FR2908927A1 - Autonomous power supply device for e.g. mini refrigerator, has accumulators housed in parallelepiped compartment and placed near ground, when barrel structure of compartment is in use position - Google Patents

Abstract

The device has accumulators housed in a parallelepiped compartment (5) that is formed of a barrel structure (3). The accumulators housed in the compartment are placed near the ground, when the barrel structure is in use position. One face of two large faces of the compartment is folded against photovoltaic solar panels (2), when the barrel structure is folded to be transported, where solar panels are fixed on a vertical branch of the structure.

Description

AUTONOMOUS ELECTRONIC POWER SUPPLY DEVICE The invention relates to

  an autonomous power supply device. To generate electricity autonomously, for example, the generator or the alternator driven by a combustion engine to form a generator. Unfortunately, this solution is cumbersome, noisy and polluting. Photovoltaic solar panels are also known. This device has the advantage of being quiet, non-polluting and maintenance-free. To implement these solar panels, it is necessary a set of accumulators to store the energy produced by the panels as well as electronics to manage both the load and the conversion of energy into electrical voltages for example 220 Volts . These means and in particular the accumulators come to substantially weigh down the device.

  Many portable solar charge systems are known today, but the power developed is very low because they target objects with low current consumption such as the telephone or the music player. The growing development of new professional wireless handheld devices requires more and more autonomous, powerful and fast charging means. 20 Even for tools with wire it takes power. For its mobility, it is known a power supply device FR 2.591.823 arranged on a carriage.In fact, the weight of the batteries quickly makes the device difficult to transport and maneuver by an individual.The establishment of a carrier structure With the wheel 25 it is easier to move, and if it makes it easier to move on the ground, vehicle transport takes up a lot of space because of the space requirement and it usually takes at least two people to maneuver the device. Power source and are connected by an electrical cable to a user means such as a beacon placed at a distance and carried by its own foot or a tool 2908927 2 Several problems arise therefore, apart from the clutter, there is the weight There have been for some time accumulators lighter and less bulky, but therefore the weight of these accumulators is no longer a sufficient counterweight to ensure the sta bility of the device with regard to the surface of the solar panels. The invention proposes to provide a solution. To this end, the subject of the invention is an autonomous power supply device comprising at least one photovoltaic panel, a set of accumulators, an electronics for managing the current produced and consumed, the whole being carried by a carrier structure provided with two Wheels this power device being characterized in that the accumulators are housed in a compartment disposed on the structure such that when it is in the use position, the housing containing the accumulators is located closer to the ground to ensure stability and when the carrier is folded for transport, one of the two larger faces of the housing is against the folded solar panel so as to occupy a small volume. The invention will be better understood from the following description given by way of non-limiting example with reference to the drawing which represents FIG. 1: A first example of a feed device according to the invention in FIG position 2 FIG. 3: The device of FIG. 1 carrying a load FIG. 4: The device of FIG. 1 in position to be transported FIG. 5: A variant of the device in the FIG service position FIG. 6: The device of FIG. 5 being installed FIG. 7: The device of FIG. 5 in position to be transported Referring to the drawing, there is shown an autonomous power supply device 1 comprising at least one photovoltaic panel 2 , a set of accumulators, a current management electronics produced and consumed all being carried by a carrier structure 3 provided with two wheels 4.

  This device must be able to be handled by a single individual and must take the least possible space to be transported in the trunk of a vehicle.

It is therefore designed to be foldable between a so-called service position where the solar panels are used which are oriented substantially at an angle of 45, for example, and a transport position (FIG. 4, FIG. The device should occupy the lowest volume considering the size requirements of the solar panels and the size of the accumulators. For this, the accumulators are housed in a parallelepipedal compartment 5 constituting the carrier structure such that when it is in the position of use, the housing 5 containing the accumulators is located closer to the ground to ensure stability and when the carrier structure is folded to be transported, one 6 of the two largest sides of the housing is against the solar panels 2 folded so as to occupy a reduced volume. The face 6 of the battery housing facing the solar panel is a carrying surface for a load 7, for example to counterbalance the deployed solar panels and / or to fix thereon, for example a mast carrying at its end a lighting. In a first embodiment (FIGS. 1 to 4), the structure comprises a vertical branch 10 on which are fixed two photovoltaic panels and a horizontal branch constituted by the housing of the accumulators with the vertical branch connected to the horizontal branch by means 11 of articulation.

The vertical branch 10 can therefore bend towards the horizontal branch 15. The solar panels two in number are articulated independently of each other along a transverse axis located in the middle part of the vertical branch. This vertical branch is divided into two parts, a lower 10A and the other upper l0B and each carries a photovoltaic panel.

Orientation and locking means 12 make it possible to adjust the angle of the panels with the horizontal. Friction systems can be used or not at a time. The upper part of the vertical leg carries a handle 13 for gripping the carriage thus formed.

2908927 4 This upper part is articulated on the upper part to fold it down. It has therefore provided joints 14 to offset axis relative to the plane containing this vertical branch. Also provided is a locking means. As can be seen, the lower part of the vertical branch is folded against the housing and the upper part of the vertical branch is folded over the lower part. It is planned to house the electronic management means 16 at the base of the vertical branch. For problems related to the temperature of the accumulators, one of the faces of the accumulator housing has fins to form a radiator.

There is shown on the housing accumulators, a toolbox containing the electrical equipment that will exploit the current produced by the solar panels. The folding takes place in the following manner: disassembly of the accessories, placing in vertical position of each panel, folding of the lower part of the handle on the base, pressing on the two snap buttons of the handle and folding of the upper part out of 15 together. Arrival at folding stop, locking by the two tabs 18 in their housing. Stirrup 19 retreat stabilization if necessary. For higher electrical capacities, there is a second variant (Figures 5 to 7). The accumulator housing is disposed at the vertical leg in the transport position. In use, the vertical leg is placed on the ground and the panels are deployed at the desired angle. There are shown here three solar panels deploying successively one behind the other like a screen to form a large panel. Joints and locking means are provided to hold the orientation of the panels. Here, it is also expected that the vertical leg is in two parts, one lower and the other upper but the upper part slides on the lower part. The housing of the accumulators laterally comprises translational guiding means 20 for the sections constituting the two sides of the upper part.

As can be seen skates 21 equip transversely the upper part of the vertical leg to serve as feet. They can receive a removable charge to stabilize the device as well as one side of the battery housing.

The electronic means 16 are located at the base of the vertical leg and the housing containing them forms the horizontal leg in the transport position. A flap 19 or tilting yoke located at the base of the device serves as a crutch to maintain the vertical carriage in combination with the two wheels. Each panel is mounted on two rails that hold it mechanically and 10 dock ensure good rigidity of each block. Each panel block (panel + slides) is articulated by a hinge arranged at its ends. These hinges are locked and unlocked with two snaps. Each panel block successively folds over each other to form a compact assembly on the base in the folded position (FIGS. 6 and 7) Each panel will be electrically connected to the energy conversion portion by a cable Flat flexible type elevator cable Each panel has at the back a small ultra-flat electrical connection type vampire connection served by the flat cable - energy bus common to all panels (paralleling panels). connection contains a non-return diode to avoid the flow of one panel over the other (the solar collector 20 may be different depending on the panels and their orientation) .To prevent any maladjustment or (taking to the wind, vandalism, .. .) the angle of orientation of the panels is locked by a position-holding system and an integrated lock near the low axis of rotation The carriage has a handle which has two main functions : towing the carriage in the folded position. Stabilization of the carriage in unfolded mode. The handle has been studied to be able to be completely lodged in the structure of the carriage so as to optimize its congestion in transport position. This handle can be partially released to use its handle and easily move the carriage. This handle can be completely out, unfolded cart so as to stabilize the whole with a counterweight. Two U-shaped aluminum plates have been integrated for this purpose to allow the counterweight to be placed (concrete block, sandbag, etc.). The handle slides in an intended housing 2908927 6 in the base of the carriage. These two slides include a lock that allow the maintenance of the position of the handle in the requested position. This locking and unlocking is actuated by means of a snap button integrated in the carrying handle.

5 The base includes the battery pack, the energy conversion part (electronics) and the connection interface. It can optionally integrate the operator interface part. This base consists of a rigid and sealed compartment that holds the accumulators. This compartment can integrate a radiator and / or ventilation depending on the type of battery technology used. Associated with this compartment, a rigid and waterproof energy conversion block 10 also accommodates the various electronic cards. Finally, on the front face of the base (energy conversion side) we find the connection interface. This interface has a folding and lockable protective flap. The rigidity of the base is provided by reinforcing means on its contour (thickness of material, ribs ...). The materials used for the different compartments constituting the base (battery compartment, connection interface, energy conversion) will be dielectric, non-propagating flame, halogen sarees and weather resistant. Particular care will be taken in the sealing and the mechanical resistance of the battery compartment to avoid any deterioration of the accumulators.

The processing and energy conversion is concentrated in a block forming an integral part of the carriage structure. This part consists of: One or more electronic cards protected by a sealed housing 25 A connectable interface accessible by a removable cover A user interface (vumeter, message display, compass) The integrated electronic card or cards allow manage the following functions: - Conversion of the voltage coming from the photovoltaic panels into charge voltage for the batteries.

2908927 7 Protection of solar panels from reverse current and short circuit Constant monitoring of battery charge and protection against overload. Protection against an intrinsic fault in the batteries (short-circuit) Checking the discharge of the batteries up to a permissible limit without deterioration Transformation of the battery voltage into DC voltage by DC / DC converter or AC voltage by inverter for the user ( 12VDC, 230VAC, ... etc) Management of the signaling of the states of operation of the truck (charging mode, battery charge level, optimization of the load depending on the orientation and the irradiation) 15 The interface of connection is located at the bottom of the cart, close to the electronic boards and batteries, short distances between the various components limit the electrical losses online. It is accessible by lifting the protective cover which protects it from bad weather. This interface consists, for example, of the following elements: - A CEE type 22 or other mains socket allowing the load of the truck after a long period of non-use. Although the new generations of batteries have a low discharge over time, it is still possible to use the trolley as a generator even without a solar source. This power outlet is equipped with a fuse or circuit breaker protection in the event of misuse. - A 12VDC cigarette lighter socket that allows the use of many consumer or professional portable devices. - A type M12 socket that allows to connect devices developed specifically 30 for this truck (lighting, ...) 5 10 2908927 8 - A mains socket use to deliver a voltage of 230VAC for all common portable devices (Example: portable PC, hand-held power tool, ...) - Thermal protection by circuit breaker to limit the output current 5 without damaging the batteries and to protect against shortcircuits user side. The user interface includes, for example: several LEDs in the form of a vumeter, on the one hand helping the user towards a better orientation of the panels to optimize the charging of the batteries, on the other hand to permanently visualize the state of charge of the batteries. a message display (a professional option associated with a microcontroller) making it possible to give the user more information about the state of operation of the truck (example: sunshine rate, percentage of charge, charging time, time remaining before cutting, current consumed online ... etc) 15 The frame of the carriage or supporting structure is a structure of aluminum profiles or other equivalent material that allows to limit the weight while providing good rigidity to the together. The two wheels type all terrain allow the movement of the truck in all situations (paths, sandy beach ...). An axle bar joins each wheel through two bearings. There are many applications: Spot lighting with energy-saving bulb or ultra-bright white LEDs Transportation and feeding of a refrigerated system such as electric coolers or mini-refrigerators (street vending, food preservation in all situations: camping , beach ...) Inflator supply, laptop charger or other electronic devices portals, bottle warmer, charger of marine gear ...

25 30 5 10 15 20 2908927 9 Fan power supply, mini-air conditioner, fogger, dehumidifier, ... Autonomous and clean (eco-friendly) energy station for all cases where there is no mains or vehicle battery in the vicinity, where when it is impossible to use a generator (congestion, weight, difficult transportation ...) this is the case for example in hiking, in desert areas, for medical or surgical kits (EMS, firefighters, humanitarian mission), for nautical applications (sailing, fishing ...), DIY (battery charger, lamp, ...) Supply of hazard warning lights (signaling accident) or temporary signs (works, ...). The trolley has the advantage of allowing on the one hand the transport of the traffic sign and on the other hand its autonomous power supply. Signage day and night completely independently. Mobile, foldable and easily transportable, its use can bring great flexibility in temporary road signs. Mobile and compact energy station requiring only solar rays, it allows all trades using electricity to work in total autonomy on any site that does not have an electrical source. Outdoor or agricultural application for power supplies of small pumping stations, electric fence,

Claims (9)

  1. Autonomous power supply device comprising at least one photovoltaic panel (2), a set of accumulators, a current management electronics produced and consumed all being carried by a structure (3) carrier provided with two wheels this device being characterized in that the accumulators are housed in a compartment (5) parallelepiped component carrier structure such that when it is in the use position, the housing containing the accumulators is located closer to the ground to ensure stability and when the carrier structure is folded to be transported, one (6) of the two largest faces of the housing is against the folded solar panels so as to occupy a reduced volume.   2. Power supply device according to claim 1 characterized in that the face (6) of the battery housing facing the solar panel is a bearing surface for a load (7).   3. Power supply device according to claim 1 or 2 characterized in that the structure comprises a vertical leg (10) on which are fixed two photovoltaic panels and a horizontal branch (15) constituted by the housing of the accumulators with the vertical branch connected to the horizontal branch by means of articulation.   4. Power supply device according to claim 3 characterized in that the two solar panels are articulated independently of each other along a transverse axis located in the middle part of the vertical branch, the vertical branch being divided into two parts , one lower and the other upper and each carrying a photovoltaic panel.   5. Power supply device according to claim 1 or 2 characterized in that the carrier structure comprises a vertical leg (10) and a horizontal leg (15), the battery housing being disposed at the vertical leg in position of transport, this vertical leg being folded to the ground in the service position of the device. 2908927 11   6. Power supply device according to claim 5 characterized in that the vertical leg is in two parts one lower and the other upper with the upper part sliding on the lower part.   7. A power supply device according to claim 6 characterized in that the 1 housing 5 accumulators laterally comprises means (20) for guiding in translation for the sections constituting the two sides of the upper part of the vertical branch.   8. Power supply device according to claim 6 characterized in that the upper part of the vertical leg comprises pads. 10   9. Power supply device according to claim 1 characterized in that the housing for the accumulators carry fins for cooling.