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A four-point contact ball bearing can accommodate axial loads in both directions, in combination with radial loads up to a certain level, and provides a very tight axial shaft position tolerance. The bearing also saves space, because it can be seen as the combination of two single row angular contact ball bearings into one. Therefore, it is an excellent choice in applications such as industrial gearboxes, locomotive drives and compressors.


Four-point contact ball bearings – also called QJ bearings – consist of a single piece outer ring, a radially split inner ring, a ball set and an outer ring guided cage. The ring designs show  some remarkable details . The outer ring is similar to a deep groove ball bearing design, but the raceway geometry cross section is fairly different. A deep groove ball bearing raceway is circular. A four-point contact ball bearing outer ring consists of two symmetrical raceways. Each of them has a circular shape. The two raceways intersect each other in the middle of the ring in form of a singular point. The raceways form is also called “Gothic arc”. The centres of the two raceway circles have a small off-set in axial direction. The inner ring is split into two halves and has the same design principle as the outer ring. This provides an advantage compared to the deep groove ball bearing design. The design of the outer ring raceways allows defining the contact angle (standard 35°) and the axial clearance independently. In other words it is possible to design a specific axial clearance without changing the osculation (ratio between raceway curvature and ball diameter).


A bearing with a 35° contact angle requires high raceway shoulders and such a bearing with a single piece 

inner ring cannot be assembled with a reasonable number of balls. The four-point contact ball bearing split

 inner ring design makes it possible to incorporate a maximum number of balls, only limited by the cage bar 

thickness.

Typically, there is a three-step assembly procedure:

1.the cage is inserted in the outer ring,

2.the balls are pressed into the cage,

3.the inner ring halves are inserted from each side. The inner rings are not self-retaining. To avoid the bearing

falling apart during transport and handling, a plastic insert is pushed into the bore.


Four-point contact ball bearings as standard are fitted either with a machined window-type brass cage (designation suffix MA)or an injection moulded window-type cage of polyether-etherketone (PEEK) (designation suffix PHAS) . Both cages are outer ring guided. This gives a very good guidance, enabling to increase the speed limit. The very specific design of the symmetric cage enables to incorporate a maximum number of large balls.


Applications:

1.Screw compressors

2.Turbo retarders

3.Multiphase pumps

4.Wind turbine gearboxes

5.Railway 


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SelectDownloadInquiryBearingsBasic Dimensions(mm)Basic Loading Rating(KN)Fatigue load limitSpeed ratings r/minDimensions (mm)Abutment and fillet dimensionsMass
dDBCC0Pu[kN]Reference speed[r/min]Limiting speed[r/min]d1D1r1,2ada minDa Maxra maxKG
Download PDF QJ 315 N2PHAS 75 160 37 216 200 7.8 6 300 7 500 104 131 2.1 82 87 148 2 3.9
Download PDF QJ 216 N2MA 80 140 26 146 156 6.4 5 600 8 000 95.3 120 2 77 91 130 2 1.85
Download PDF QJ 316 N2MA 80 170 39 232 228 8.65 5 000 7 000 111 139 2.1 88 92 158 2 4.6
Download PDF QJ 316 N2PHAS 80 170 39 232 228 8.65 5 600 7 000 111 139 2.1 88 92 158 2 4.6
Download PDF QJ 217 N2MA 85 150 28 156 173 6.7 5 300 7 500 100 128 2 83 96 139 2 2.25
Download PDF QJ 317 N2MA 85 180 41 250 255 8.65 4 800 6 700 117 148 3 93 99 166 2.5 5.45
Download PDF QJ 218 N2MA 90 160 30 186 200 7.65 5 000 7 000 114 136 2 88 101 149 2 2.75
Download PDF QJ 318 N2MA 90 190 43 285 305 11 4 500 6 300 124 156 3 98 104 176 2.5 6.45
Download PDF QJ 318 N2PHAS 90 190 43 285 305 11 5 000 6 300 124 156 3 98 104 176 2.5 6.45
Download PDF QJ 219 N2MA 95 170 32 212 232 8.5 4 800 6 700 120 145 2.1 93 107 158 2 3.35
Download PDF QJ 319 N2MA 95 200 45 305 340 11.8 4 300 6 000 131 165 3 103 109 186 2.5 7.45
Download PDF QJ 319 N2PHAS 95 200 45 305 340 11.8 4 800 4 800 131 165 3 103 109 186 2.5 7.45
Download PDF QJ 220 N2MA 100 180 34 236 265 9.5 4500 6300 127 153 2.1 98 112 168 2 4.05
Download PDF QJ 320 N2MA 100 215 47 345 400 13.7 4000 5600 139 176 3 110 114 201 2 9.3
Download PDF QJ 222 N2MA 110 200 38 280 325 11.2 4000 5600 141 169 2.1 109 122 188 2 5.6
Download PDF QJ 322 N2MA 110 240 50 390 480 15.3 3600 4800 154 196 3 123 124 226 2.5 12.5
Download PDF QJ 224 N2MA 120 215 40 300 365 12 3600 5000 152 183 2.1 117 132 203 2 6.95
Download PDF QJ 324 N2MA 120 260 55 415 530 16.3 3200 4500 169 211 3 133 134 246 2.5 16
Download PDF QJ 226 N2MA 130 230 40 310 400 12.7 3400 4800 165 195 3 126 144 216 2.5 7.75
Download PDF QJ 326 N2MA 130 280 58 455 610 18 3000 4000 182 227 4 144 147 263 3 19.5
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