SU969956A1 - Thermal engine - Google Patents

Description

(5) THERMAL ENGINE

The invention relates to mechanical engineering, namely, thermal engines, and can be used to directly convert solar energy into mechanical work and drive various machines and mechanisms in hot areas, in outer space, on ships, and the like.

A heat engine is known, comprising an eccentric shaft mounted in a housing, which interacts with heat-sensitive rods 1 hinged to the housing and to the shaft.

The disadvantages of the known engine are the limited amount of transmitted loads at large dimensions, as well as the impossibility of directly converting the energy of solar radiation into mechanical energy.

The closest to the present invention is a heat engine that provides high loads with relatively small dimensions due to the introduction of wave transmission and containing an output shaft coaxially mounted in the housing with a rigid wheel that interacts with a flexible wheel attached to the housing and connected to evenly spaced heat-sensitive wheels. sternum fO mi forming a wave generator (2.

The disadvantage of this engine is the impossibility of directly converting the energy of solar radiation into mechanical energy.

, 5 The purpose of the invention is to ensure the conversion of the energy of solar radiation into mechanical energy.

Claims (3)

This goal is achieved by the fact that the casing is made with an opening open from the side of the radiation, in which the temperature-sensitive rods are radially located, and above them there is an additional screen with 396 located in the area of the last lenses, equipped with a drive of intermittent rotation. Heat-sensitive rods are made of separate parts interconnected by the aforementioned elements. Fig, 1 shows the proposed heat engine, a general view; in fig. 2 shows a view of the engine along its axis from the side of solar radiation. The scooter comprises a housing 1 with an output 2 mounted in it, attached to a rigid wheel Cy 3 interacting with a flexible Kof with a forest k, fastened in turn with housing 1. The housing 1 is made with an opening 5 open from the radiation side located in the opening 5, perpendicular to the radiation around the circumference of the housing 1 in its radial guides heat-sensitive rods 6, the number of which is 16-20 pieces. The number of rods must be even, and the pair of opposite rods is located symmetrically about the axis of the engine. The rods 6 are made of a material with a high linear expansion coefficient. The rods may be uniform or made of separate parts interconnected, as shown in FIG. 1,; elements 7 in the form of curved plates having the property of thermal memory. The rods 6 form a wave transfer wave generator, which contains a rigid wheel 3 and a flexible wheel A, Part of the thermosensitive rods 6 is shaded by a disk screen 3 mounted coaxially with the shaft 2. The screen 8 is provided with a discontinuous rotation drive 9 with a spring motor or with an electric motor powered from a battery. Opposite the remaining rods 6 in diametrically opposite apertures of the screen 8, there are collective lenses 10 with 2-3 lenses on each side. The engine works as follows. In the initial position, the flexible wheel A is not deformed, and the rods 6 have an ambient temperature and are arranged with a uniform initial gap between them and the wall of the flexible wheel. The sun's rays, falling on the collecting lens 10, are focused on heat-sensitive rods 6 x x 6, causing them to heat. At the same time, the opposing rods should be heated to the same temperature. The amount of heating of the rods installed on one side of the engine axis may be different depending on the given shape of the deformation of the flexible wheel. As a result of heating the rods 6, they lengthen and deform the flexible wheel t, putting its diametrically opposite parts into engagement with the rigid wheel 3. After that, turn the screen 8 by means of the actuator 9 by an angular step T, equal to, where 2 is the number of rods 6 , and - the number of pairs of lenses 10 of the screen 8. When the screen 8 is rotated by a step of tr, new rods 6 fall into the zone of action of the collecting lenses, and those shaded by the screen 8, cooling down and contracting, no longer affect the flexible wheel, resulting in cooling the cores of the latter th output from the engagement with the rigid wheel 3. A further rotation of the screen 8 will lead to the heating of the new rods 6 and f: to the preceding rods. at the same time, the flexible wheel k will be deformed, and the rigid wheel 3 together with the output shaft 2 will rotate at a very low speed. The use of the described heat engine allows the energy of solar radiation to be converted into mechanical work in a relatively simple way and ensures the transfer of high loads to actuated mechanisms with small dimensions of the device. Claim 1. Heat engine containing output shaft with rigid wheel coaxially mounted in housing, interacting with flexible wheel bonded to housing, connected with uniformly spaced thermoelectric rods forming a wave generator, characterized in that energy conversion of solar radiation into mechanical energy, the body is made with an opening open on the radiation side, in which the heat-sensitive