RO128652A2 - Solar motor - Google Patents

Abstract

The invention relates to a solar motor with limited linear motion, made on the solar-thermal-mechanical conversion principle. According to the invention, the solar motor consists of some modules (M1, M2, M3 and M4) which are mounted on some guides (1 and 2), mechanically interacting with one another, each of the modules (M1, M2, M3 and M4) consisting of a Bourdon-type tube (3), filled with a thermally active medium (4), represented by paraffin, connected, through a connection pipe (5), to a spherical recipient (6), filled with paraffin and located in the focus point of a parabolic-type concentrator (7), by means of a supporting thermally insulating leg (8), the recipient (6) and the concentrator (7) being mounted on a support (9) which is fastened or slides on the guides (1 and 2), each of the modules (M1, M2, M3 and M4) being provided on a support (9) with a pin (10), having a roll (11) at the upper extremity, the summed up motion of the four modules (M1, M2, M3 and M4) being transmitted to the element actuated by means of a mobile rod (12), supported into some supporting plates (13 and 14) and some spacing pieces (15 and 16), the mobile rod (12) being brought back into the initial position by a spring (17).

Description

The invention relates to a solar motor with limited linear displacement, made on the principle of helio-thermo-mechanical conversion.

In order to achieve a linear solar motor with limited displacement, a solution is known (CERNOMAZU, D .; GRAUR, A .; MANDICI, L. Electric motor with limited displacement. Patent RO 122946 Bl, OSIM Bucharest.) consisting of several thermomechanical converters with paraffin and piston, placed one after the other and thermally excited by a battery with Peltier elements, powered by a panel with photovoltaic cells.

The solution described has the following disadvantages:

it is relatively complicated;

has unsatisfactory operational safety.

The technical problem solved by the invention consists in the conversion of solar energy into a linear displacement using simple and reliable heliothermal actuators.

The solar motor, according to the invention, removes the mentioned disadvantages, in that it consists of a group of helio-thermo-mechanical converters that interact with each other, sliding on some guides, and where each helio-thermo-mechanical converter consists of a Bourdon tube connected to a tank filled with paraffin which, in turn, is placed in the focus of a parabolic-type concentrator.

The invention has the following advantages:

constructive simplicity;

high reliability.

The following is an embodiment of the invention in connection with Figure 1 and Figure 2 which are as follows:

CV- 2 Ο 1 1 - Ο 1 1 6 3 - 1 6 -11- 2011 fig. l an overview of the solar motor;

Fig. 2 - a detail on the interaction of thermomechanical converters with paraffin.

The solar motor, according to the invention (fig. 1), consists mainly of some thermomechanical modules M1, M2, M3 and M4, of which the module M1 is fixed and the others are mobile sliding on some guides 1 and 2, fixed to one from the extremities of the body of the module Ml. Each of the thermomechanical modules previously invoked consists (fig. 1, fig. 2) of a Bourdon tube 3, made of brass and filled with a thermo-active medium 4, represented by paraffin. The tube 3 communicates by means of a connecting pipe 5, with a spherical container 6, placed in the focus of a parabolic type concentrator 7.

The container 6 is fixed by means of a thermal insulation support leg 8, fixed to a support 9, also made of a thermal insulation material. in the case of the module M1, the thermal insulation support 9 is immobile, having the role of fixing two guides 1 and 2, on which the other three modules M2, M3 and M4 slide, by means of their own thermal insulation supports.

Modules M1, M2, M3 and M4 interact with each other pushing each other. For the mobile modules M2, M3 and M4 this is possible by means of a pivot 10, fixed by screwing, to the movable support 9 and bearing, at the upper end, a roller 11 consisting, in fact, of a radial ball bearing. In this way, the deformation of the flexible tube caused by the thermal expansion of the paraffin and converted into a displacement is transmitted to the next module. As a result, the combined movement of the four modules is transmitted to a movable rod 12 supported by support plates 13 and 14, spaced apart by means of spacers 15 and 16. The movable rod 12 is returned to the initial position by means of a spring 17.

The solar motor, according to the invention, can be reproduced with the same characteristics and performances whenever necessary, which is an argument in favor of compliance with the criterion of industrial applicability.

Claims (2)

claims 1. Solar motor, made on the principle of helio-thermo-mechanical conversion, characterized in that it consists mainly of thermomechanical modules (Ml), (M2), (M3) and (M4) where the former is fixed , serving as a support for the guides (1) and (2), on which the other modules considered movable slide and where the summed movement of the modules is transmitted to the actuated element by means of a movable rod (12) supported on support plates (13) and ( 14) and through spacers (15) and (16) and where the movable rod is returned to its original position by means of an antagonistic spring (17). Motor according to claim 1, characterized in that each module consists of a Bourdon tube (3), filled with a thermo-active medium (4) represented by paraffin and which tube is connected, by a pipe (5) to a spherical container (6) filled with paraffin and placed in the focus of a parabolic type concentrator (7) by means of a thermally insulating support leg (8), both forming a common body with a support (9) which slides on some guides, being provided with a spur (10), which carries, at the upper end, a roller (11) through which the deformation of the Bourdon tube corresponding to a module is transmitted to the neighboring module.