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GIHN-K-LO Rod Ends
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ISUTAMI BEARINGS

GIHN-K-LO Rod Ends

GIHN-K-LO Rod Ends
Rod ends bearing is a spherical sliding bearing, which is composed of an inner ring with a spherical sliding sphere contact surface, an inner ring with an inner sphere and an outer ring with an inner sphere, and can bear a large load.According to its different types and structures, it can bear the radial load, the axial load or the combined load in the radial direction.Generally used for low speed swing motion, but also in a certain Angle range for tilt motion, when the supporting shaft and shaft shell hole is not concentricity is large, still can work normally.Self-lubricating joint auxiliary bearing should be used in water conservancy, professional machinery and other industries.
GIHN-K-LO Rod Ends
Rod ends bearing is a spherical sliding bearing, which is composed of an inner ring with a spherical sliding sphere contact surface, an inner ring with an inner sphere and an outer ring with an inner sphere, and can bear a large load.According to its different types and structures, it can bear the radial load, the axial load or the combined load in the radial direction.Generally used for low speed swing motion, but also in a certain Angle range for tilt motion, when the supporting shaft and shaft shell hole is not concentricity is large, still can work normally.Self-lubricating joint auxiliary bearing should be used in water conservancy, professional machinery and other industries.

GIHN-K-LO Rod Ends Size Chart

Rod Ends GIHN-K-LO

Ends No. Dimensions(mm) Basic Load Rating α Weight
d B dk C1 d2 G h1 l3 l4 d4 d6 b Screw Cr(KN) Cor(KN) (kg)
6H
GIHN-K12LO 12 12 18 11 32 M12*1.5 38 17 54 16 32 15 M5*16 10 24.5 4 0.11
GIHN-K16LO 16 16 23 14 40 M14*1.5 44 19 64 21 40 15 M6*16 17 36.5 4 0.2
GIHN-K20LO 20 20 29 17 47 M16*1.5 52 23 77 25 47 19 M8*20 30 48 4 0.35
GIHN-K25LO 25 25 35.5 22 58 M20*1.5 65 29 96 30 54 19 M8*20 48 78 4 0.62
GIHN-K32LO 32 32 43 28 71 M27*2 80 42 119 38 66 22 M10*25 65 114 4 1.15
GIHN-K40LO 40 40 33 32 90 M33*2 97 52.5 146 47 80 26 M10*25 99 204 4 2.18
GIHN-K50LO 50 50 66 40 109 M42*2 120 63.5 180 58 96 32 M12*35 156 310 4 3.96
GIHN-K63LO 63 63 83 53 136 M48*2 140 72 211 70 114 38 M16*40 253 430 4 7.23
GIHN-K70LO 70 70 92 57 155 M56*2 160 84 245 80 135 42 M16*40 313 540 4 11.1
GIHN-K80LO 80 80 105 66 170 M64*3 180 92.5 270 90 148 48 M20*50 400 695 4 15.01
GIHN-K90LO 90 90 115 72 185 M72*3 195 103 296 100 160 52 M20*55 488 750 4 19.1
GIHN-K100LO 100 100 130 85 211 M80*3 210 108 323 110 178 - M24*60 607 1060 4 25
GIHN-K110LO 110 110 140 88 235 M90*3 235 118 364 125 190 - M24*60 654 1200 4 36
GIHN-K125LO 125 125 160 103 265 M100*3 260 125 405 135 200 72 M24*70 950 1430 4 52.6
GIHN-K160LO 160 160 200 130 326 M125*4 310 138 488 165 250 82 M24*80 1360 2200 4 79

GIHN-K-LO Rod Ends Features

Rod ends bearing outer ring is installed face to face.The force acting point of the two supports falls within the span of the supports. This kind of arrangement is simple in structure, convenient in assembly and disassembly and debugging, so it is widely used. It is mainly used in the case of short shaft and low temperature rise, but it should be noted that there must be a spare clearance.The axial clearance should not be too large, which will reduce the running accuracy of the shaft.When the axial load is large and needs to be borne by more than one bearing at the same time, the wide and narrow side of the outer ring of the bearing is usually installed in series.Each bearing force point falls on the same side of the bearing, so it is called the same direction arrangement or series.When using this arrangement, attention should be paid to the structure and manufacture to ensure that each bearing can bear the load as evenly as possible.In the operation of the machine, the temperature of the general spindle or drive shaft is higher than the temperature of the adjacent parts, so the shaft will heat elongation.In order to keep the rotation of the shaft flexible, in the design of the supporting structure, in order to meet the requirements of axial positioning accuracy, but also consider the requirements of free expansion of the shaft under heat.The way of axial positioning and axial stretching are corresponding.Adjusting the bearing clearance is to control the running accuracy of the shaft.The axial position adjustment of the shaft is to meet the special requirements of some meshing drives.In the bevel gear transmission, the two bevel gears' nodal and conical vertices must coincide, so the two bevel gears' axes can be adjusted axially.
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