RU2013673C1 - Roller bearing - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: bearing has conical rollers placed in bearing races. Large diameter of rollers is found from equation given in description of invention. EFFECT: improved design. 3 dwg

Description

 The invention relates to mechanical engineering, and more particularly to devices of roller bearings.

 Known roller bearings and the method of choice.

 The purpose of the invention is the provision of reducing friction in roller bearings, increasing the speed of rotation of the bearing.

= d

(1+

cosα).This is achieved by the fact that the roller bearings containing two rings, between which are placed tapered rollers having smaller and larger diameters at the ends of the lengths of the rollers moved along the raceways with smaller and larger diameters, the larger diameter of the roller being made larger than the smaller diameter by the length ratio roller by the smaller diameter of the track, multiplied by the cosine of the tilt of the axis of the rollers to the axis of the bearing, and is determined by the formula:
d

= d

(1+

cosα).

In Fig. 1, a thrust bearing with tapered rollers is shown; in FIG. 2 - angular contact bearing with tapered rollers located at an angle of 45 ^about ; in FIG. 3 - angular ball bearings with conical rollers, angled ⁶⁰ ° to the bearing plane.

 The roller bearing contains rings 1 and 2, between which taper rollers 3 of a thrust bearing are placed in the raceways, having smaller 4 and larger 5 diameters at the ends of the length 6 of the roller. The rollers 3, rotating around the axis 7, move along the tracks, having a smaller diameter 8 and a larger diameter. The roller bearing may also be radial with cylindrical rollers 9, i.e., with tapered rollers whose taper angle is zero. Roller bearings are also radially thrust, in which the rollers 10 have an intermediate taper, and the thrust roller bearings 3 have the greatest taper.

 Roller bearings are installed on the shaft 11 of the machine or mechanism with one ring 1 or 2, and the second ring 2 or 1 is installed housing 12, which is strengthened by flanges 13 and 14.

 Roller bearings work by rolling rollers 3, 9, 10 along the raceways of rings 1 and 2, thereby reducing the rotation resistance of the interface units of machine parts or mechanisms.

The method of calculating the parameters of a roller bearing is made relative to the inclination of the axis 7 of the rollers 3, 9, 10 to the bearing plane or to its axis 15, determined by the angle of inclination 16. Depending on the angle of inclination 16, roller bearings are distinguished: when the angle of inclination is zero, the roller bearing consider stubborn; when the angle of inclination is equal to from zero to 45 ^about , the roller bearing is considered radial; when the angle of inclination is from 45 to 90 ^about - the roller bearing is considered angular contact, and when the angle of inclination of the axis 7 to the axis of the plane of the bearing 15 equal to 90 ^about - the roller bearing is considered radial.

 First, the calculation is made by choosing a smaller diameter of 4 rollers, their length 6, a smaller diameter 8 of the track, and also determine the angle 16 of the inclination of the axis 7 of the rollers 3, 9, 10 to the axis 15.

где d_p2 - больший диаметр 5 роликов 3 и 10;
d_p1 - меньший диаметр 4 роликов 3 и 10;
Н - длина 6 роликов 3 и 10;
D - меньший диаметр 8 дорожки катания;
α - угол наклона 16 оси 7 к оси 15.According to well-known formulas and relations, depending on the purpose of the load and the characteristics of the bearing unit, a larger diameter of the rollers 3 and 10 is determined by the formula:

where d _p2 is the larger diameter of 5 rollers 3 and 10;
d _p1 is the smaller diameter of the 4 rollers 3 and 10;
H - length of 6 rollers 3 and 10;
D - smaller diameter 8 of the track;
α is the angle of inclination 16 of the axis 7 to the axis 15.

 The angle of inclination of the rollers 10 and 3 can be adopted and additional with respect to the angle 16, since the angle of inclination can be determined relative to the Central axis of the bearing, then the cosine is replaced by a sine in the formula.

 The tapered rollers 10 and 3 selected by the method will have the least rotation resistance, since there are no sliding rollers relative to the raceways.

 The proposed device and method for determining the parameters of the roller bearings will find application in thrust bearings and angular contact or angular contact bearings, which will increase the speed of rotation at the same loads as known.

Claims (1)

ROLLER BEARING containing tapered rollers located in the raceways of the rings, characterized in that, in order to increase reliability by eliminating the slipping of parts of the rollers relative to the raceways, the larger diameter of the rollers is determined by the formula
d

= d

(1+

cosα),
where d _p2 is the larger diameter of the roller;
d _p1 is the smaller diameter of the roller;
H is the length of the roller;
D is the smaller diameter of the raceway;
α is the angle of inclination of the axis of the roller.

Images