codenamed α1 α2. 4.19 Crest arc radius radiusofcrest In the thread axis (5.12) in the plane, crest (4.12) showed a radius of curvature of the circular arc portion. 4.20 Tooth bottom arc radius radiusofroot In the thread axis (5.12) plane, the bottom teeth (4.13) showed a radius of curvature of the circular arc portion.

5 and the thread diameter related terms

5.1 Nominal diameter nominaldiameter; nominalsize Representative thread (3.2.1) size diameter. Note 1. The fastening screw and screw drive, its large diameter (5.2) represents the size of the basic size of thread. For pipe thread, the nominal pipe size is the representative thread size. Note 2. The internal thread, with a diameter of uppercase code (D); the external thread diameter of the lowercase letter code (d). 5.2 Large diameter majordiameter D4 (metric thread) With external thread (3.2.6) crest (4.12) or internal thread (3.2.7) tooth bottom (4.13) tangent to imaginary cylindrical or conical diameter. See Figures 11 and 13. Note 1. The conical thread (3.2.3), different thread axis (5.12) of the large diameter at the position is different. Note 2. When the large-diameter internal thread (3.2.7) tooth design type (4.6) is different from the basic large diameter tooth type (4.5) on the design using the large diameter tooth type on behalf of No. D4. a thread axis. b diameter line. 13 Diameter 5.3 Trail minordiameter D1 d1 d3 With external thread (3.2.6) tooth bottom (4.13) or internal thread (3.2.7) crest (4.12) tangent to imaginary cylindrical or conical diameter. Figure 10, Figure 11 and Figure 13. Note 1. The conical thread (3.2.3), (5.12) path at a location different from the thread axis is different. Note 2. When the minor diameter external thread (3.2.6) tooth design type (4.6) on a path different from the basic tooth type (4.5) on, the design trail use on behalf of the tooth type No. d3. 5.4 BPD crestdiameter D1 Crest (4.12) tangent to imaginary cylindrical or conical diameter of the thread (3.2.1). See Figures 11 and 13. NOTE. It is the external thread (3.2.6) of large diameter (5.2) or internal thread (3.2.7) trails (5.3). 5.5 Bottom diameter rootdiameter d1 d3 D4 (metric thread) Bottom teeth (4.13) tangent to imaginary cylindrical or conical diameter of the thread (3.2.1). See Figures 11 and 13. Note 1. It is the external thread (3.2.6) trails (5.3) or internal thread (3.2.7) of large diameter (5.2). Note 2. When the large-diameter internal thread (3.2.7) tooth design type (4.6) on (5.2) is different from the size of the large diameter of its basic tooth type (4.5) on the large diameter tooth type design on the make With code D4. Note 3. When the small-diameter external thread (3.2.6) tooth design type (4.6) on (5.3) is different from the size of its small-diameter basic tooth type (4.5) on the trail on the type of tooth design makes With code d3. 5.6 Diameter cylindrical pitchcylinder An imaginary cylinder, the cylinder bus tooth thickness (6.8) by means of threaded barrel (3.2.2) and alveolar width (6.9) equal place. 5.7 Diameter cone pitchcone An imaginary cone, the cone. (3.2.3) on the tooth thickness (6.8) by a threaded cone and alveolar width (6.9) equal place. 5.8 Diameter line pitchline Diameter cylinder (5.6) in diameter or cone (5.7) bus. Figures 10 and 13. 5.9 Diameter pitchdiameter D2 d2 6.2 Alveolar pitch two-flankpitch P2 Two adjacent alveolar (4.11) corresponds to the line of symmetry of the axial distance between two points in the radial line (5.8) on. The optimum amount usually used needle or the amount of ball Measurements. Figure 16. Note. Pitch is only available for symmetric alveolar thread (3.2.4), the alveolar (4.11) line of symmetry perpendicular to the axis of the thread (5.12). 6.3 Cumulative pitch cumulativepitch PΣ Apart two or more pitch (6.1) two tooth (4.10) and the pitch between each. 6.4 The number of teeth threadsperinch (tpi) Thread (3.1) pitch (6.1) the number of the axial length of each contained 25.4mm. NOTE. This term is mainly used for inch screw threads. The number of teeth is the reciprocal value of the inch pitch. 6.5 Lead lead Ph (metric thread) L (inch screw threads) Closest two namesake flank (4.9.2) with a diameter line (5.8) intersect the axial distance between two points. See Figure 17. NOTE. Lead is a point along the corresponding axial displacement of helix rotation on (3.1.1) in diameter column (5.6) in diameter or cone (5.7). 17 Lead and lead alveolar 6.6 Alveolar lead two-flanklead Ph2 Two nearest neighbor in the same line of symmetry alveolar alveolar (4.11) in the corresponding axial distance between two points in the radial line (5.8) on. usually The optimum amount of needle use or amount of the ball is measured. See Figure 17. NOTE. alveolar lead only applies to symmetrical threads (3.2.4), the alveolar (4.11) line of symmetry perpendicular to the axis of the thread (5.12). 6.7 Lead angle leadangle Lead angle φ (metric thread) λ (inch screw threads) In diameter column (5.6) in diameter or cone (5.7) in the thread axis angle between the plane of the spiral (3.1.1) with the vertical tangent (5.12). Note 1. For metric thread, which is calculated as tanφ = Ph πd2 ; For inch system thread, which is calculated as tanλ = πd2 Note 2. conical thread (3.2.3), their different thread axis (5.12) L angular position is different. 6.8 Teeth thick ridgethickness A tooth (4.10) adjacent flank (4.9.1) with a diameter line (5.8) intersect the axial distance between two points. 6.9 Alveolar wide groovewidth A alveolar (4.11) adjacent flank (4.9.1) with a diameter line (5.8) intersect the axial distance between two points.

7 threaded engagement with related terms

7.1 Flank contact height flankoverlap; depthofthreadengagement H1 In two coaxial mating threads (3.2.1) tooth type (4.4) on its flank (4.9) coincides with the radial height portion. See Figures 11 and 18. Explanation. 1 --- internal thread; 2 --- external thread. 18 thread contact height and flank contact height 7.2 Thread contact height threadoverlap H0 In two coaxial mating threads (3.2.1) tooth type (4.4), the external thread (3.2.6) crest (4.12) to the inner diameter of the thread crest between (3.2.7) The distance, that is within the outer thread (3.2.6; 3.2.7) of the tooth-type overlapping radial height. See Figures 11 and 18. 7.3 Screwed length lengthofthreadengagement lE (10.3) contact with each other axial length of the two mating thread (3.2.1) Effective thread. Figure 15 and 19. Explanation. 1 --- internal thread; 2 --- external thread. Figure 19 is screwed assembly length and thread length 7.4 Threaded mounting length lengthofassembly lA (3.2.1) screwed the axial length of the two mating threads. Figure 19. Note. threaded mounting length allowed to contain lead thread (3.2.13) chamfering and (or) threaded closure (3.2.12). 7.5 Large diameter gap majorclearance ac1 In the design tooth type (4.6), the radially inner threaded coaxial assembly (3.2.7) tooth bottom (4.13) and the external thread (3.2.6) crest (4.12) between the distance. Figure 11. 7.6 Trail gap minorclearance ac2 In the design tooth type (4.6), the radially inner threaded coaxial assembly (3.2.7) crest (4.12) and the external thread (3.2.6) tooth bottom (4.13) between the distance. Figure 11. 7.7 Travel kinematictravel; kinematicpath Two mating thread (3.2.1) the relative axial displacement relative rotational angle of a generated. This term is often used for transmission thread. See Figure 20. a trip. b angle of rotation. Figure 20 stroke

8 with the threaded tolerance test and related terms

8.1 pitch, lead, flank angle and its diameter equivalent 8.1.1 Pitch deviation pitchdeviation ΔP Pitch (6.1) of the actual value of the difference between its basic values. 8.1.2 Alveolar pitch deviation two-flankpitchdeviation ΔP2 Alveolar pitch (6.2) of the actual value of the difference between its basic values. 8.1.3 Cumulative pitch deviation cumulativepitchdeviation ΔPΣ Within the specified thread (3.2.1) the length of the actual cumulative tooth pitch of any two (4.10) between (6.3) the value of their underlying value of the accumulated pitch The biggest difference between the absolute value of the deviation. See Figure 21. NOTE. In some cases, the length of the thread of this provision may be screwed length (7.3). For pipe thread, thread length of this provision may be 25.4mm. 21 cumulative pitch deviation 8.1.4 Lead deviation leaddeviation ΔPh (metric thread) ΔL (inch screw threads) Lead (6.5) of the actual value of the difference between its basic values. 8.1.5 Alveolar lead deviations two-flankleaddeviation ΔPh2 Alveolar lead (6.6) of the actual value of the difference between its basic values. 8.1.6 Stroke deviation kinematictraveldeviation The basic difference between the actual value of its stroke (7.7) in. 8.1.7 Cumulative lead deviation cumulativeleaddeviation ΔPhΣ Within a specified thread length, the same spiral face any two flank (4.9) and the radial line (5.8) intersects the actual axial distance between two points The basic difference between the value of its maximum absolute value of the deviation. See Figure 22. NOTE. In some cases, the length of the thread of this provision may be screwed length (7.3). For pipe thread, thread length of this provision may be 25.4mm. 22 cumulative lead error 8.1.8 Flank angle deviation flankangledeviation Δβ (metric thread) Flank angle (4.17) of the actual value of the difference between its basic values. 8.1.9 Diameter equivalent pitchdiameterequivalent By a pitch deviation (8.1.1) or lead deviation (8.1.4) and (or) flank angle deviation (8.1.8) the functional diameter (5.11) of the amount caused by the change. Measurements typically utilize thread gauge indicating the differential test. Note 1. External thread (3.2.6), wherein the equivalent diameter is positive; internal thread (3.2.7), wherein the equivalent diameter is negative. Note 2. The "equivalent diameter" can also be broken down into "pitch deviation equivalent diameter" and "flank angle deviation in equivalent diameter." 8.2 inch screw threads 8.2.1 The maximum difference alowance entity Internal thread (3.2.7) of the maximum diameter of the outer thread entity (3.2.6) corresponding to the difference between the maximum diameter of the entity. Note 1. For a clearance fit inch screw threads, the largest entity equal to the absolute value of the difference between the basic bias. Note 2. For a clearance fit inch screw threads, the biggest difference is the entity with the minimum gap between the threads (positive); for interference fit inch screw threads, the largest entity difference Is the maximum amount of thread interference fit between the (negative). 8.2.2 Tolerance code classofthread Tolerance of numbers and letters that is marked by the code, indicating the location of standard tolerance grades and thread.

9 and asymmetrical thread related terms

9.1 Bearing flank loadflank Deputy in the external thread withstand axial load flank (4......

Image

Tips & Frequently Asked Questions:

Question 1: How long will the true-PDF of GB/T 14791-2013_English be delivered?

Answer: Upon your order, we will start to translate GB/T 14791-2013_English as soon as possible, and keep you informed of the progress. The lead time is typically 3 ~ 5 working days. The lengthier the document the longer the lead time.

Question 2: Can I share the purchased PDF of GB/T 14791-2013_English with my colleagues?

Answer: Yes. The purchased PDF of GB/T 14791-2013_English will be deemed to be sold to your employer/organization who actually pays for it, including your colleagues and your employer's intranet.

Question 3: Does the price include tax/VAT?

Answer: Yes. Our tax invoice, downloaded/delivered in 9 seconds, includes all tax/VAT and complies with 100+ countries' tax regulations (tax exempted in 100+ countries) -- See Avoidance of Double Taxation Agreements (DTAs): List of DTAs signed between Singapore and 100+ countries

Question 4: Do you accept my currency other than USD?

Answer: Yes. If you need your currency to be printed on the invoice, please write an email to Sales@ChineseStandard.net. In 2 working-hours, we will create a special link for you to pay in any currencies. Otherwise, follow the normal steps: Add to Cart -- Checkout -- Select your currency to pay.

Question 5: Should I purchase the latest version GB/T 14791-2013?

Answer: Yes. Unless special scenarios such as technical constraints or academic study, you should always prioritize to purchase the latest version GB/T 14791-2013 even if the enforcement date is in future. Complying with the latest version means that, by default, it also complies with all the earlier versions, technically.