RU93029862A - DEVICE FOR TRANSFORMING THERMAL ENERGY INTO MECHANICAL - Google Patents

Claims (1)

The invention relates to the field of mechanical engineering, in particular to heat engines using thermal deformation of solid heat-sensitive working elements. Technical and economic efficiency of the invention is due to the simplification of the design of the device, ease of use and expansion of functionality. The proposed device for converting thermal energy into mechanical energy contains a housing with heating and cooling zones and a thermal active element mounted in it with the possibility of movement, connected with the output link of the mechanical energy receiver. The housing is made in the form of a closed chamber with rectilinear side walls and inclined at an angle to the horizon upper and lower walls with rows of rollers located on them, carrying a thermal active element. The axes of the rollers are made common for each of the rollers along the entire length of the housing and are installed in several rows, with the upper and lower rows of rollers deployed at an angle relative to the side walls of the housing. The thermal active element with the movable part of the mechanical energy receiver is connected to an external mechanical energy receiver and is made in the form of a flexible tape made of a material with high thermal conductivity and high rates of linear expansion coefficient and tensile strength properties. The tape of the active element sequentially covers the rows of rollers and frictionally interacts with the shaft of the output link of the external receiver of mechanical energy. A rotary damper is installed at the inlet of the housing for alternating supply of heating and cooling media to the area of the thermal active element. On the shaft of the output link of the external receiver of mechanical energy, a link is mounted, connected by means of a lever system with a rotary damper. The end of the tape of the thermal active element above the zone of its interaction with the shaft of the output link of the external receiver of mechanical energy is connected with a spring-reverse multiplier. An option is provided for the relationship of the thermal active element with the variator to convert the pulse-reversed movement into unidirectional rotation.