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INA ZKLR10352Z Lead screw support bearing
MODEL ZKLR10352Z
$244.49 Each
Prices are subject to change
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Typically Ships in: 1 day
Returnable:No
A 1
35 mm
A 2
35 mm
B 16 mm Tolerance
+0, 25
d 1
14, 7 mm
d 10 mm Tolerance
-0, 008
d 2
4, 5 mm
d a
12, 4 mm
D aa min
26 mm
D ai
22 mm
m
26 mm
n
26 mm
r min
0, 3 mm
Specifications
| d | 10 mm | Tolerance: -0, 008 |
|---|---|---|
| D | 28, 14 mm | Tolerance: +0, 03 / -0, 01 |
| H | 17, 5 mm | Tolerance: -0, 5 |
| A 1 | 35 mm | |
|---|---|---|
| A 2 | 35 mm | |
| B | 16 mm | Tolerance: +0, 25 |
| D aa min | 26 mm | |
| D ai | 22 mm | |
| d 1 | 14, 7 mm | |
| d 2 | 4, 5 mm | |
| d a | 12, 4 mm | |
| m | 26 mm | |
| n | 26 mm | |
| r min | 0, 3 mm | |
| X | Axial abutment area of outer ring |
| m | 50 g | Mass |
|---|---|---|
| C r | 7000 N | Basic dynamic load rating, radial |
| C 0r | 3900 N | Basic static load rating, radial |
| C a | 2550 N | Basic dynamic load rating, axial |
| C 0a | 2420 N | Basic static load rating, axial |
| n G Fett | 22000 1/min | Limiting speed for grease lubrication |
| M RL | 0, 12 Nm | Bearing frictional torque |
| c aL | 26 N/µm | Axial rigidity Statistically determined mean values from measurements on the complete bearing. |
| M m | 0, 0075 kg x cm^2 | Mass moment of inertia for rotating inner rings |
| 7 µm | Axial run out The axial run out data for screw drive bearing arrangements are based on the rotating inner ring. | |
| ZM10 | Designation of recommended INA locknut The locknut is used to axially locate the bearing unit. It has no influence on the bearing preload. | |
| Locknuts must be ordered separately. | ||
| M A | 6 Nm | Tightening torque Only valid in conjunction with INA precision locknuts |
| 4 | Quantity of fixing screws to DIN 912Screws not included in delivery. | |
| M4 | Size of fixing screws to DIN 912Tightening torque of fixing screws according to manufacturer's data. Screws not included in delivery. |
How do I choose the right type of bearing for my application?
Start with the load and how it’s applied. You need to know if you’re dealing with radial loads, axial loads, or a mix of both. Then look at speed, operating environment, and space constraints. For example, ball bearings are great for high speed and lighter loads, while roller bearings handle heavier loads but usually at lower speeds. If there’s contamination, moisture, or heat involved, you may need sealed bearings or specific materials. In most cases, the right choice comes down to matching load type, speed, and environment to the bearing design.
What is the difference between deep groove and angular contact ball bearings?
Deep groove ball bearings are the most common type. They’re designed to handle mainly radial loads, but they can also take some axial load in both directions. They’re simple, versatile, and used in everything from motors to conveyors. Angular contact ball bearings are built for combined loads, especially where there’s significant axial force in one direction. They’re often used in pairs and are common in higher precision or higher load applications like pumps and gearboxes. If your load is mostly radial, go deep groove. If axial load matters more, angular contact is usually the better choice.
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