FR3037326A1 - CONVEYOR BELT - Google Patents

Abstract

The invention relates to a conveyor belt acting as a conveyor characterized in that it forms an apparatus for transforming the energy potential of the movement of objects into electrical energy, the entire constituent device; a delimited and wired strip providing a pickup surface from drums and rotary turbines, each drum forming a turbine, said apparatus being installed in a position in which all the assembled apparatuses form an electric production surface whose power varies according to their positioning as well as the dimensions, weight and speed of movement of objects.

Description

The present invention relates to a conveyor belt constituting a rotary drum and turbine apparatus for generating electricity by sensing and recovering the energy generated by the object displacement and to a conveyor belt kit (s). (s) rotary drum (s) and turbine (s), as well as the method of electricity generation and management of this band and its use. In particular, the invention relates to a kit of conveyor belt (s) drum (s) and turbine (s) rotating (s) forming a flat conveyor 10, rectilinear and / or curvilinear. The Drum (s) and Turbine (s) Conveyor Belt Kit (s) is designed for the energy, material handling and building construction sectors. It could also be used to produce electricity from the movement of wind or water. The present invention relates to a conveyor belt acting as a conveyor characterized in that it forms an apparatus for converting the energy potential of the movement of objects into electrical energy, the entire constituent device; a delimited and wired strip providing a pick-up surface from rotating drums and turbines, each drum forming a turbine, said apparatus being installed vertically, obliquely or horizontally depending on the direction of movement of the objects transported to a position in which all assembled devices form an electrical production surface whose power varies according to its positioning and the dimensions, weight and speed of movement of objects. Such a device would also make it possible to use the conveyor belts as wind turbines or tidal turbines intended to capture the energy of the wind or water mass flows. In the field of transport and handling, it is common practice to install 3037326 2 conveyor belts, particularly in logistics centers and industries, to ensure the continuous movement of goods. These bulky assemblies and their installation consume a lot of energy for transporting and storing objects or materials. Likewise, it is not possible to recover the energy generated by the movement and storage of objects and goods. Differently, in the field of energy, it is common to manufacture small wind turbines or turbines to install on the roofs of buildings or riverside. These turbines are generally designed independently of other uses, industrial, logistic or commercial (handling, manufacture and sale of products ...). The object of the invention is to propose a rotary drum and turbine apparatus constituting a conveyor belt for simultaneously facilitating the transport of goods and recovering the energy potential of the gravitational movement of objects in order to produce electricity. SUMMARY OF THE INVENTION To this end, the object of the invention is an apparatus with rotary drums, characterized in that it comprises at least one turbine conveyor belt, forming a flat part and serving as support for the displacement of objects. This device of variable power and size can also constitute a kit in which, are arranged in one or more conveyor belts of rotary drums, each drum, cylindrical, solid or perforated, being intended to receive the movement of goods and where appropriate the flow of wind and water. In this embodiment, the conveyor belt is composed of rigid sections arranged at its periphery and able to ensure the fixing of several bands. Each drum forming a turbine is rotatable and independent of the rigid sections constituting in the thickness and at the ends of each drum a fixing and assembling element. In any embodiment, the turbines are non-definitively fixed to the rigid sections so as to constitute rotatable, retractable elements. Likewise, according to any embodiments, the rigid profiles comprise fastening systems adapted to the assembly of several cabled devices and to their connection to the entire conveyor belt device. Another object of the present invention is to provide a kit of rotating drum apparatus (s) characterized in that said turbines substantially defining a cylinder are covered with a rubber band or variable thickness capable of capturing friction when the goods are moving.

Advantageously, the apparatus can produce electricity by channeling the flow of movement of objects, wind or water. The present invention also relates to the use of a kit of apparatus (s) rotating drum (s) according to one of the above characteristics for the handling and production of electricity. Embodiments: According to a first embodiment, the subject of the invention is a conveyor belt kit module, comprising at least one support forming a first band and integrating hollow volumes contained between drums, said drums juxtaposed and distributed over the support constituting a strip intended to be assembled with other strips in such a way as to form panels of bands of variable size, characterized in that each band corresponds to a turbopane consisting of at least two drums forming a system of turbines and designed to use the displacement force of an object and transmit the motion by means of a shaft connected to an alternator, the movement and movement of objects thus being transformed into another form of energy.

3037326 4 Drum-turbines, made of metal, plastic, composite or similar materials, are distributed horizontally and fixed to a rigid pivot. The flat perforated turbopaniel, forms a surface for gripping displacements in which alternating drum-turbines and empty intermediate spaces 5 positioned at any width and capable of channeling the flow of goods, the whole arrangement of drums-turbines being suitable. to amplify the effects of friction of the goods on the entire kit module.

In a second embodiment, each turbopanel comprises at least two drums-turbines provided with planar lamellae and inscribed in a substantially star-shaped shape. In a third embodiment not illustrated, the turbopanel module integrates at least two drums comprising at least two curved blades forming buckets and delimiting a hollow volume. In a fourth embodiment not illustrated, the drum-turbine is constituted by spaced and spaced lamellae delimiting for each a hollow intermediate space. Finally, in a fifth embodiment not illustrated, the drum-turbine comprises substantially twisted blades and helical and organized around a central pivot.

According to these embodiments, the drum-turbine is rotatable and independent of the rigid sections to promote their maintenance, adjustment or replacement.

To form sets of kits, the cable strips are attached to each other in horizontal, vertical or oblique positions to facilitate the installation of energy gripping surfaces over great heights.

Likewise, according to any embodiment, the rigid sections of each conveyor belt forming a turbopanel are suitable for the assembly of several wired turbines and for their connection. Another object of the invention relates to a kit of conveyor belt (s) drum (s) and rotary turbine (s), characterized in that the drum-turbines comprise slats defining a capture surface movements of objects, wind or bodies of water. Advantageously, the apparatus can produce electricity either by directing the movement of goods or by channeling the flow of wind and water. It is another object of the present invention to provide a method of generating electricity from a conveyor belt by providing dynamic storage of objects for gravitationally moving on driving drums-turbines constituting an apparatus for generating power. 'electricity. Similarly, the power generation method of a conveyor belt makes it possible to produce electricity from the movement of wind or water bodies.

The invention also relates to a method of managing a conveyor belt in which the conveyor belt is able to maintain the movement of objects to ensure the regular production of electrical energy. The conveyor belt is arranged to hold a large number of wired and connected drums-turbines connected to an alternator. Finally, the invention aims to use a conveyor belt for the development of a source of electricity production in industries, logistics centers, distribution or sorting. Likewise, it allows the development of a source of electrical power in outdoor spaces exposed to the wind, in rivers, water supply channels, dams or underwater areas. DETAILED DESCRIPTION OF THE INVENTION The invention will be better understood, and other objects, details, features, and advantages thereof will become more apparent in the following detailed explanatory description of several embodiments. Particularly preferred currently, given solely for illustrative and not limiting, with reference to the accompanying schematic drawings in which: - Figure 1 is a sectional view of a conveyor belt and its drums-turbines; - Figure 2 is a side view of a conveyor belt highlighting the rigid pivots, rigid profiles, the wiring system and the alternator; Figure 3 is a plan view of a turbopane conveyor belt made up of at least two drums-turbines; FIG. 4 is a side view of a conveyor belt module with moving goods; - Figure 5 is similar to Figure 4, the module being inclined; FIG. 6 is a profile view showing the movement of a commodity between at least two conveyor belt modules arranged opposite one another and constituting a vertical column; - Figure 7 is a sectional view of another embodiment of a conveyor belt, the drum-turbines being constituted by slats 20 distributed substantially in a star; - Figure 8 is a side view of the variant shown in Figure 7, the conveyor belt being provided with an alternator; Figure 9 is a plan view of a conveyor kit forming substantially square turbopanes, the assembly forming a flat gripping surface; - Figure 10 is a sectional view of a kit formed from turbopanels arranged vis-a-vis and spaced apart in order to promote the movement of objects between the two turbopanels; Figure 11 is a plan view of a conveyor belt assembly forming turbopanes comprising slatted drums. In Figure 1, there is shown a conveyor belt (1) in section. The conveyor belt forming a turbopane (1) comprises a rigid section (2) intended for the installation of drum-turbines (3) able to produce energy when passing objects against drums-turbines made of suitable materials. of metal, plastic, wood or rubber type or 3037326 7 equivalent. The substantially cylindrical drum turbines are attached to a shaft (4), retractable and connected to the rigid section (2). In the embodiment shown in this figure, the assembly, once mounted, forms an electric turbopower alternating drums and hollow spaces (7).

In FIG. 2, the rigid profile (2) makes it possible to stiffen and stabilize the conveyor belt forming a turbopanel (1) at the same time as it makes it possible to fasten a plurality of strips together. The cabling system (5) integrated in the rigid section (2) allows the connection of the turbine drums (3) and of several turbopanels (1) to at least one alternator (6). Note that the drum-turbines (3) do not include slats. In this first embodiment, the drums are full. The smooth surface of the drum-turbines thus facilitates the movement of the goods in a horizontal, vertical or oblique position. If desired, a rubber, plastic or equivalent film may cover each drum-turbine (3). FIG. 3 shows a conveyor belt forming a turbopane (1) comprising a rigid section (2) consisting of at least two drum-turbines (3) made of plastic, metal or rubbery material or equivalent, arranged horizontally and fixed to a rigid shaft (4) distributed between the rigid sections (2). In the embodiment shown in this figure, the shaft (4) is optionally retractable and independent of the rigid section (2). The module integrates a wired device (5) connected to an alternator (6).

The cables (5) of the device make it possible to connect several conveyor belts (1) forming turbopanels or alternating the turbines (3) and hollow spaces (7). In order to form module kits, these panels (1) are installed next to each other and fixed via the rigid profiles (2). The movements of the objects are effected in such a way as to cause the rotation of the drums-turbines (3) by friction against their smooth walls and / or their lamellae. Figures 4 to 6 show different modes of positioning of electric turbopanels (3). Indeed, moving objects (9) can be placed horizontally, obliquely or vertically against at least one turbopane (3) forming a flat and straight wall intended to allow the movement of said objects. The weight, shape and dimensions of each object can impact and change the rotational speed of the drum-turbines (3) during the passage of objects. Likewise, when the turbopanels are arranged obliquely, the slope favors the speed of movement and the movement of the objects (9). The vertical arrangement shown in Figure 6 highlights two turbopannels (3) installed vis-à-vis to create recessed columns adapted to the passage of objects (9) and their vertical or oblique movement. In this case, the gripping surface is larger and the power production capacities higher. In Figure 7, there is shown a conveyor belt (1) in section. The conveyor belt forming a turbopane (1) comprises slats (12) substantially organized in a star pattern and attached to a rotation shaft (4). In this embodiment, all drums-turbines (3), where appropriate retractable is connected to a wired network integrated to the conveyor belt. In this variant, the hollow space (7) formed between the drum-turbines (3) varies in its dimensions and makes it possible to regulate the speed of movement of the objects but also the speed of the wind or the marine currents when it is to use the device to constitute tidal turbines or wind turbines. The slats (12) are then pushed in their extreme part by objects, wind or water. FIG. 8 illustrates, on the side, the slatted turbine drums (3) connected to an alternator (6). In Figure 9, several turbopanels (1) are grouped and attached to each other to form gripping surfaces and energy recovery generated by the movement of objects. The larger the surface of the kit thus formed, the greater the energy production will be. In Figure 10, it is noted that the turbopanel kit (1) incorporates at least two turbopanels arranged vis-à-vis and spaced apart from each other. In this configuration, an intermediate void space (8) forming a column is provided between the two turbopannels (1) so that an object (9) can move vertically, obliquely or horizontally.

The dimensions of the empty space (8) are defined to allow the passage of the object (9) and its lateral friction (10) against the outer walls (11) of the drum-turbines (3). The gripping surfaces of the drum-turbines (3) and the objects (9) may, if appropriate, be covered with a film and a material facilitating the friction between the walls of the turbopanes and objects. FIG. 11 represents a variant of a kit in which the drum-turbines (3) incorporate lamellae (12) forming a gripping and friction surface adapted to the passage of certain objects, wind or water. In this embodiment, the slats (12) substantially distributed in a star generate the rotation of the drum-turbines (3). This configuration is particularly suitable for capturing the strength of wind or water from rivers or oceans. They also form small wind turbines or tidal turbines for the production of electricity. Although the invention has been described in connection with several particular embodiments, it is quite obvious that it is in no way limited thereto and that it comprises all the technical equivalents of the means described as well as their combinations if it falls within the scope of the invention.

Claims (16)

CLAIMS1- Drum apparatus (s) and rotary turbine (s) comprising rotating drums and turbines, characterized in that it forms an apparatus for transforming the energetic potential of the displacement of masses of water, air or water. objects, in electrical energy, the entire constituent device; delimited and wired conveyor belts providing a catching surface from rotating drums and turbines (3), each drum forming a turbine (3), assembling a band with at least one drum forming a panel, said apparatus consisting of at least one panel, said apparatus being installed in a position in which all the assembled apparatuses form an electric generating surface 2-drum apparatus (s) and rotary turbine (s) according to claim 1, characterized in that each panel (1) incorporates at least two drums forming rotary turbines, said panel serving as a collector surface during the moving bodies of water, air or objects. 3- Apparatus with drum (s) and turbine (s) rotary (s) according to one of the preceding claims, characterized in that each panel (1) is connected to at least one alternator (6), said panel constituting a device to transform the energy potential of moving bodies of water, air or objects into electricity. 4- Apparatus with drum (s) and turbine (s) preceding claims, characterized in that rigid profiles (2) and in that a rotary system (s) according to one of which the turbines are fixed to cabling ( 5) is integrated in the connections of at least one rigid section (2) and constitutes a panel means (1) for at least one alternator (6). 5. Apparatus with drum (s) and rotary turbine (s) according to one of the preceding claims, characterized in that each panel (1) forms a gripping surface displacements of water bodies, air or objects in which alternate turbine drums and empty intermediate spaces positioned along the entire width, the entire arrangement of the turbines being defined to amplify the friction effects of the water masses, air or objects on all the panels (1). Drum apparatus (s) and rotary turbine (s) according to claim 4, characterized in that the turbines (3) are perforated and are fixed non-definitively to the rigid sections (2) and constitute elements retractable rotary. 7- drum apparatus (s) and rotary turbine (s) according to one of the preceding claims, characterized in that the surface of the turbines (3) is designed to facilitate the sliding of water bodies, air or objects in a horizontal, oblique or vertical position. 8- Apparatus drum (s) and turbine (s) rotary (s) according to claim 4, characterized in that the rotation shaft (4) of the turbines (3) is retractable and independent of the rigid sections (2). 9- apparatus drum (s) and turbine (s) rotary (s) according to claim 4 or 8, characterized in that the rigid sections (2) comprise fastening systems suitable for the assembly of several devices. 10- Apparatus drum (s) and turbine (s) rotating (s) according to one of the preceding claims, characterized in that the panels (1) constitute hollow recessed columns placed horizontally or vertically or obliquely vis-à- screw. 11- Apparatus drum (s) and turbine (s) rotating (s) according to claim 1, characterized in that each panel (1) comprises at least two drums (3) provided with at least two flat lamellae inscribed in a substantially in a star shape. 12- apparatus drum (s) and turbine (s) rotating (s) according to claim 1, characterized in that each panel (1) comprises at least two drums (3) provided with curved blades, or seasoned, or helical or twisted. 5 10 15 3037326 12 13- Kit (s) drum (s) and turbine (s) rotary (s) according to one of claims 1 to 12 comprising at least two panels (1), characterized in that the panels (1) are modular and assembled via a system of rigid profiles (2) adapted to ensure their fixation 14- Use of a drum apparatus (s) and turbine (s) rotating (s) according to claim 1, in the case of displacement of water bodies, for the development of a source of electricity production in the rivers, water supply channels, dams or underwater areas. 15- Use of a drum apparatus (s) and turbine (s) rotary (s) according to claim 1, in the case of displacement of air masses, for the development of a source of electricity production on the building roofs or in outdoor spaces exposed to the wind. 16- Use of a drum apparatus (s) and rotary turbine (s) according to claim 1, in the case of the displacement of objects, for the development of a power source of electricity in industries, logistics, distribution or sorting centers. 5 10 15 20