NSK linear guide features for LIB manufacturing equipment

NSK developed the "NSK Linear GuideTM for LIB Manufacturing Equipment" and put it on the market. All metal parts of this product are free of copper and zinc, and are developed by NSK alone and contain no metal elements.

NSK linear guides are widely used in automotive manufacturing equipment, semiconductors, liquid crystal manufacturing equipment, handling robots, machine tools and other fields. NSK LIB manufacturing equipment uses linear guide rails with rechargeable battery performance. Lithium batteries are gradually replacing nickel-metal hydride batteries as one of the main development trends. In the battery manufacturing process, if metal powder is mixed into the battery, it may cause a fire accident. Therefore, in the manufacturing process, it is necessary to strictly prevent metal powder such as copper or zinc which cannot be electrolyzed in the electrolyte.

Features:

Conventional copper and galvanized parts are made of stainless steel, which prevents metal powders such as copper and zinc that cannot be electrolyzed during the manufacturing process of lithium batteries, thereby preventing fires and improving safety.

Made with clean grease (no metal)

Long-term maintenance free

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Cylinder bearing housing hole inspection and bearing matching

Bearings (tiles) must be replaced during engine overhaul. Replacing the bearing includes two stages: optional bearing and machined bearing.

1. Inspection of crankshaft bearing housing bore and matching of bearings

1. Before the bearing is matched, first check whether the bearing housing hole meets the standard. Clean the housing and cover, crankshaft and crankcase. Check whether the end face of the bearing cap is flat, and the flatness and the maximum depth of the bore should conform to the specified data.

2. As needed, place a number of gaskets (copper or steel) on both ends of the bearing cap to make the bearing seat hole cushion to a perfect circle, install the bearing cap, tighten the bolt, and measure the inner diameter of the bearing housing bore with the inner diameter gauge. And its roundness and cylindricity error. If the roundness and cylindricity error exceeds 0.05mm, the boring should be repaired according to the specified size.

3. Select the bearing according to the repair size of the crankshaft journal. The bearing thickness and its uniformity are measured by a special centimeter card. The outer diameter of the bearing should be adapted to the size of the bearing housing hole, and the thickness deviation should not exceed 0.03 mm. Tap the bearing with a metal object, such as a crisp sound, indicating that the alloy is well bonded to the bottom plate.

4. Insert the appropriate bearing into the bearing seat and cover to check whether the bearing is in close contact with the bearing seat (the degree of fit between the back of the bearing and the seat hole is not less than 85% of the contact area), whether the notch and the bearing seat are The groove of the cover is fitted, and the oil hole on the bearing is in communication with the oil passage on the seat.

5. After the bearing is in close contact with the seat hole, the edge of the two ends must be higher than the plane of the bearing seat by 0.04 to 0.06 mm, so that the fitting can be better sealed. The test method is as follows: the bearing and the bearing cover are installed, and the bolt is properly tightened until the bearing is in close contact with the base. The thickness gauge is inserted into the plane of the bearing cover, and the gap between the bearing cover and the contact surface of the cylinder seat hole is measured to 0.10. The mm thick gauge insert feels fit, and a 0.15mm thick gauge cannot be inserted as appropriate. If the clearance is too large, both ends of the bearing should be trimmed; if it is too small, a separate bearing is required.

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