Som vi alle ved, er mekanisk bevægelse forskellig fra mennesker. I tilfælde af høj mekanisk ydeevne er høj-hastighed og effektiv bevægelse relativt let at opnå. Men hvis den er i lav-bevægelseshastighed, vil den på grund af selve maskinens reaktionsgrad og de mekaniske deles sammensætningsegenskaber forårsage kravling ved lave hastigheder, og i dette tilfælde vil der være et fænomen, at præcisionen ikke er høj nok. Kugleskruen skal også bevare stabiliteten under bevægelsesforhold med lav-hastighed for at kunne opfylde behovene i forskellige produktionsmiljøer, så følgende to aspekter bør også være opmærksomme på:
1. Low-speed movement maintains stability
In the process of low-speed movement, it is very easy to crawl. In this case, the stability of the low-speed movement and the degree of lubrication between the guide rails must be considered. In proper low-speed movement, maintaining a certain friction force can make it easier to control the speed and effectively improve the accuracy.
2. The rigidity of the guide rail
Whether the guide rail will affect the accuracy under the external force, this must be considered. If the rigidity of the guide rail is not enough, it will directly affect the balance force, making it impossible to maintain linear motion efficiently. In order to make up for the rigidity of the guide rail, it is possible to appropriately consider increasing the size of the guide rail or other methods to increase the rigidity of the auxiliary guide rail.
The stability of the ball screw in the low-speed process is actually a way to ensure its accuracy. In the low-speed process, it is necessary to ensure that the rigidity of the guide rail can adapt to that environmental demand. In addition, during low-speed movement, proper consideration of the amount of lubricant used can effectively assist in increasing the accuracy and accuracy, so that the entire low-speed process will not affect the precision of the product.
GY offers a complete range of rails and nuts. Why not set us the linear challenge?