The utility model relates to a material spreading machine, which is an automated loading and unloading technical equipment for logistics systems. It is suitable for circular containers and requires automatic layer-by-layer loading. Specifically, it is a mechanical equipment for automated circular layer-by-layer, uniform and continuous material spreading. It is especially suitable for wine enterprises to use as a steamer loading equipment.
In the wine-making industry, the distiller's grains are loaded into the steamer. The original method was to lay the materials layer by layer by hand. The workers' labor intensity was high, the working hours were long, the working environment was poor, the quality of loading into the steamer could not be guaranteed, and there was a safety hazard of high temperature scalding. For wine-making enterprises, problems such as difficulty in recruiting エ and high labor cost have gradually emerged. With the development of mechanical and electronic technologies, it has become a reality to achieve mechanized and automated layer-by-layer steaming and wine-making production, thereby saving production costs for enterprises and creating more value.
Invention content: The utility model aims to provide a central rotary automatic placing machine that can simulate the production process of layer-by-layer loading of circular containers by manual operation, in order to make up for the deficiencies of the existing technology. The placing machine replaces manual production operation with mechanical production, カロ with feeding auxiliary equipment to achieve mechanized and automated control of the entire layer-by-layer loading process. The structure adopted by the present utility model to achieve the purpose is a central rotary automatic placing machine, characterized in that it comprises a base, a feeding conveyor, a placing conveyor and a servo electrical control system, characterized in that a rotating support is provided between the base and the feeding conveyor. The rear end of the fabric conveyor is installed on the rotating support of the feeding conveyor installation bracket, and the other end is installed on the hanging rotating support under the sliding mechanism of the variable diameter crossbeam. The sliding mechanism of the variable diameter crossbeam is connected to the lower end of the crossbeam rotating mechanism, the crossbeam rotating mechanism is installed and connected to the end of the cantilever, and the front end of the cantilever is installed on the base. The said central rotary automatic placing machine is characterized in that there is a reducing lead screw in the reducing crossbeam mechanism.
The above is the structure of the present utility model. In actual use, the entire equipment is installed on a fixed workbench. The material is conveyed to the discharge of the distributor by the feeding conveyor ロ. The variable diameter lead screw crossbeam mechanism makes the discharge of the distributor ロ change in diameter in the radial direction of the receiving circular container to accommodate the material distribution on different diameters of the container. The beam rotating mechanism makes the discharge of the DISTRIBUTOR ロ move in a circular direction around the center of its receiving circular container; By the control of the drive servo motor, THE discharge of the distributor ロ rotates uniformly at different diameters around the center of the receiving circular container to achieve the purpose of continuous, uniform, layered feeding of the receiving circular container fabric. By setting the speed of the drive motor, the length of the variable diameter lead screw, the number of fabric turns per layer and the number of fabric layers in the container, the fabric loading requirements for containers of different diameters, different fabric speeds and the number of fabric layers in the container can be achieved.
The beneficial effect of the present utility model lies in that it can simulate the manual operation of uniformly loading materials layer by layer in a circular container, meet the requirements of uniformly loading materials layer by layer in a circular container, and enable the entire loading process to be mechanized and automated. Mechanical production replaces manual production operations, and auxiliary feeding equipment is added to achieve a mechanized and automated control level for the entire layer-by-layer material distribution process. The realization of mechanized and automated layer-by-layer steaming and distillation has saved production costs for enterprises and created more value.