FR2663085A1 - Device of the engine or pump type including elements with shape memory - Google Patents

Abstract

The invention relates to a device including an element with shape memory, the change of phase of which gives rise to a deformation, and means for making the said element with shape memory undergo the change in phase. It includes means for recovering the kinetic energy resulting from the deformation.

Description

 The invention relates mainly to a device, in particular of the motor or pump type comprising at least one shape memory element.

 Materials are known, in particular copper and nickel alloys having a shape memory, a phase change causing deformation of such materials.

 According to the present invention, shape memory elements are used to transform heat energy into kinetic energy. In an alternative embodiment, heat energy is transformed into potential energy, itself transformed into kinetic energy. Kinetic energy is communicated to a solid in the case of an engine or to a liquid in the case of pumps.

 To obtain the desired phase change, the temperature of the shape memory solid element is raised and lowered alternately.

 In a first embodiment of the device according to the present invention, a cold source and a hot source applied to the shape memory element are used alternately.

 In a second embodiment of the device according to the present invention, the shape memory element moves from a hot place or exposed to radiation, to a cold place.

 The shape memory element can take a predetermined shape, for each phase. Thus, it is possible, as well to make the shape memory element follow a desired trajectory, as to carry out, for example, a support to directly recover the mechanical energy coming from the deformation. By following a predetermined path, it is possible to vary the potential energy of the device in a field. The field is for example the terrestrial gravitational field. The deformation as a result of heating of a shape memory element causes the center of gravity of the device according to the present invention to rise. Means for recovering energy, for example a hub on which the shape memory elements are mounted, recover potential energy in the earth's gravitational field by lowering the center of gravity. Advantageously, the energy is recovered in the form of rotation of the device. It is understood that the use of other fields such as, for example, an electric field or a magnetic field is not outside the scope of the present invention.

 In an advantageous variant of the device according to the present invention, two shape memory elements are used whose deformations as a result of temperature changes are complementary.

For example, a first spring is compressed while a second spring expands. Advantageously, the temperature of the phase change of the two springs is substantially equal. The means for recovering deformation energy from the two springs are placed in such a way that the mechanical energy supplied by the springs is added up.

 To obtain a continuous movement, for example a rotation, it may be advantageous to use a plurality of shape memory elements, for example, mounted on a shaft.

 The main object of the invention is a device comprising a shape memory element the phase change of which causes deformation and means for subjecting the phase change to said shape memory element, characterized in that it comprises means for recovering the kinetic energy originating from the deformation.

The invention will be better understood by means of the description below of the appended figures given as nonlimiting examples among which
- Figure 1 is an explanatory diagram of the device according to the present invention
- Figure 2 is a diagram of a first embodiment of the device according to the present invention
- Figure 3 is a diagram of a second embodiment of the device according to the present invention
- Figure 4 is a diagram of a third embodiment of the device according to the present invention
- Figure 5 is a diagram of a fourth embodiment of the device according to the present invention
- Figure 6 is a diagram of a fifth embodiment of the device according to the present invention
- Figure 7 is a diagram of a sixth embodiment of the device according to the present invention.

 In FIGS. 1 to 7, the same references have been used to designate the same elements.

In figure la, we can see a solid element with shape memory l in a first phase ç l- Under the action of heat symbolized by the arrows 2, element 1 goes into a second phase
2
The phase change, transition from T l to? 2 causes deformation as illustrated by the arrows 4 in FIG. 1b. In the example illustrated, the transition from phase? l at the phase? 2 under the action of heat
'2 2 causes a contraction of the element 1. It is understood that the use of an element, which, under the action of heat 2 would be expanded or expanded does not depart from the scope of the present invention.

 As illustrated in FIG. 1c, the element 1 while cooling, as illustrated by the arrow 3 passes below the transition temperature towards the phase w 1- We then witness the inverse deformation 5 of the deformation 4 of the figure lb. We find ourselves at the beginning of the cycle illustrated by Figure la.

 In the device according to the present invention, mechanical energy 4 and / or 5 is recovered.

 The energy recovered can, for example, be used directly, or through pumps, to pump water. The present invention is particularly useful for pumping water from wells in countries with a hot climate.

 The hot source is for example constituted by air, or directly or indirectly, by solar energy. The cold source is for example constituted by air or by pumped water. Does the present invention apply whenever there is a cold source and a hot source, the temperatures of which correspond to at least two different phases? 1 and q 2 of a shape memory element 1.

 The choice of shape memory elements is adapted to the hot and cold sources available. The shape memory element 1 has for example a rod, spiral, ellipse or epicyclic shape.

 In FIG. 2, a device according to the present invention can be seen comprising a reciprocating motor symbolized by the arrow 15 for driving a piston pump with alternating plungers 13 and 14. In the example illustrated in FIG. 2, the element 1 with shape memory is produced in the form of a coil spring. For example, the coil spring is placed inside a cylindrical tube 19 with a vertical axis. It is understood that an external arrangement of the shape memory element 1 does not depart from the scope of the invention. The shape memory element 1 rests on the one hand on a plate 18 made integral with the tube 19 and on the other hand on a shoulder 6 made integral by a plate of a vertical rod 8. The rod 8 is connected by rods 9, 20 and it to a rod 12 parallel to the rod 8. The rod 20 is secured to a pivot 10 secured to the frame of the device according to the present invention, substantially in the middle. The rod 12 is provided with two reciprocating pistons 13 and 14 of known type.

 The tube 19 is heated for example by solar energy. This heating is caused for example by direct exposure to solar radiation, by focusing, for example with mirrors or by light guiding devices comprising for example optical fibers. Element 1 relaxes under the action of heat. It enters the rod 12 via the plate 6, the rod 8, the rod 9 and the rod 11. I1 thus causes the drive of the pistons 13 and 14. We then witness the rise of the water pumped which is transferred from the cylinder 16 to the cylinder 19 according to the arrows 50, 51, 52. It then cools the element 1 which, when it retracts, causes the pistons 13 and 14 to descend. continues its way through openings made in the tray 6 according to arrow 53, for example for its food use or for irrigation. The tube 19 being continuously exposed to solar radiation heats up and the cycle begins again.

 It is understood that the device of FIG. 2 will have to be primed, for example manually, to ensure the ascent of the water to level 54 during the first useful cycle.

 In the example illustrated in FIG. 3a, two shape memory elements 1, 1 ′ are used, the first element contracting under the action of heat, the second element performing an extension. The elements 1, 1 'are for example made in the form of springs. The ends of the springs are connected to a balance 20 connected to at least one rack 21. The rack 21 ensures the rotation of pinions.

In the example illustrated in FIG. 3, the rack 21 in fact consists of a pair of rack 22, 23. A pinion 24 with axis 25 is rotated by the rack 22. A pinion 26 with axis 27 is rotated by the rack 23. The pinions 24 and 26 are provided with free wheels in opposite directions. A pinion 29 is mounted on the axis 27. The pinion 27 drives via a reversing pinion 28 a pinion 30 advantageously mounted on the axis 25 by means of a freewheel in the opposite direction to that of the pinion 24.

 Thus, independently of the direction of travel of the balance 20, two positions of which have been shown in FIG. 3a, the axis 25 always rotates in the same direction. Advantageously, a water pump fitted with a flywheel mounted on the axis 25 transforms the rotation of the axis 25 into a circular movement of substantially constant speed. The balance 20 or the rack 21 is provided with limit switches actuating mechanisms ensuring cooling (not shown in Figure 3). These are, for example, shutters preventing sunlight from irradiating the elements 1 and 1 ′ or providing spraying with cooling water.

 In FIG. 4, a rotary motor can be seen comprising bars 1 of the same length made of shape memory material. The bars 1 are regularly arranged on the periphery of a hub 31. The bars 1 undergo heating by direct or focused solar radiation and undergo cooling by plunging below the level 34 of the water contained in a tank 32.

 For example, the ends of the bars 1 bear on a support element 33 causing the hub 31 to rotate.

 Advantageously, the bars 1 are fixed to the hub 31 by means of connecting pieces 35. The connecting pieces 35 provide support for the ends of the bars 1 on the support element 33 for relaxation and their release to allow continued rotation.

 In the example illustrated in FIG. 4, the connecting pieces 35 have a shape and are articulated around an axis integral with the hub 31.

 In the example illustrated in FIG. 4, the cooling water from the bars 1 flows from the tank 32 through an opening 36 made at the bottom of the tank 32 and / or fixing the level 34 of the water.

 In an advantageous variant of the device according to the present invention, a plurality of devices of Figure 4 is coupled on the same shaft. Advantageously, the phases of rotation of the bars 1 are covered.

 In FIG. 5, an example of a motor according to the present invention can be seen comprising multiple pistons 40. In the example illustrated in FIG. 5, the engine according to the present invention comprises 6 pistons 40 regularly distributed around a crankshaft 39.

Each cylinder comprises an element 1 with shape memory capable of repelling a piston 40 connected, by means of a pivot 41 and of arm 38, to the crankshaft 39. In the upper part 36, the cylinders are heated, for example by solar energy. In the lower part, they plunge into a tank 32 and are cooled by the cooling water. It is understood that the shape of the cylinders is not necessarily cylindrical and that the use of cylinders, for example of square section, does not depart from the scope of the present invention. The pistons 40 and / or the cylinders are advantageously perforated to allow good circulation of the cooling water at the level of the shape memory element 1.

 As in the case of the device in FIG. 4, it is possible to use a plurality of the devices in FIG. 5 mounted on the same shaft.

 In FIG. 6, an engine according to the present invention can be seen with a deformable diaphragm. In FIG. 6, the shape memory element 1 directly applies a tensile force or a push on a lever 20. The lever 20 is secured to a lever 42 with which it forms a right angle.

 In Figure 6a, the diaphragm 1 is shown contracted in the process of heating. After the phase change, it lengthens. The form illustrated in FIG. 6b is obtained. In this case, the element 1 plunges into the water which ensures its cooling, the phase change and the transition to the shape illustrated in FIG. 6a.

 In FIG. 7, a pump according to the present invention can be seen comprising a chamber 45, the walls of which are produced by an element 1 with shape memory. The change of phase of the element 1 causes the variation of the internal volume of the chamber 45. The chamber 45 is for example delimited by an inlet valve 43 and an outlet valve 44. It is for example mounted on a pipe 43 .

 The reduction in the volume of the chamber 45 causes the expulsion of fluid, for example water, via the valve 44.

The increase in the volume of the chamber 45 causes the admission of water by the valve 43. The direction of advance of the water is illustrated by the arrow 56. The two extreme positions of the shape memory element 1 are illustrated in Figure 7.

 Advantageously, the cooling of the shape memory element 1 is ensured by the pumped water. For example, a pipe 47 ensures the discharge of water 48 when the internal volume of the chamber 45 decreases. Advantageously, the valve 44 is provided with a spring 46 opposing its opening. The spring 46 makes it possible to dose the quantity of water leaving by the valve 44 relative to the quantity of water 48 intended for cooling.

 It is understood that an engine comprising a chamber 45 with variable volume as well as a turbine (not shown) does not depart from the scope of the present invention.

 The invention applies to the transformation of heat energy in the form of a temperature difference, into kinetic energy communicated to a solid element or to a fluid.

 The invention applies more particularly to the production or training of solar pumps making it possible to equip wells from the Third World.

Claims (10)

 1 - Device comprising a shape memory element whose phase change causes a deformation and means for subjecting the phase change to said element in shape memory, characterized in that it comprises means (20, 31, 39) to recover the kinetic energy (4,5) coming from the deformation.  2 - Device according to claim 1, characterized in that it comprises a chamber (45) comprising walls made of a deformable shape memory material whose deformation causes a variation in internal volume of the chamber (45).  3 - Device according to claim 1 or 2, characterized in that said device is a pump.  4 - Device according to claim 1 or 2, characterized in that said device is a motor.  5 - Device according to any one of the preceding claims, characterized in that the means for recovering the deformation energy of the elements in shape memory (1) directly convert the energy of the deformation into usable mechanical energy.  6 - Device according to any one of claims 1 to 5, characterized in that the deformation of the shape memory element causes the increase of the potential energy of the device in a field and that the means (20, 31, 39) of energy recovery recover said potential energy.  7 - Device according to claim 6, characterized in that the field is the terrestrial gravitational field.  8 - Device according to any one of the preceding claims, characterized in that it comprises at least one piston (40).  9 - Device according to any one of the preceding claims, characterized in that it comprises at least one spring produced in an element in shape memory (1,1 ').  10 - Device according to any one of the preceding claims, characterized in that it comprises two shape memory elements (1) whose deformations when they are subjected to the same temperature change are complementary.