FR2976540A1 - Movable device i.e. terrestrial electric vehicle such as scooter, has battery block provided with pair of secondary fixing units, where secondary fixing units and primary fixing units are connected with each other - Google Patents

Abstract

The device (DIS) has a removable electric energy source comprising a removable battery block (BLO), where the removable electric energy source is suspended at a connection structure. The connection structure comprises a beam frame (POU) that is provided with a pair of primary fixing units (FIP1, FIP2). The battery block is provided with a pair of secondary fixing units (FIS1, FIS2). The primary and secondary fixing units are connected with each other. The primary fixing units are arranged on a side of the beam frame with respect to a longitudinal median plane of the beam frame. An independent claim is also included for a method for implementation a mobile device during installation of a battery block.

Description

The present invention relates to a mobile device provided with a removable electrical energy source such as a battery. Such a device is of interest to all manufacturers and users of scooters, electric bicycles, scooters, 5 "quads", motorcycles, lawnmowers, "brushing" washers, wheelchairs, buses, motor vehicles, electric boats, golf course vehicles, etc. It is also of interest to battery manufacturers. It is also of interest to institutional people fighting against urban pollution. There are a number of devices exclusively or not implementing batteries. Once discharged, the latter are replaced by charged batteries, either in specialized stations, or by the operator himself, the case concerning batteries 15recharged "in situ" either at rest or continuously, not being considered . Thus, patent document WO 90/05516, entitled "Vehicle and method of installing an electrical battery in the vehicle" inventor GOULD Royston, has a 2Oroulant chair whose battery arranged under the seat can be loaded or unloaded from the rear using inclined lateral telescopic slides to which it is hooked or unhooked, once brought to the end of the stroke in contact with the ground. Such devices nevertheless have a certain number of disadvantages among which: the difficulty of extracting and setting up a battery in its housing, the dirt generated by and for the battery, as well as for the operator, wasted time, Security problems, False movements to be performed often overhang, -2- impossible to achieve for people lacking the necessary physical skills, Difficulty of execution and insecurity during connections and disconnections electric.

A first object of the present invention is therefore to overcome these various drawbacks, by providing a mobile device provided with a removable electrical energy source, such as a scooter type electric terrestrial vehicle comprising at least two wheels resting on a ground and 10reliés by a connecting structure, the source of electrical energy being adapted to be fixed suspended from the connecting structure. According to a major characteristic of the invention, the source of electrical energy consists of at least one battery block, the connecting structure consists of at least one chassis beam, the chassis beam is provided with at least one pair primary fastening means, the battery pack is provided with at least one pair of secondary fastening means. The primary and secondary fixing means are able to cooperate two by two. According to another characteristic of the invention, the primary fastening means are arranged on the same side of said chassis beam with respect to the longitudinal median plane of the chassis beam, and preferably in a vertical plane. According to another characteristic of the invention, the chassis beam is connected laterally to a vertical plate provided with sliders. The vertical plate is vertically movable relative to the chassis beam. The primary attachment means are arranged on the opposite side of the plate to the chassis beam. According to another characteristic of the invention, the slides are equipped with a transmission member such as a rack. This body is connected to a manual or electric actuator. The vertical plate is movable between a high position and a low position. According to another characteristic of the invention, a first primary fastening means is constituted by an upwardly flaring structure such as a U-shaped hook. A first secondary fastening means consists of a turned flaring structure. downward like an inverted U-shaped hook. This inverted U ends advantageously with an outgrowth such as a sphere or a cylinder. The first secondary fastening means is able to bear on the first primary fastening means at a fastening point, and to allow 15 angular movements of the battery pack with respect to the plate. According to another characteristic of the invention, a second primary fixing means and a second secondary fixing means are capable of making a blocking by immobilizing the battery pack with respect to the plate. One of the second fastening means 20, preferably the second primary fastening means, is adapted to cooperate with a release part such as a spring. According to another characteristic of the invention, the unlocking piece is able to cooperate with a locking system such as a key. This locking system is able to lock in position the battery pack. According to another characteristic of the invention, the device is provided with two legs opposite to the chassis beam. These crutches are able to bear in a stable manner on the ground. The battery pack is provided with a first pair of wheels located at the lower end of the battery pack and away from the plate, and preferably with a second pair of wheels, located at the low end -4 of the battery pack and close to the plate. These wheels are preferably foldable. The plate being in the low position, this first pair of wheels is able to be in contact with the ground. The battery pack is able to be unlocked from the device by the second fixing means or conversely to be locked on the device by said second fixing means, while remaining secured to the device in these two cases by the first fixing means. According to another characteristic of the invention, the battery pack is provided with a telescopic handle arranged at its upper end. This telescopic handle being deployed, the battery pack is connected to the plate by the first fixing means on the one hand, and rests on the ground by the first pair of rollers. It is adapted to be unhooked from the first fastening means and to rest on the ground also by the second pair of rollers, or conversely to be hooked to the first fastening means and to rest on the ground by the first pair of rollers. The movements of the 20batterie block are ensured by the telescopic handle. The invention also relates to a method of implementing the device during removal of the battery pack. According to another major feature of the invention, this method comprises all or part of the following phases: Immobilization of the device resting on the stands, Unlocking of the second fastening means, deployment of the rollers, lowering of the plate in the lower position, first pair of rollers then touching the ground, 30 Deploying the telescopic handle, unlocking the second fastening means, rotating the battery pack around the first pair of rollers using the telescopic handle, and then light -5- traction at the help of the telescopic handle ensuring the stall of the first fixing means, then possible reverse rotation until the contact of the second pair of wheels with the ground, Traction of the battery pack. The invention also relates to a method of implementing the device during installation of the battery pack. According to another major feature of the invention, this method comprises all or part of the following phases: Boosting of the battery block, Rotation of the battery pack around the first pair of wheels using the handle, then slight thrust using the handle, then reverse rotation to the vertical position ensuring the attachment of the first means 15f ixation. Blocking the second fastening means, Folding the telescopic handle, raising the plate in the up position, Folding the rollers, 20 Locking the second fastening means, releasing the device resting on the stands. These characteristics make it possible to overcome point by point the various disadvantages previously enumerated. Other advantages and features will become more apparent from the following description of a non-exclusive embodiment of the device according to the invention, given by way of non-limiting example, with reference to the appended drawings among which: FIG. 1 is a rear view of the device in a vertical position, the battery pack being in the up position, FIG. 2 is a rear view of the device, the battery pack being in the low and vertical position, FIG. 3 is a rear view of the device, the block battery being in the low and inclined position. With reference to the figures, the invention relates to a mobile device DIS equipped with a source of removable electrical energy, such as a terrestrial electric vehicle of the type 5scooter comprising at least two wheels ROUI, ROU2, the second wheel R0U2 not being shown because obscured by the first ROUI in the drawings, resting on a ground GRD and connected a connecting structure. Said source of energy to be fixed suspended from said structure

electrical energy is constituted of an arbitrarily represented on the part Nothing opposes in other embodiments to its presence in the right part of the figures, 15ni to the presence of two battery packs arranged on both sides. another of said chassis beam POU. Said connecting structure consists of a chassis beam POU. Said chassis beam POU is provided with a pair of primary fixing means FIP1, FIP2. BLO 20battery block is provided with a pair of secondary fastening means FIS1, FIS2. Said primary fixing means FIP1, FIP2 and secondary FIS1, FIS2 are able to cooperate two by two. Said primary fixing means FIP1, FIP2 are arranged on the same side of said chassis beam POU with respect to the longitudinal median plane of said chassis beam POU, and in a vertical plane. Said chassis beam POU is connected laterally to a vertical PLA plate provided with sliders COU1, COU2, of which only 30seul is visible in the figures. Said vertical plate PLA is movable vertically with respect to said chassis beam POU. Said primary fastening means FIP1, FIP2 are arranged on the side of said PLA plate opposite electric wheel is suitable for 10de liaison. Said battery block source BLO, left figures. Said frame beam POU. Said sliders COU1, COU2 are equipped with a transmission member such as a rack, not shown in the figures. Said member is connected to a manual or electrical ACT actuator. Said vertical plate PLA is movable between a high position and a low position. Said low position makes it possible to position said battery pack BLO close to said ground GRD during the laying and removal operations.

Said high position makes it possible to position said battery pack in height so that it does not risk hitting the ground when said DIS device is tilted, without raising the center of gravity of said DIS device. Said actuator ACT allows easy passage from one position to another. A first primary fastening means FIP1 consists of an upwardly flaring structure, in this case a U-shaped hook. A first secondary fastening means FIS1 consists of a downwardly flaring structure. , in this case an inverted U-profile hook. Said inverted U ends advantageously with an outgrowth such as a sphere or a cylinder. Said first secondary fixing means FIS1 is able to bear on said first primary fixing means FIP1 at a point of attachment POA, and to allow angular movements of said battery block BLO with respect to said PLA plate. A second primary fastening means FIP2 and a second secondary fastening means FIS2 are capable of blocking by immobilizing said battery pack BLO with respect to said PLA plate. One of said second fastening means FIP2, FIS2, in this case said second primary fastening means FIP2, is adapted to cooperate with a release piece DEB such as a spring. Said unlocking piece DEB is able to cooperate with a VER locking system such as a key. Said locking system VER is able to lock in position said BLO battery pack. Said device DIS is provided with two crutches BEQ1, BEQ2, opposite to said chassis beam POU.

Said crutches BEQ1, BEQ2, are able to bear stably on said GRD ground, simultaneously, which keeps said DIS device in a vertical position. In a variant not shown, it is possible to actuate said crutches BEQ1, BEQ2, independently, which allows to tilt if necessary said DIS device on the side where is said block BLO. Said BLO battery pack is provided with a first pair of rollers ROL11, ROL12, the second roll ROL12 being not shown because it is obscured by the first roll ROL11 in the drawings, located at the lower end of said BLO battery pack. Said first pair of rollers ROL11, ROL12, is remote from said PLA plate. A second pair of rollers ROL21, ROL22, the second roll ROL22 being not shown because obscured by the first roulette ROL21 in the drawings, also located at the bottom end of said BLO battery pack, is close to said PLA plate. Said rollers ROL11, ROL12, ROL21, ROL22 are preferably foldable.

Said PLA plate being in the low position, said first pair of rollers ROL11, ROL12, is able to be in contact with said GRD sol. Said battery BLO is able to be unlocked from said device DIS by said second fixing means FIP2, FIS2, or conversely to be locked on said device DIS by said second fixing means FIP2, FIS2, while remaining attached to said device DIS in these two cases by said first fastening means FIP1, FIS1. BLO battery pack is provided with a telescopic handle POI arranged at its upper end and preferably remote from said PLA plate.

When said telescopic handle POI is deployed, said battery pack BLO is connected to said PLA plate by said first fixing means FIP1, FIS1 on the one hand, and rests on said GRD ground by said first pair of rollers R0L11, ROL12.

When it bears on said crutches BEQ1, BEQ2, the stability of said DIS device is ensured by the fact that the center of gravity of said DIS device with or without BLO battery unit on the one hand, and the center of gravity of said battery block BLO d on the other hand, permanently overhang the 20quadrilatère defined by the two supports of said wheels ROUI, R0U2 on said ground GRD on the one hand, and by the supports of said crutches BEQ1, BEQ2 also on said ground GRD on the other hand. Said BLO battery pack is adapted to be unhooked from said first fixing means FIP1, FIS1 by a rotation movement generated by said telescopic handle POI. It is adapted to rest on said ground GRD also by the second pair of rollers R0U21, ROU22, under the effect of a traction movement away from said device DIS on the one hand, a reverse rotation movement generated by said telescopic handle POI on the other hand. Conversely, said BLO battery pack is adapted to be hooked to said first fastening means FIP1, FIS1 by a rotational movement around said first pair of rollers ROU11, ROU12 generated by said telescopic handle POI, and then a reverse pushing movement approaching said device DIS on the other hand, finally a reverse rotation movement ensuring the contacting of said first attachment means FIP1, FIS1. The invention also relates to a method PRO1 for implementing said device DIS during a removal of said BLO battery pack. Said method PRO1, not shown in a figure, comprises all or part of the following phases, not shown in a figure: Immobilization PHA1 of said device DIS bearing on said legs BEQ1, BEQ2, Unlocking PHA2 of said second fixing means 15FIP2, FIS2, Deployment PHA3 of said rollers ROL11, ROL12, ROL21, ROL22, lowering PHA4 of said PLA plate in the down position, said first pair of rollers ROL11, ROL12 then touching said GRD sol, PHA5 deployment of said telescopic handle POI, unlocking PHA6 of said second fastening means FIP2, FIS2, PHA7 rotation of said battery pack BLO around said first pair of rollers ROL11, ROL12 with the aid of said POI telescopic handle, then light pulling with the aid of said telescopic handle POI ensuring the unhooking of said first fastening means FIP1, FIP2, then possible reverse rotation until contact of said second pair of rollers ROL21, RO L22 with said ground GRD, Traction PHA8 of evacuation of said BLO battery pack. The invention also relates to a method PRO2 for implementing said device DIS during a laying of said BLO battery unit. Said method PRO2, not shown in a figure, comprises all or part of the following phases, not shown in a figure: PHA11 thrust for docking said BLO battery block, PHAl2 rotation of said battery pack BLO around said first pair of rollers ROL11, ROL12 with the aid of said POI handle, then slight thrust using said POI handle, then reverse rotation to the vertical position 10 ensuring the attachment of said first fastening means FIP1, FIS1, blocking PHA13 of said second fastening means FIS1, FIS2, Folding PHA14 of said POI telescopic handle, 15 PHA15 mounting of said PLA plate in the raised position, Folding PHA16 of said rollers ROL11, ROL12, ROL21, ROL22, Locking PHA17 of said second fastening means FIS1, FIS2, Release PHA18 of said DIS device bearing on said crutches BEQ1, BEQ2. It is obvious that the example of the embodiment which has just been given is only a particular illustration and in no way limiting with respect to the fields of application of the invention. In particular, the positions of the elements described and located arbitrarily to the left or right in the figures can be reversed without the embodiment being modified.

In addition, said device DIS is particularly adapted to be equipped with two battery packs located on either side of said POU beam. It should be mentioned the practical advantage that is the fact of having a removable battery pack, thus an increased ease of boarding and disembarking of said device in a collective means of transport such as a train or a bus low floor.

Claims (1)

CLAIMS1 mobile device (DIS) provided with a removable 5electric energy source, such as a scooter-type terrestrial electric vehicle comprising at least two wheels (ROUI, ROU2) resting on a ground (GRD) and connected by a connecting structure, said source being adapted to be fixed suspended from said connecting structure, characterized in that said electric power source being constituted by at least one battery pack (BLO), said connecting structure consisting of at least one beam chassis (POU), said chassis beam (POU) being provided with at least one pair of primary fastening means (FIP1, FIP2), said battery pack (BLO) being provided with at least one pair of secondary fastening means ( FIS1, FIS2), said primary (FIP1, FIP2) and secondary (FIS1, FIS2) fixing means are able to cooperate in pairs. Mobile device (DIS) according to claim 1, characterized in that said primary fixing means (FIP1, FIP2) are arranged on one and the same side of said chassis beam (POU) relative to the longitudinal median plane of said chassis beam. (POU), and preferably in a vertical plane. 3 mobile device (DIS) according to claim 2, characterized in that, said chassis beam (POU) being connected laterally to a vertical plate (PLA) provided with 30coulisseaux (C0U1, COU2), said vertical plate (PLA) being vertically movable with respect to said chassis beam (POU), said primary fastening means (FIP1, FIP2) are arranged on said plate (PLA) opposite said chassis beam (POU) .- 14- 4 Mobile device (DIS) according to claim 3 , characterized in that said sliders (COU1, COU2) being equipped with a transmission member such as a rack, 5ledit member being connected to a manual actuator (ACT) or electrical, said vertical plate (PLA) is movable between a high position and a low position. Mobile device (DIS) according to claim 4, characterized in that a first primary fastening means (FIP1) consisting of an upwardly flaring structure such as a U-shaped hook, a first secondary fastening means (FIS1) being constituted by a downwardly flaring structure such as an inverted U-profile hook, said inverted U ending advantageously with an outgrowth such as a sphere or a cylinder, said first secondary fixing means (FIS1) is able to bear on said first primary fixing means (FIP1) at a point of attachment (POA), and to allow angular movements of said battery pack (BLO) with respect to said plate (PLA). 6 mobile device (DIS) according to claim 5, characterized in that a second primary fixing means 25 (FIP2) and a second secondary fixing means (FIS2) being adapted to perform a blocking by immobilizing said battery pack (BLO) relative to said plate (PLA), one of said second fixing means (FIP2, FIS2), preferably said second primary fixing means (FIP2), is able to co-operate with a release piece (DEB) such as a spring. 7 mobile device (DIS) according to claim 6, characterized in that said unlocking member (DEB) is -5- adapted to cooperate with a locking system (VER) such a key, said locking system (VER) is fit to block in position said battery pack (BLO). 8 mobile device (DIS) according to any one of claims 2 to 7, characterized in that being provided with two crutches (BEQ1, BEQ2), opposite to said chassis beam (POU), said crutches (BEQ1, BEQ2 ), being able to bear stably on said ground (GRD), said battery block (BLO) being provided with a first pair of wheels (ROL11, R0L12), located at the low end of said battery pack (BLO) and remote from said plate (PLA), and preferably from a second pair of rollers (R0L21, R0L22), located at the lower end of said battery pack (BLO), and close to said plate (PLA), said rollers (R0L11 , R0L12, ROL21, R0L22), being preferably foldable, said plate (PLA) being in the low position, said first pair of rollers (ROL11, ROL12), is then able to be in contact with said ground (GRD), and said battery pack (BLO) 20is able to be unlocked from said device (DIS) by the said second fixing means (FIP2, FIS2), or conversely to be locked on said device (DIS) by said second fixing means (FIP2, FIS2), while remaining attached to said device (DIS) in these two cases 25 by said first fastening means (FIP1, FIS1). 9 mobile device (DIS) according to claim 8, characterized in that, said battery pack (BLO) being provided with a telescopic handle (POI) arranged at its upper end and remote from said plate (PLA), said telescopic handle ( POI) being deployed, said battery pack (BLO) being connected to said plate (PLA) by said first fixing means (FIP1, FIS1) on the one hand, and resting on said -16- ground (GRD) by said first pair of rollers (ROL11, ROL12), is able to be unhooked from said first fixing means (FIP1, FIS1) and to rest on the ground also by the second pair of rollers (ROL21, ROL22), or conversely to be attached to said first means fixing (FIPI, FIS1), and rest on the ground by said first pair of wheels (ROL11, ROL12), the movements being provided by said telescopic handle (POI). 10 Process (PROU) for implementing said device (DIS) during removal of said battery pack (BLO) according to any one of the preceding claims, characterized in that it comprises all or some of the following phases: Immobilization (PHAl) of said device (DIS) bearing on said crutches (BEQ1, BEQ2), unlocking (PHA2) of said second fixing means (FIP2, FIS2), Deployment (PHA3) of said rollers (ROL11, ROL12, ROL21, ROL22), Descent (PHA4) of said plate (PLA) in the down position, said first pair of rollers (ROL11, ROL12) then touching said ground (GRD), Deployment (PHA5) of said telescopic handle (POI), unblocking (PHA6) of said second fastening means 25 (FIP2, FIS2), rotation (PHA7) of said battery pack (BLO) around said first pair of rollers (ROL11, ROL12) with the aid of said telescopic handle (POI), then light traction at the with the aid of said telescopic handle (POI) ensuring the said first fixing means (FIP1, FIP2), then possible reverse rotation until the contact of said second pair of rollers (ROL21, ROL22) with said ground (GRD), - 17- Traction (PHA8) for evacuation of said battery pack (BLO). 11 Method (PRO2) for implementing said device (DIS) during installation of said battery pack (BLO) according to any one of the preceding claims, characterized in that it comprises all or some of the following phases: Thrust ( PHA11) of docking of said battery pack (BLO), rotation (PHAl2) of said battery pack (BLO) around said first pair of rollers (ROL11, ROL12) with the aid of said handgrip (POI), then light thrust using said handle (POI), then reverse rotation to the vertical position ensuring the attachment of said first fixing means (FIP1, FIS1), Blocking (PHA13) of said second fixing means (FIP2, 15FIS2), Folding ( PHA14) of said telescopic handle (POI), mounted (PHA15) of said plate (PLA) in the up position, Folding (PHA16) of said rollers (ROL11, ROL12, ROL21, ROL22), Locking (PHA17) of said second fastening means (FIP2, FIS2), Release (PHA18) of said device (DIS) in support of the ds ites crutches (BEQ1, BEQ2), 25 30