Selection criteria for bearing clearance
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Selection criteria for bearing clearance
Source: China Bearing Network Time: 2014-09-04
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1. Select tight cooperation; large temperature difference between inner and outer ring, demand conflict conflict torque and deep groove ball bearing accept large axial load or need to improve the function of centering; large clearance group should be used.
2. When the rotation precision demand is high or the axial displacement needs to be strictly restricted; a small clearance group should be selected.
Second, the elements related to the play:
1. Cooperation between bearing inner ring and shaft.
2. Cooperation between bearing outer ring and outer casing hole.
3. The effect of temperature.
Note: The reduction of radial clearance is related to the practice of cooperative parts, the size of the excess interference, the size of the shaft diameter, and the wall thickness of the shell hole.
1. The practical useful excess (inner circle) should be: â–³ dy = 2/3 â–³ dCG * â–³ d is the nominal interference; G * is the level of the interference cooperation.
2. The practical useful excess (outer ring) should be: â–³Dy = 2/3â–³DCG* â–³D is the nominal interference; G* is the flattening scale of the interference cooperation.
3. The heat generated will cause the internal temperature of the bearing to rise; then the swelling of the shaft, the bearing housing and the bearing parts will increase. The clearance can be increased or decreased. 馊 [鲇谥岷 å²¢ å²¢ å²¢ å²¢ 牟 牟 约 约 约 约 约 约 约 约 约 约 约Brother Сèƒè€ƒè€ƒæ¶žå¥ˆéœ²å¿ç”“.
Third, the calculation formula of the clearance:
(1): Impact of cooperation 1. Bearing inner ring and steel solid shaft: â–³j = â–³dy * d/h
2. Bearing inner ring and steel hollow shaft: â–³j =â–³dy * F(d)
F(d) = d/h * [(d/d1)2 -1]/[(d/d1)2 - (d/h)2]
3, bearing outer ring and steel solid shell: â–³ A = â–³ Dy * H / D
4, bearing outer ring and steel thin-walled shell: â–³ A = â–³ Dy * F (D)
F(D) = H/D * [(F/D)2 - 1]/[(F/D)2 - (H/D)2]
5, bearing outer ring and gray cast iron shell: â–³ A = â–³ Dy * [F (D) C0. 15 ]
6, bearing outer ring and light metal casing: â–³ A = â–³ Dy * [F (D) C0. 25 ]
Note:
â–³j - the amount of expansion of the inner ring raceway rim diameter (um).
â–³ dy journal has a useful interference (um).
d -- bearing inner diameter nominal scale (mm).
h -- inner ring raceway rim diameter (mm).
B -- bearing width (mm).
D1 -- hollow shaft inner diameter (mm).
â–³A - the shortening of the diameter of the outer ring raceway rib (mm).
â–³Dy - the hole diameter of the shell is practically useful for interference (um).
H -- outer ring raceway rib diameter (mm).
D -- nominal diameter (mm) of bearing outer ring and housing hole.
F -- outer diameter of the housing housing (mm).
(2): Effect of temperature △T = Гb * [De * ( T0CTa )Cdi * ( TiCTa)]
The Гb is the linear expansion coefficient; the bearing steel is 11.7 *10-6 mm/mm/ 0C
De is the bearing outer ring raceway diameter; di is the bearing inner ring raceway diameter.
Ta is the ambient temperature.
T0 is the bearing outer ring temperature; Ti bearing inner ring temperature.
Fourth, the relationship between axial clearance and radial clearance:
Ua = [4(fe + fiC1) * Dw * UrCUr2 ] 1/2
Because the radial clearance Ur is small, Ur2 is very round.
So Ua = 2 * [(fe + fiC1) * Dw * Ur ] 1/2
In the meantime, fe is the curvature coefficient of the outer ring groove; fi is the curvature coefficient of the inner ring groove; Dw is the diameter of the steel ball.
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