Abstract
The article presents a feeding device designed for a cooling lubricant technological tool and an automatic control system for controlling the temperature mode of parts when milling. The device implements a new method of separate cooling and lubrication of the cutting area with sprayed liquid and ionized gas. To develop the device, an engineering-physical search design method is used, which makes it possible to obtain a set of possible options of technical solutions for the desired device and determine the most promising options for the design implementation. The method is based on constructing a model of the physical principle of operation using application software. The design of the new device is developed, mathematical modeling is performed, and the parameters of the transfer function of the automatic temperature control system are calculated. The proposed device can increase the efficiency of machining when milling workpieces and make a significant improvement to working conditions by reducing the content of harmful impurities in the air.
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