1、February 2008 Translation by DIN-Sprachendienst.English price group 7No part of this translation may be reproduced without prior permission ofDIN Deutsches Institut fr Normung e. V., Berlin. Beuth Verlag GmbH, 10772 Berlin, Germany,has the exclusive right of sale for German Standards (DIN-Normen).IC
2、S 21.100.20!$nZC“1755532www.din.deDDIN 628-4Rolling bearings Angular contact radial ball bearings Part 4: Single row, double-direction not self-locking, with double-splitinner ring (Four-point contact bearing)English translation of DIN 628-4:2008-02Wlzlager Radial-Schrgkugellager Teil 4: Einreihig,
3、zweiseitig wirkend nicht selbsthaltend, mit geteiltem Innenring(Vierpunktlager)Englische bersetzung von DIN 628-4:2008-02Roulements Roulements radial contact oblique Partie 4: Roulements une range double effet non autoportant, bague enterieurcoupe (Roulement quatre points de contact)Traduction angla
4、ise de DIN 628-4:2008-02SupersedesDIN 628-4:1993-12www.beuth.deDocument comprises pagesIn case of doubt, the German-language original shall be considered authoritative.1004.11 DIN 628-4:2008-02 A comma is used as the decimal marker. Contents Page Foreword. 3 1 Scope . 4 2 Normative references . 4 3
5、Type, designation, dimensions . 4 3.1 General. 4 3.2 Type 5 3.3 Designation . 5 3.4 Dimensions, symbols. 6 4 Material 8 5 Design 8 Annex A (informative) Explanatory notes 10 Bibliography . 10 Figures Figure 1 Without retaining slots (notation) .5 Figure 2 With retaining slots (notation) .5 Tables Ta
6、ble 1 Dimensions, symbols6 Table 2 Axial internal clearance.8 Table 3 Retaining slot width b9 Table 4 Retaining slot depth h .9 Table 5 Retaining slot symmetry E9 2 DIN 628-4:2008-02 Foreword This standard has been prepared by Working Committee NA 118-01-02 AA Kugellager und Spannlager einschlielich
7、 Teile, allgemeines Wlzlagerzubehr und Gehuse of the Normenausschuss Wlz- und Gleitlager (Rolling Bearings and Plain Bearings Standards Committee). Amendments This standard differs from DIN 628-4:1993-12 as follows: a) all axial internal clearance values have been “converted” so as not to take the m
8、easuring load into account; as a consequence the tolerances given in this edition of the standard are generally lower than those in the previous edition by the magnitude of elastic deformation of the ring and rolling element; b) in Table 2, a new class C4 has been added for the axial internal cleara
9、nce; c) values for bearings of dimension series 10 have been added; d) axial internal clearance values in all clearance classes have been harmonized as follows: 1) tolerances increase harmoniously with increasing size of bearing; 2) within each range of diameter, the range of tolerances between clea
10、rance classes is largely the same; e) the range of bore diameters has been extended from d = 240 mm to d = 260 mm; f) tolerances of retaining slots have been brought in line with ISO 20515; g) information on masses in Table 1 has been deleted; h) the normative references have been updated. Previous
11、editions DIN 622: 1922-01, 1923-12 DIN 622-1: 1928-07, 1929-04 DIN 622-2: 1927-04 DIN 623: 1923-12 DIN 628: 1939-12 DIN 628-1: 1942-08, 1959-09, 1962-03, 1973-03 DIN 628-4: 1993-12 DIN 629: 1939-12 3 DIN 628-4:2008-02 1 Scope This standard specifies dimensions and symbols for single row, not self-lo
12、cking angular contact radial ball bearings (four-point contact bearings) with double-split inner ring, which have raceways arranged so as to accommodate axial loads in either direction. It covers a selection of angular contact ball bearings (four-point contact bearings) of this design matched to the
13、 practical needs of users, taking into account the dimension plan specified in DIN 616. 2 Normative references The following referenced documents are indispensable for the application of this document. For dated references, only the edition cited applies. For undated references, the latest edition o
14、f the referenced document (including any amendments) applies. DIN 616, Rolling bearings General plan for boundary dimensions DIN 620-1, Rolling bearings Gauging methods for dimensional and running tolerances DIN 620-2, Rolling bearings Tolerances for rolling bearings Tolerances for radial bearings D
15、IN 620-6, Rolling bearings Rolling bearing tolerances Part 6: Chamfer dimension limits DIN 623-1, Rolling bearings Fundamental principles Designation, marking DIN EN ISO 683-17, Heat-treated steels, alloy steels and free-cutting steels Part 17: Ball and roller bearing steels 3 Type, designation, dim
16、ensions 3.1 General The designs shown are for illustrative purposes only; however, the dimensions of single row, double-direction, not self-locking angular contact ball bearings (four-point contact bearings) shall be as specified. Details of the inner design are not standardized. Bearings with outsi
17、de diameter D 150 mm provided with two retaining slots are available as standard. Smaller bearings are only produced with retaining slots if the relevant designation is used (i.e. suffix N2) when ordering. The symbols used shall comply with DIN 623-1. 4 DIN 628-4:2008-02 5 3.2 Type Figure 1 Without
18、retaining slots (notation) Figure 2 With retaining slots (notation) 3.3 Designation Designation of a single row, double-direction angular contact ball bearing of diameter series 2, with a bore diameter, d, of 50 mm, external diameter D = 90 mm and width B = 20 mm, without retaining slot (symbol QJ 2
19、10), tolerance class PN, axial internal clearance CN, cage at the manufacturers discretion: Angular contact ball bearing DIN 628 QJ 210 Designation of a single row, double-direction angular contact ball bearing of diameter series 0, with a bore diameter, d, of 150 mm, external diameter D = 225 mm an
20、d width B = 35 mm, two retaining slots (symbol QJ 1030 N2), tolerance class PN, axial internal clearance C3, cage at the manufacturers discretion: Angular contact ball bearing DIN 628 QJ 1030 N2-C3 DIN 628-4:2008-02 6 3.4 Dimensions, symbols Table 1 Dimensions, symbols Dimensions in millimetres r1sr
21、2sr0r1sr2sr0d D B min. b h max. Symbol d D B min. b h max. Symbol 17 40 12 0,6 3,5 2,5 0,5 QJ 203 65 100 18 1,1 6,5a5a0,5 QJ 1013 47 14 1 4,5 3,5 0,5 QJ 303 120 23 1,5 6,5 6,5 0,5 QJ 213 140 33 2,1 6,5 8,1 1 QJ 313 20 52 15 1,1 4,5 3,5 0,5 QJ 304 70 110 20 1,1 6,5 5 0,5 QJ 1014 125 24 1,5 6,5 6,5 0,
22、5 QJ 214 150 35 2,1 8,5 10,1 2 QJ 314 25 47 12 0,6 3,5 2,5 0,5 QJ 1005 75 115 20 1,1 6,5 5 0,5 QJ 1015 52 15 1 4,5 3 0,5 QJ 205 130 25 1,5 6,5 6,5 0,5 QJ 215 62 17 1,1 4,5 3,5 0,5 QJ 305 160 37 2,1 8,5 10,1 2 QJ 315 N2 30 55 13 1 3,5 3 0,5 QJ 1006 80 125 22 1,1 6,5 5 0,5 QJ 1016 62 16 1 4,5 3,5 0,5
23、QJ 206 140 26 2 6,5a8,1a1 QJ 216 72 19 1,1 4,5 3,5 0,5 QJ 306 170 39 2,1 8,5 10,1 2 QJ 316 N2 35 62 14 1 4,5a3,5a0,5 QJ 1007 85 130 22 1,1 6,5 5 0,5 QJ 1017 72 17 1,1 4,5 3,5 0,5 QJ 207 150 28 2 6,5 8,1 1 QJ 217 N2 80 21 1,5 5,5 4 0,5 QJ 307 180 41 3 10,5 11,7 2 QJ 317 N2 40 68 15 1 4,5 3,5 0,5 QJ 1
24、008 90 140 24 1,5 6,5 5 0,5 QJ 1018 80 18 1,1 5,5 4 0,5 QJ 208 160 30 2 6,5 8,1 1 QJ 218 N2 90 23 1,5 5,5 4 0,5 QJ 308 190 43 3 10,5 11,7 2 QJ 318 N2 45 75 16 1 5,5a4a0,5 QJ 1009 95 145 24 1,5 6,5 5 0,5 QJ 1019 85 19 1,1 5,5 4 0,5 QJ 209 170 32 2,1 6,5 8,1 1 QJ 219 N2 100 25 1,5 6,5 5 0,5 QJ 309 200
25、 45 3 10,5 11,7 2 QJ 319 N2 50 80 16 1 5,5a4a0,5 QJ 1010 100 150 24 1,5 6,5 6,5 0,5 QJ 1020 90 20 1,1 5,5 4 0,5 QJ 210 180 34 2,1 8,5 10,1 2 QJ 220 N2 110 27 2 6,5 5 0,5 QJ 310 215 47 3 10,5 11,7 2 QJ 320 N2 55 90 18 1,1 5,5 4 0,5 QJ 1011 105 160 26 2 6,5 6,5 0,5 QJ 1021 N2 100 21 1,5 6,5 5 0,5 QJ 2
26、11 190 36 2,1 8,5 10,1 2 QJ 221 N2 120 29 2 6,5 8,1 1 QJ 311 225 49 3 10,5 11,7 2 QJ 321 N2 60 95 18 1,1 5,5 4 0,5 QJ 1012 110 170 28 2 6,5 6,5 0,5 QJ 1022 N2 110 22 1,5 6,5 5 0,5 QJ 212 200 38 2,1 8,5 10,1 2 QJ 222 N2 130 31 2,1 6,5 8,1 1 QJ 312 240 50 3 10,5 11,7 2 QJ 322 N2 DIN 628-4:2008-02 7 Ta
27、ble 1 (concluded) r1sr2sr0r1sr2sr0d D B min. b h max. Symbol d D B min. b h max. Symbol 120 180 28 2 6,5 6,5 0,5 QJ 1024 N2 180 280 46 2,1 10,5 11,7 2 QJ 1036 N2 215 40 2,1 10,5 11,7 2 QJ 224 N2 320 52 4 10,5 12,7 2 QJ 236 N2 260 55 3 10,5 11,7 2 QJ 324 N2 380 75 4 10,5 12,7 2 QJ 336 N2 130 200 33 2
28、 6,5 8,1 1 QJ 1026 N2 190 290 46 2,1 10,5 11,7 2 QJ 1038 N2 230 40 3 10,5 11,7 2 QJ 226 N2 340 55 4 10,5 12,7 2 QJ 238 N2 280 58 4 10,5 12,7 2 QJ 326 N2 140 210 33 2 6,5 8,1 1 QJ 1028 N2 200 310 51 2,1 10,5 12,7 2 QJ 1040 N2 250 42 3 10,5 11,7 2 QJ 228 N2 360 58 4 10,5 12,7 2 QJ 240 N2 300 62 4 10,5
29、 12,7 2 QJ 328 N2 150 225 35 2,1 6,5 8,1 1 QJ 1030 N2 220 340 56 3 10,5 12,7 2 QJ 1044 N2 270 45 3 10,5 11,7 2 QJ 230 N2 400 65 4 10,5 12,7 2 QJ 244 N2 320 65 4 10,5 12,7 2 QJ 330 N2 160 240 38 2,1 8,5 10,1 2 QJ 1032 N2 240 360 56 3 10,5 12,7 2 QJ 1048 N2 290 48 3 10,5 12,7 2 QJ 232 N2 440 72 4 12,5
30、 15 2,5 QJ 248 N2 340 68 4 10,5 12,7 2 QJ 332 N2 170 260 42 2,1 10,5 11,7 2 QJ 1034 N2 260 400 65 4 10,5 12,7 2 QJ 1052 N2 310 52 4 10,5 12,7 2 QJ 234 N2 360 72 4 10,5 12,7 2 QJ 334 N2 rsSingle radial chamfer dimension. aNot applicable to bearings having a contact angle of less than 35. DIN 628-4:20
31、08-02 4 Material Balls and rings shall be made from ball and roller bearing steels as in DIN EN ISO 683-17. The material of the cage shall be at the manufacturers discretion or subject to agreement, with due consideration being given to DIN 623-1. 5 Design Tolerances shall be as specified in DIN 620
32、-2. Chamfer dimensions: Maximum values as specified in DIN 620-6. The cage design shall be at the manufacturers discretion or subject to agreement, with due consideration being given to DIN 623-1. Gauging methods for dimensional and running tolerances shall be as specified in DIN 620-1. Mass: Becaus
33、e cage design and cage material vary depending on the manufacturer, no information on mass is provided. Axial internal clearance shall be as specified in Table 2. Table 2 Axial internal clearance Axial internal clearance m d mm C2 CN C3 C4 min. max. min. max. min. max. min. max. 18 15 65 50 95 85 13
34、0 120 165 18 40 25 75 65 110 100 150 135 185 40 60 35 85 75 125 110 165 150 200 60 80 45 100 85 140 125 175 165 215 80 100 55 110 95 150 135 190 180 235 100 140 70 130 115 175 160 220 205 265 140 180 90 155 135 200 185 250 235 300 180 220 105 175 155 225 210 280 260 330 220 260 120 195 175 250 230 3
35、05 290 360 8 DIN 628-4:2008-02 Limit deviations for retaining slots: Table 3 Retaining slot width b Dimensions in millimetres Diameter series 0,2 and 3 Deviations bsb Upper Lower 3,5 4,5 5,5 +0,2 0 6,5 8,5 10,5 +0,4 0 12,5 15,5 +0,6 0 bsSingle retaining slot width Table 4 Retaining slot depth h Dime
36、nsions in millimetres Diameter series 0 Deviations hs2 and 3 Deviations hsh Upper Lower Upper Lower 2,5 3 3,5 4 5 6,5 8,1 10,1 11,7 +0,5 0 +1 0 12,7 15 +1,4 0 +1,4 0 20 +2 0 +2 0 hsSingle retaining slot depth Table 5 Retaining slot symmetry E Dimensions in millimetres D E max. 290 0,2 290 0,4 9 DIN
37、628-4:2008-02 10 Annex A (informative) Explanatory notes The external dimensions of the four-point contact bearings conform to ISO 15. The dimensions of retaining slots and their limit deviations are as specified in ISO 20515. Bibliography DIN 628-1, Rolling bearings Angular contact radial ball bear
38、ings Part 1: Single row self-locking DIN 628-3, Rolling bearings Angular contact radial ball bearings Part 3: Double row DIN 628-5, Rolling bearings Angular contact radial ball bearings Part 5: Double row, with spacer balls DIN 5418, Rolling bearings Dimensions for mounting DIN 5425-1, Rolling beari
39、ngs Mounting tolerances General guidelines DIN ISO 76, Rolling bearings Static load ratings DIN ISO 281, Rolling bearings Dynamic load ratings and rating life ISO 15, Rolling bearings Radial bearings Boundary dimensions, general plan ISO 20515, Rolling bearings Radial bearings, retaining slots Dimensions and tolerances
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