FR2812037A1 - Fluidic energy recovery device comprises movable blades, located in housing, displaced by liquid led to blades by independent pipes - Google Patents

Abstract

The energy recovery device comprises movable blades (6) displaced under the action of a liquid and a shaft rotated by the blades. The blades are located in a housing (4) and the liquid is led in the blade direction by several independent pipes (2) which emerge in the housing. The housing is closed in the pipes' emerging zone. The shaft is rotated by the blades, which engage a shaft wheel (14), in only one direction.

Description

The present invention relates to a device for recovering

tion of fluidic energy.

  Such a device for recovering fluidic energy, which in particular makes it possible to take advantage of the energy produced by a watercourse, comprises in known manner movable blades, capable of being set in motion via the

  fluid. There is also provision for at least one tree, usual-

  rotating, which is driven by the movement of the blades.

  Each tree is in relation with means making it possible to transform mechanical energy into electrical energy,

including alternators.

  The hydraulic energy recovery device also comprises means for supplying the fluid, making it possible to direct the fluid towards the blades, as well as means

  evacuation of the fluid, downstream of these blades.

  Such fluid energy recovery devices are known, the supply means of which consist of a single conduit. This type of arrangement has a drawback, in that it does not allow optimum recovery of the fluid energy, the mechanical energy transmitted towards the trees having a relatively low value. In order to overcome this drawback, the invention proposes to produce a device making it possible to recover fluidic energy in an improved manner compared to the prior art, namely that, for a given fluidic energy, the device proposed by the invention allows to recover an energy

increased mechanics.

  To this end, it relates to a device for recovering

  tion of fluidic energy, in particular from a watercourse, comprising movable blades, able to move under the action of a fluid, at least one rotary shaft capable of being set in motion via said blades, means for supplying said fluid towards the blades and means for discharging said fluid, characterized in that the blades are arranged in a housing, the supply means comprise several independent supply conduits, which open out in said housing, the housing is substantially closed, at least in the area of the outlets of the independent supply conduits, the or each rotary shaft is capable of being rotated by the blades only in a first direction, and provision is made for means for preventing any rotation of the or each shaft in a second, opposite direction

first sense audit.

  According to other characteristics of the invention: - at least in the area of the outlets of the independent conduits, the cross section of the housing and the cross section of the blades is substantially identical; - Said independent conduits extend from a tank forming a reserve of fluid; - the blades are able to move along an endless loop; - The blades are able to cooperate with at least one wheel provided with said rotary shaft; - The blades are integral with at least one belt capable of cooperating with at least one pinion provided with said rotary shaft; - the blades are made of plastic and are fixed by vulcanization on a toothed belt capable of cooperating with said pinion, and a reinforcement bracket is provided covering at least the downstream face of said blade, with reference to the flow of the fluid; said housing is annular and extends around said shaft, the conduits opening into said housing being angularly spaced from one another; - Said housing is cylindrical and extends around said shaft, the conduits opening into said housing being angularly spaced from one another; - Several trees are provided, each of which is provided with at least one blade capable of rotating around each corresponding tree; - The housing is cylindrical, said rotary shaft being coaxial with this housing, and the blades are arranged around said shaft in a helix; - provision is made for selective sealing

at least one conduit.

  The invention will be described below, with reference to the accompanying drawings, given only by way of nonlimiting examples and in which: - Figure 1 is a schematic view illustrating a fluid recovery device according to a first embodiment of the invention; - Figure 2 is a view on a larger scale, illustrating the fluid arrivals equipping the device of Figure 1; - Figures 3 and 4 are sectional views, respectively along lines III-III and IV-IV of Figure 1; - Figure 5 is a view similar to Figure 1, illustrating a fluid energy recovery device according to a second embodiment of the invention; - Figures 6 and 7 are sectional views along lines respectively VI-VI and VII-VII in Figure 5; - Figure 8A is a view similar to Figures 1 and 5, illustrating a fluid energy recovery device according to a third embodiment of the invention; - Figure 8B is an axial sectional view of the device of Figure 8A; - Figure 9 is a top view illustrating a fluid energy recovery device according to a fourth embodiment of the invention; - Figure 10 is a sectional view along line X-X in Figure 9; - Figure 11 is a view similar to Figure 9, illustrating a fluid energy recovery device according to a fifth embodiment of the invention; - Figure 12 is a sectional view along line XII-XII in Figure 11; Figures 13 to 15 are views in axial section illustrating fluidic energy recovery devices according to additional embodiments of the invention; and - Figure 16 is a partial side view, illustrating an alternative embodiment of the blades of the device

of the invention.

  FIG. 1 illustrates a device for recovering fluidic energy, which is arranged on a watercourse, the surface of which is designated by the reference 2. This device comprises a housing 4, extending substantially half above the surface 2, and substantially for another half below the surface. This housing, of elongated shape, contains several blades in the form of hollow spheres 6, which are arranged one behind the other along

  a band 8, forming an endless loop.

  The spheres 6 circulate in respectively upper 10 and lower 12 tubes and cooperate, at the longitudinal ends of the endless loop, with two wheels 14, each of which is provided with recesses allowing cooperation with corresponding spheres. In this way, the displacement of the spheres 6 along the loop induces a corresponding movement of the wheels 14 in rotation about the axis of their output shaft 18, shown in FIG. 4. Each shaft can be connected to a non alternator represented. Furthermore, a cable gland 20 is provided at the outer periphery of

this tree 12.

  As shown in Figure 1, the wheels 14 and their shaft 18 are capable of being rotated, under the effect of the movement of the blades 6, in a first direction of rotation, materialized by the arrow F. In addition, it is provided means making it possible to prevent any rotation of the wheels 14 and of the shaft 18 in the direction opposite to this arrow F. Such means are well known and can, for example, be similar to those equipping the free wheels with individual springs with coupling. This irreversibility of the rotation of the wheel 14 and the shafts 18 makes it possible to substantially cancel any back pressure. With particular reference to FIGS. 3 and 4, each sphere 6 is mounted in an articulated fashion, around a horizontal axis, on two lateral drive cables 22, while a guide element 24 is provided, made in a material with a low coefficient of friction, such as TEFLON. As shown more particularly in Figure 3, the cross section of the tubes 10, 12 corresponds

  substantially to that of the spheres 6, which move there.

  Referring again to Figures 1 and 2, the energy recovery device according to the invention comprises several conduits 26 for supplying liquid, which are made independent by means of partitions 28 separating two adjacent conduits. Each conduit opens into a corresponding cell 30 of the housing 4. A pipe 32 also allows the evacuation of the liquid, downstream of the housing 4. The device also comprises inlet 34 and outlet 36 valves, and is connected to additional pipes 38, fitted with valves, which allow air to be blown into the system. These pipes of variable sizes allow air recovery, which can be used in several ways, in particular to increase

  the speed of the liquid in the circuit.

  The operation of the device is as follows. The liquid, flowing through the conduits 26, opens into the corresponding cells 30 of the housing 4 and sets in motion the different spheres 6 along the endless loop. These spheres 6 induce a corresponding rotation of the wheels 14 around their shaft 18, which thus allows the recovery of mechanical energy at the level of this shaft, which can be converted if necessary into electrical energy, by means of an alternator. It should be noted that, in the area of the outlets of the conduits 26 in the housing 4, the latter is substantially closed, in the sense that the liquid can only be admitted into this housing through the conduits 26 and can only be removed therefrom by the piping 32. The use of such a confined space, as well as several inlet conduits 26, makes it possible to take optimal advantage of the energy of the watercourse, in order to

  recover maximum mechanical energy.

  The device provides a high volumetric input power, while the fluid output rate is relatively low. The various blades with which the energy recovery device, in accordance with the invention is equipped, act in a similar fashion to a multiplicity of pistons. In this way, the fluid admitted at the outlet of the device has a certain activity, which is to be compared with the inactive fluid discharged at the outlet of the devices of the prior art. Figures 5 to 7 show a first variant of the invention, in which the spheres 6 are replaced by

  blades in the shape of rectangular 6 'plates, seen from the front.

  These plates are fixed on two side chains 22 'extending along an endless loop. These chains cooperate with sprockets 15 capable of rotating, so as to transmit mechanical energy to their

tree 18.

  As in the embodiment illustrated with reference to Figures 1 to 4, the pinions 15 are capable of rotating, under the effect of the blades 6 ', in a single direction. However, any rotation of these pinions in the opposite direction

is prevented.

  As shown in Figure 6, the upper tubes 10 'and

  lower 12 'of the housing 4' having a rectangular section

  area, corresponding to that of the 6 ′ plates. The other mechanical elements of the device are also unchanged, compared to the first embodiment described with reference to

Figures 1 to 4.

  FIG. 8 illustrates an additional variant of the invention, taking advantage of the fluid energy of a water reserve. This reserve is contained in a tank 40, supplied by a recycling line 42. Several conduits 44, similar to those 26, extend from this tank 40, until they lead to a housing 46, on both sides. other of the latter. Plates 6 ′ driving pinions 15 are received in this housing, as in the example shown in FIGS. 5 to 7. An outlet pipe 48 is also provided, connected to line 42 and provided with a pump. 49. An expansion vessel 50 is also provided, a

  water make-up 51, as well as air make-up 52.

  Figures 9 and 10 show an additional variant.

  shutter of the invention, in which there is provided an annular housing 54 supplied by several conduits 76. The latter open into the housing 54, being angularly spaced from one another. There is also provided a discharge pipe 82, which extends radially from the housing 54. Blades 56, affecting the shape of circular plates, are allowed in the annular housing 54, being mounted around a shaft vertical central 68. When liquid is admitted through the conduits 76, the blades 56 rotate around the shaft 68, so that the latter receives a

  mechanical energy capable of being transmitted to an alterna-

  not shown. The blades 56 and the shaft 68 are capable of rotating in a single direction embodied by the

  arrow F, any rotation in the opposite direction being prevented.

  Figures 11 and 12 show an additional variant.

  shutter of the invention, in which the housing 54 'is

  substantially cylindrical in shape, its peripheral lateral edges

  ques being rounded. This housing contains blades 56 ′, mounted around a vertical axis 68 ′ and having a rectangular shape, their ends being rounded, so as to have a profile conjugate with that of the edges of the housing 54 ′ There are also provided several conduits 76 'of liquid inlet, opening at the periphery of the housing 54' while being angularly spaced from one another. As in the previous embodiment, the blades 56 'and the shaft 68' are free to pivot according to a

one way.

  The liquid is discharged through a pipe-

  rie 82, which is arranged below the housing 54 ′, but could also extend radially like the housing 54 in FIGS. 9 and 10. It should be noted that it is possible to arrange, one above the others, several energy recovery devices, similar to those

shown in Figures 9 to 12.

  In FIG. 13, the device according to the invention comprises a longitudinal housing 104, which has recesses 105 allowing the reception of several shafts 118. Each of the latter is capable of rotating around its main axis, by action a liquid on the blades 106 with which each shaft is provided. This rotation

  trees and blades operates in a single direction, material-

  read by the arrows illustrated in FIG. 13. In service, these blades move close to the walls of the recess 105. A main duct is provided

  liquid inlet in the housing 104, co-axial with it

  ci, as well as several additional conduits 126, allowing a top-up of liquid at each shaft

  118. Finally, there is provision for an exhaust pipe 132.

  Figure 14 illustrates an additional alternative embodiment of the invention, where there is provided a housing

  cylindrical 154 elongated, in which is housed a co-

  axial 168. Blades 156 extend in a helix around this shaft 168, so as to form an endless screw. The latter is able to rotate under the action of the liquid in a single direction, materialized by the arrow F. However, any rotation of this worm in the opposite direction is impossible. Several liquid inlet conduits 176 open into the housing 154, on all of its

  length. Finally, there is provision for an evacuation pipe 182.

  FIG. 15 illustrates an additional variant of the invention, in which the housing 204, which is for example analogous to that 46 in FIG. 8, is placed in communication with several conduits 226, opening out on either side of this housing . Each of these conduits 226 is provided, in the vicinity of its outlet, with a flap 228, constituting a means of selective sealing of the considered conduit. This flap 228, the opening and closing of which are controlled by the user, makes it possible to regulate the flow rate of the fluid inside the corresponding conduit and, therefore,

in housing 204.

  FIG. 16 illustrates a further variant of the invention, in which a pinion 215 is provided, cooperating with a toothed belt 222, made for example of neoprene or polyurethane. As in the previous embodiments, the pinion 215 is free to enter rotation in a single direction. Blades 206, made of plastic and having a cleat shape, are vulcanized on this belt 222. The latter is also covered by means of reinforcing layers 224, vulcanized on the flat part separating two successive blades 206. Reinforcement brackets 227 are also provided, fixed to the blades 206, for example by screwing. Each bracket covers the downstream face of the blade 206, with reference to the flow of the fluid, as well as the reinforcing layer 224, when the toothed belt 222 is driven

in a longitudinal movement.

  In all of the examples described and shown, the blades, the liquid supply conduits and the housing for receiving these blades have variable dimensions depending in particular on the energy demand, the nature of the liquid and its flow. The device is advantageously

  made from water-resistant materials. The in-

  entry and exit from the enclosed area of the accommodation have a variable size and shape, depending on the power which it is desired to impart to the recovery device

of energy according to the invention.

  In the examples described and shown, only reference has been made to the recovery of fluidic energy, in the form of hydraulic energy. However, the invention also finds its application to energy recovery

  from a gaseous fluid. You can position the device

  tif according to the invention according to different orientations,

  vertical, horizontal or inclined.

  According to another advantageous characteristic of the invention

  tion, it is possible to equip at least some of the conduits

  fluid supply by means of a non-return valve.

Claims (12)

  1. Device for recovering fluidic energy, in particular from a watercourse, comprising movable blades (6; 6 '; 56; 56'; 106; 156; 206), able to move under the action of a fluid, at least one rotary shaft (18; 68; 68 '; 118; 168) capable of being set in motion by means of said blades, supply means (26; 44; 76; 76' ; 126; 176; 226) of said fluid in the direction of the blades and of the discharge means (32; 48; 82; 82 '; 132; 182) of said fluid, characterized in that the blades (6; 6'; 56; 56 '; 106; 156; 206) are arranged in a housing, the supply means comprise several independent conduits (26; 44; 76; 76'; 126; 176; 226), which open into said housing, the housing (4; 4 '; 46; 54; 54'; 104; 154; 204) is substantially closed, at least in the area of the outlets of the independent supply conduits, the or each rotary shaft (18; 68; 68 '; 118; 168) is capable of being rotated by the blades only in a first direction (F), and means are provided to prevent any rotation of the or each shaft in a second sense, opposite to said first sense.   2. Device according to claim 1, characterized in that, at least in the area of the outlets of the independent conduits (26; 44; 76; 76 '; 126; 176), the cross section of the housing (4; 4'; 46 ; 54; 54 '; 104; 154) and the cross section of the blades (6; 6'; 56; 56 ';   106; 156) is substantially identical.   3. Device according to claim 1 or 2, characterized in that said independent conduits (44) extend to   from a tank (40) forming a fluid reserve.   4. Device according to one of claims 1 to 3,   characterized in that the blades (6; 6 '; 206) are suitable for   move along an endless loop.   5. Device according to claim 4, characterized in that the blades (6) are able to cooperate with at least one   wheel (14) provided with said rotary shaft (18).   6.- Device according to claim 4, characterized in that the blades (6 '; 206) are integral with at least one belt (22; 222) able to cooperate with at least one pinion   (15; 215) provided with said rotary shaft.   7. Device according to claim 6, characterized in that the blades (206) are made of plastic and are fixed by vulcanization on a toothed belt (222) able to cooperate with said pinion (215), and in that it a reinforcing bracket (227) is provided covering at least the downstream face of said blade (206), with reference to the flow fluid.   8. Device according to one of claims 1 to 3,   characterized in that said housing (54) is annular and extends around said shaft (18), the conduits (76) opening into said housing (54) being angularly spaced apart relative to each other.   9. Device according to one of claims 1 to 3,   characterized in that said housing (54 ') is cylindrical and   extends around said shaft (68 '), the conduits (76') open out   edge in said housing (54 ') being angularly spaced one to another.   10. Device according to one of claims 1 to 3,   characterized in that several shafts (118) are provided, each of which is provided with at least one blade (106) capable of entering into   rotation around each corresponding tree.   11. Device according to one of claims 1 to 3,   characterized in that the housing (154) is cylindrical, said rotary shaft (168) being coaxial with this housing, and in that the blades (156) are arranged around said shaft (168) according to a helix.   12. Device according to one of the preceding claims -   tes, characterized in that means (228) are provided   selectively closing at least one conduit (226).