FR3000804A1 - Electronic entity for accessing to e.g. electrical outlet, in e.g. public places, to recharge batteries or accumulators, has microprocessor managing information in memory that includes information relative to preset quantity of resource - Google Patents

Abstract

The entity (1) has a transfer unit (3) for transferring resource of an access point (PAR) towards an external device (EXT), and communication unit (5) to cooperate with a control device (CONT). Information medium i.e. memory (MEM) comprises information relative to a predetermined quantity of transferable resource to a user. A microprocessor (MOC) manages information contained in the carrier. The communication unit comprises female connectors (COM1, COM2) to cooperate with the access point. A metering unit counts amount of the transferred resource.

Description

Electronic entity The present invention relates to an electronic entity for accessing a resource. The present invention relates more particularly to an electronic entity intended to cooperate with a control device of the access point to the resource and with an external device able to receive the resource. The invention applies in a preferred manner, but not limited to access and transfer of energy resources, including electrical. Indeed, in public places, such as public squares, car parks, fairs, exhibitions, shopping malls, etc. users wish to have electrical outlets, for example to recharge batteries or accumulators. To meet this need, the owner of the place may wish to install electrical outlets whose access would be paid and controlled. Document FR-2 849 739 describes such a system comprising a point of access to the resource which is equipped with a control device and an electronic entity for accessing the resource. The latter comprises a memory in which is registered a user identification code, a means of communication with the control device and means for transferring the resource of the access point to an external device. However, the Applicant has sought to improve such a system in order to increase its performance. For this purpose, the invention relates to an electronic entity for accessing a resource intended to cooperate, on the one hand, with an access point to the resource equipped with a control device and, on the other hand, with an external device, the entity comprising: - means for transferring the resource from the access point to the external device, - communication means intended to cooperate with the control device, - at least one information carrier comprising information relating to a predetermined quantity of transferable resource specific to a user, characterized in that the entity comprises at least one microprocessor which is able to manage information contained in said at least one medium. The microprocessor or microprocessors allow a greater diversity in the possible functionalities of the electronic entity (management of a visual display, diodes, LCD screen, ... touch, sound and / or vibration contact management, .. .). According to a possible characteristic, the communication means comprises at least two female connectors intended to cooperate with said access point. The presence of at least two female connectors makes it possible to reduce the presence of parasites in the communications between the electronic entity and the control device. According to another possible characteristic, the communication means 20 may consist of in-line carrier currents (PLC). According to another possible characteristic, said at least one information carrier is a memory. According to another possible characteristic, the electronic entity comprises means for counting the quantity of resource transferred. The counting means makes it possible to check the quantity of resource transferred from the access point to the external device. In addition, the counting means operates under the control of said at least one microprocessor which performs the calculations necessary for the counting function. The counted / measured quantity (s) are stored in the one or more information carriers of the entity and / or in the control device. According to another possible characteristic, the electronic entity comprises an information means for the user on the amount of transferable resource.

It is advantageous for the user to be able to know the remaining amount of transferable resource quantity in order to anticipate the purchase of resource quantity credit. This means can for example be visual or auditory.

According to another possible characteristic, the information means is a display means. According to another possible characteristic, the display means comprises a plurality of segment displays. According to another possible characteristic, the display means 10 comprises a plurality of light-emitting diodes (LEDs). According to another possible characteristic, said at least one microprocessor is able to activate the information means. This activation is performed according to the amount of transferable resource indicated, directly or indirectly, in said at least one information carrier of the electronic entity. According to another possible characteristic, the electronic entity comprises a power supply means. Advantageously, it is not necessary to connect the electronic entity to an electrical network for the user to be aware of the remaining amount of transferable resource. According to another possible characteristic, the supply means is a means capable of converting the kinetic energy into direct current. Thus, the simple act of moving the electronic entity allows it to produce the electrical energy necessary for its operation. This simple means allows the user not to have to recharge, or change the power supply means of the electronic entity. In addition, it should be noted that the electronic entity is energy independent, but also particularly ecological. According to another possible characteristic, the electronic entity comprises a photovoltaic sensor. According to another possible characteristic, the means for transferring the resource comprises two parts: a first part capable of cooperating with the access point of the resource; a second part able to cooperate with the external device.

According to another possible characteristic, the first part of the transfer means comprises at least two female pins. The invention will be better understood, and other objects, details, features and advantages thereof will appear more clearly in the following description of particular embodiments of the invention, given solely for illustrative and not limiting, with reference to the appended drawing, in which: - Figure 1 is a schematic view of an electronic entity according to an embodiment of the invention adapted to cooperate with an access point equipped with a control device and with an external device. FIG. 1 represents an electronic entity 1 able to cooperate, on the one hand, with an access point PAR to the resource which is equipped with a control device CONT and, on the other hand, with an external device EXT. The electronic entity 1 comprises: a transfer means 3 which is able to transfer the resource of the access point PAR to the external device EXT; a communication means which is able to communicate with the control device CONT a MEM information carrier such as a memory, for example a non-volatile memory, comprising information relating to a predetermined quantity of transferable resource, a user information means MOI which enables the user to user to take knowledge of the remaining amount of transferable resource, 30 - a microprocessor MOC able to manage and in particular to view, process, ... information contained in the MEM memory, or other information, data, quantities, .. a power supply means ALM in energy of the aforementioned means.

All the aforementioned means are connected to the microprocessor MOC. More particularly, the transfer means 3 itself comprises two parts: a first part 3a adapted to cooperate with the access point PAR, via a first connection 7 or connection (for example by pilot wires) and, a second part 3b adapted to cooperate with the external device EXT, via a second connection 9 or connection (for example by pilot wires). In the embodiment, the transferred resource is, in particular, electricity. The first part 3a comprises three channels TRS1, TRS2 and TRS3 which are for example female pins. Note that these female pins TRS1, TRS2 and TRS3 here are electrical contacts of different types, such as phase, earth and neutral. The second part 3b comprises three channels TRS4, TRS5 and TRS6 which are for example female pins where each of said channels is respectively connected to the channels TRS1, TRS2 and TRS3 of the first part 3a. It should be noted that these female pins TRS4, TRS5 and TRS6 here are electrical contacts of different types, such as phase, earth and neutral. The aforementioned contacts form electrical outlets to international standards of type 230V and 16A or type 110V and 32A. In this way, the electronic entity 1, via the transfer means 3, serves as a transmission vector, via the connections above 7 and 9, to a resource (electricity) of the access point. PAR to external device EXT. As a variant not shown, the resource may be a fluid, gas or liquid (water, ...), and the transfer means 3 is a conduit in which the fluid flows. The conduit is connected by its first and second portions, in a sealed manner, to two external connections or connectors respectively of the access point and the external device. According to another variant not shown, the entity comprises a counting means for example conventional amount of resource transferred through the entity.

The microprocessor controls this counting means. If the resource is a fluid, the counting means is for example a volumetric meter (example: turbine, ...) or comprises two ultrasonic probes emitting and receiving each ultrasonic waves in the direction of flow and in the opposite direction so to determine by calculation the flow of fluid passing through the entity. More particularly, the communication means 5 is able to exchange information in a bidirectional manner with the control device via a network, for example a telecommunication network 11 (for example, a wired or a radio network). In addition, the means 5 comprises at least two communication channels, which are for example female connectors COM1 and COM2, connected to the microprocessor MOC. Alternatively, the communication means 5 is a contactless means (for example infra-red).

In the embodiment presented, the MEM information carrier, for example electronic, is more particularly a memory, for example of the electronic type, which comprises a user identification code, for example unique, associated with a quantity. predetermined transferable resource. However, the MEM information carrier may be any means of storing information such as a punch card, a transponder (for example an RFID chip), etc. It will be noted that the memory constitutes a recording medium suitable for storing identification codes, computer programs as well as information relating to one or more amounts of transferable resource. The memory MEM which contains the identification code can be a memory type ROM (Read-Only Memory). In a variant, the entity 1 comprises several information supports of the same type or of different types. The microprocessor is able to read and / or modify, directly or indirectly, the identification code of a user and / or information relating to at least a transferable and / or transferable resource quantity.

On the other hand, the information means MOI is a display means such as an LCD screen, diodes, ..., which allows the user to obtain information on the amount of resource he can transfer. More particularly, the display means is composed for example of three diodes which light up according to the remaining amount of transferable resource. Each of the diodes is for example of a different color such as green, orange and red. Alternatively, a different number of diodes can be used. More particularly, the microprocessor MOC is able to consult the memory MEM and to convert / transform the information relating to the quantity of transferable resource into a signal that can be read on the display means by the user. For example, if the predetermined quantity of transferable resource is maximum only the green color diode lights up, otherwise the orange color diode lights up and, in the case where the amount of transferable resource is zero, then only the diode red color lights up. It will be noted that the power supply means ALM, here electric, can be a means capable of converting the kinetic energy into direct current so as to be able to activate the microprocessor MOC and the display means 20 MOI. In this way, the user can, by shaking the electronic entity 1, provide enough power to the system to activate the display means MOI. Alternatively (not shown), the power supply means may comprise a photovoltaic sensor which is capable of supplying the electronic entity with DC power, either as a main power supply or as an additional power supply. The operation of the electronic entity will now be explained with reference to FIG. 1. When the user connects via the channels TRS1, TRS2 and TRS3, the electronic entity to the access point PAR, then the entity is also connected to the control device CONT associated with the access point PAR, via the channels COM1 and COM2. The control device CONT reads the user identification code contained in the memory MEM and associates, for example in connection with the control device, a quantity of transferable resource. This quantity can be read in the memory MEM or read in a memory associated with the control device CONT. If this quantity is not zero, the control device authorizes the access point PAR to deliver the resource. The electronic entity then serves as physical support for the transfer of the resource from the access point PAR to the external device EXT. In addition, the control device CONT records, directly or via the microprocessor MOC, the quantity of transferable resource remaining (after transfer of a given quantity of resource) in the memory MEM of the electronic entity 1 or information representative of this quantity.

Claims (11)

REVENDICATIONS1. Electronic entity for accessing a resource intended to cooperate, on the one hand, with an access point (PAR) to the resource equipped with a control device (CONT) and, on the other hand, with an external device (EXT), the entity (1) comprising: - means of transfer (3) of the resource of the access point (PAR) to the external device (EXT), - a communication means (5) intended to cooperate with the control device (CONT), - at least one information carrier (MEM) comprising information relating to a predetermined quantity of transferable resource specific to a user, characterized in that the entity (1) comprises at least one microprocessor (MOC) which is capable of managing information contained in said at least one medium (MEM). 2. Electronic entity according to claim 1, characterized in that the communication means (5) comprises at least two female connectors (COM1, COM2) for cooperating with said access point (PAR). 3. Electronic entity according to claim 1 or 2, characterized in that said at least one information carrier is a memory. 4. Electronic entity according to any one of claims 1 to 3, characterized in that the electronic entity comprises means for counting the amount of resource transferred. 5. Electronic entity according to any one of claims 1 to 4, characterized in that it comprises an information means (MOI) to the user on the amount of transferable resource. 6. Electronic entity according to claim 5, characterized in that the information means (MOI) is a display means. 7. Electronic entity according to claim 5 or 6, characterized in that said at least one microprocessor (MOC) is able to activate the information means (MOI). 8. Electronic entity according to any one of claims 1 to 7, characterized in that it comprises a supply means (ALM). 9. Electronic entity according to claim 8, characterized in that the supply means (ALM) is a means capable of converting the kinetic energy into direct current. 10.Electronic entity according to any one of claims 1 to 9, characterized in that the transfer means (3) of the resource comprises two parts: - a first part (3a) adapted to cooperate with the access point ( PAR) of the resource, - a second part (3b) able to cooperate with the external device (EXT). 11. Electronic entity according to claim 10, characterized in that the first portion (3a) of the transfer means (3) comprises at least two female pins (TRS1, TRS2, TRS3).