• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Chassis for electric vehicles for transporting cargo and electric vehicle comprising said chassis. The invention relates to a chassis (1), suitable for use in electric vehicles, characterized in that it comprises: a substantially flat loading tray (1'), adapted to receive a load on it, being located between at least two wheels front (2', 2'') and at least one rear wheel (2) of an electric vehicle; wherein said loading tray (1') comprises a channel (8) and the chassis (1) further comprises a central axis (9) housed in said channel (8); where the loading tray (1') is pivotally connected with respect to said central axis (9); wherein the loading tray (1') comprises a plurality of housings (13) of symmetrically distributed batteries; and the chassis (1) comprises a rear drive and steering assembly (15) and a front suspension and tilt assembly (16). The invention also relates to an electric vehicle comprising said chassis (1). (Machine-translation by Google Translate, not legally binding)
    公开号:ES2725998A1
    申请号:ES201830313
    申请日:2018-03-28
    公开日:2019-10-01
    发明作者:Márquez Jose María Gómez
    申请人:Passion Motorbike Factory S L;
    IPC主号:
    专利说明:

    [0001]
    [0002] CHASSIS FOR ELECTRIC CARGO TRANSPORT VEHICLES AND ELECTRIC VEHICLE THAT INCLUDES SUCH CHASSIS
    [0003]
    [0004] FIELD OF THE INVENTION
    [0005]
    [0006] The present invention is part of the technical field corresponding to the sector of technologies related to electric vehicles with three or more wheels, preferably single-seater vehicles, mainly intended for cargo transportation. More specifically, the invention relates, although not limited to other types of vehicles, to the development of a moped type electric vehicle comprising a flat chassis, with a characteristic distribution of its elements which allows the load to be accommodated in the central part of the vehicle on top of the chassis, and which also includes a suspension and tilt assembly and a traction and steering assembly, suitable for improving the stability of the vehicle, its maneuverability and driving safety.
    [0007]
    [0008] BACKGROUND OF THE INVENTION
    [0009]
    [0010] Within the technical scope of light electric motor vehicles, intended for the transport of cargo and / or people, there are two main product lines: that of vehicles registered and conducible in city or highway and that of vehicles confined in enclosed spaces (unregistered) such as ships, warehouses, works, etc.
    [0011]
    [0012] Within vehicles destined for the transport of cargo in enclosed spaces, ships or warehouses, normally the vehicles of type pallet truck or "fenwick" are used, which are capable of transporting and even lifting large loads, but they move slowly and somewhat limited, the driver usually standing on the vehicle, driving a rudder or controls. Currently, vehicles are still needed to cover the needs of internal load movements in a more agile and faster way in these enclosed spaces.
    [0013]
    [0014] On the other hand, within the light electric vehicles registered and conducible in city or highway, they are mainly:
    [0015] Registered electric vehicles, such as motorcycles and other light vehicles intended for the transport of goods: these are normally very narrow vehicles, which due to their size and need for approval as an L5E type motorcycle, can access and park in areas intended for motorcycles, without cause retention or traffic jams, and have access to narrow streets and more inaccessible areas for delivery vans, etc.
    [0016]
    [0017] Such vehicles typically comprise two or three wheels and the cargo they carry is normally placed in a hood, housed either in the front or in the rear of the vehicle. On other occasions, the load is housed on the sides of the vehicle as a saddlebag. In all these cases the driver of the vehicle is located in the central area of the vehicle, above the chassis; that is, the main load is always distributed at the ends of the vehicle and the main axle and, if the load is very heavy, this negatively influences its stability and maneuverability. Additionally, the fact of carrying the load in a chest at the end, partially limits both the load in kilos that can be transported, as its total volume, since the volume of the load is also a cause of instability, when moving the center of gravity towards the end.
    [0018]
    [0019] Finally, in the case of two-wheeled electric vehicles of motorcycle type, it happens that when making a turn, and to compensate for the centrifugal force that acts when the curve is taken, the vehicle has to lean slightly towards the center of the curve. This inclination means that the load also tilts next to the motorcycle and can cause accidental fall. Although this problem is common in all motorcycle and moped type vehicles, in the case of electric motorcycles it is especially important, given that their weight is normally worse distributed than in motor vehicles, given the design requirements and requirements of Existing batteries
    [0020]
    [0021] Vehicles destined for public services, such as urban cleaning, garbage collection, maintenance, etc .: normally these are four-wheelers such as vans or vans that are either too wide, or are too slow and heavy and present difficulties mobility. There is a need in this area to provide vehicles that can carry a large box (Europalet) customizable to your technical needs, a load capacity of the order of 750 kg and especially dimensions (approximately 90 cm wide maximum) and an agility that allows them to provide their services in areas and streets of difficult access with greater efficiency.
    [0022]
    [0023] In the cases detailed above, the need to have approved vehicles, which are light and not too large to be able to enter narrow streets and be parked in areas intended for motorcycles, but at the same time capable of carrying a large load (750 kg) or a considerable volume (200 l), in a safe way and with a great driving manageability.
    [0024]
    [0025] These needs, and especially those related to parking and distribution, correspond to the commonly known problem of "the last mile" in logistics. This is the time that passes from when a package leaves the last distribution point until it reaches the place of delivery ; it is the last step of the entire distribution chain and the most fundamental one.This step entails problems such as: mobility in urban areas; inefficiency in deliveries in the case of small packages; the required short space of time to meet delivery times; greater environmental impact (CO2 emissions), etc.
    [0026]
    [0027] With the limitations described in the previous paragraphs, it is necessary, in this technical field, to have clean, light vehicles, with good handling and driving safety, of small dimensions, easy parking, homologated and, at the same time, capable of transporting considerable volumes and cargo, which also adapts to the specific mobility needs according to the function of the specific vehicle.
    [0028]
    [0029] For this purpose, the present invention proposes a novel flat chassis designed for implantation in a mixed electric vehicle or cargo transport, where said load is housed above the chassis and also comprises a traction and steering assembly and a suspension assembly and inclination, whose technical realization allows to overcome with the same vehicle the problems detailed above.
    [0030]
    [0031] BRIEF DESCRIPTION OF THE INVENTION
    [0032]
    [0033] An object of the present invention relates, but not limited to, the development of a chassis, suitable for use in electric vehicles of at least three wheels intended for the transport of cargo and / or people. Advantageously, said chassis comprises: a tray of substantially flat load, adapted to receive a load on it, being substantially located in the space between at least two front wheels and at least one rear wheel of an electric vehicle.
    [0034]
    [0035] Said loading tray comprises a housing channel substantially located along said loading tray. The chassis further comprises a central axis housed in said housing channel; The loading tray is pivotally connected with respect to said central axis. The loading tray comprises a plurality of battery housings; being distributed substantially symmetrically to both sides along the central axis.
    [0036]
    [0037] The chassis also comprises a rear drive and steering assembly and a front suspension and tilt assembly; both sets being connected through the central axle and where the rear drive and steering assembly and the front suspension and tilt assembly respectively comprise connections to the at least one rear wheel and to the at least two front wheels.
    [0038]
    [0039] This is achieved by providing a chassis for three-wheeled electric vehicles that allow the load to be accommodated in the central area of the vehicle, thus increasing the load capacity, through the distribution of the elements, which do not place the driver in the central part of the vehicle, but the heaviest load. It is also possible to move the center of gravity towards the lower area of the vehicle, by placing the batteries symmetrically on both sides of the central axis of the chassis, since they have a considerable weight. In this way, even when the load on top of the loading tray is distributed asymmetrically with respect to the central axis, this does not affect both the stability of the vehicle and a conventional urban delivery motorcycle. Furthermore, with the free pivoting of the loading tray, it is achieved that said loading tray and the load remain horizontal at all times.
    [0040]
    [0041] In a preferred embodiment of the invention, the loading tray comprises extraction rails, configured for the extraction of a loading box housed above the loading tray. Preferably, the extraction rails are located substantially horizontally and perpendicular to the central axis, configured for removal of the cargo box from the side of the loading tray. More preferably, the loading box has anchoring elements to the loading tray that are disconnectable, to fix or release the position of the loading box with respect to the loading tray. Even more preferably, the extraction rails have hydraulic or mechanical means to facilitate the extraction of the cargo box.
    [0042]
    [0043] This is achieved by providing a convenient and quick way to remove the load from the vehicle when it is parked for urban distribution, especially if the load is very heavy or bulky, through the side of the vehicle, not having to lift the box full load, as with the rear chests of conventional motorcycles.
    [0044]
    [0045] In a preferred embodiment of the invention, the chassis comprises a front support of the loading tray and a rear opening of the loading tray; where the rear drive and steering assembly and the front suspension and tilt assembly are arranged respectively and partially in the rear opening and in the front support of the loading tray.
    [0046]
    [0047] Preferably, the front suspension and tilt assembly comprises a stiffening bridge, connecting sleeves, upper suspension trapezoids and lower anchoring trapezoids; where:
    [0048] - the stiffening bridge is integrally connected to the central axis and is partially arranged in the front support of the loading tray;
    [0049] - the front support of the loading tray pivots freely around the central axis;
    [0050] - the stiffening bridge is connected through a pivotal connection to the upper suspension trapezoids;
    [0051] - the upper suspension trapezoids are connected through a pivoting connection to the connecting hoses;
    [0052] - the connecting hoses are connected to the front wheels;
    [0053] - the lower anchoring trapezoids are connected to the connecting sleeves through a pivoting connection, these being adapted for attachment to the front support and to support the weight of the front wheels.
    [0054]
    [0055] This achieves that a vehicle comprising a chassis such as the one of the invention, can trace the curves by tilting the wheels in a stable and safe way, but keeping the loading tray and loading horizontal at all times, since the Front suspension and tilt assembly allows tilt of the stiffening bridge independently of the loading tray. It is achieved with this in addition provide a chassis for use in an electric vehicle, making its driving safe, and that is capable of driving with the agility of a motorcycle and with much greater load capacities than those of a conventional delivery motorcycle.
    [0056]
    [0057] Another object of the present invention relates to an electric vehicle comprising a chassis according to any of the embodiments described herein.
    [0058]
    [0059] In a preferred embodiment of the invention, the electric vehicle comprises a loading housing arranged on the loading tray. This is achieved by protecting the load from inclement weather or possible collisions or blows.
    [0060]
    [0061] In a preferred embodiment of the invention, the electric vehicle comprises an electronics module, said electronics module being configured to manage the energy consumption of the vehicle and the batteries housed in the battery housings. Preferably, the electronics module is arranged on the loading tray.
    [0062]
    [0063] In a preferred embodiment of the invention, the electric vehicle comprises a handlebar and a driver's seat at the rear of the vehicle. This helps to free up the space in the central area to accommodate the cargo or merchandise. This distribution of the elements in the chassis and in the vehicle, housing the driver's seat at the rear of the vehicle, allows to increase the load capacity in weight and volume.
    [0064]
    [0065] In a preferred embodiment of the invention, the electric vehicle comprises one or more additional passenger seats in front of the driver's seat. This is achieved by providing a light and stable electric vehicle for the transport of passengers that also does not impede the vision of passengers, as the driver is located at the rear of the vehicle.
    [0066]
    [0067] In a preferred embodiment of the invention, the electric vehicle has a maximum width of between 80 and 100 cm. This is achieved by providing a light vehicle with a load capacity greater than that of conventional motorcycles that is also capable of driving through urban areas with agility and ease of parking. It is also possible to provide an electric vehicle approved for parking in a motorcycle area without prejudice to its stability, thanks to its dimensions and its innovative chassis comprising the traction and steering assembly and the suspension and tilt assembly.
    [0068]
    [0069] In a preferred embodiment of the invention, the electric vehicle comprises a trailer. With this, it is possible to further increase the load transported by the vehicle.
    [0070]
    [0071] In a preferred embodiment of the invention, the electric vehicle comprises a windshield for the driver of the vehicle. Preferably, the electric vehicle further comprises a roof. This is achieved by protecting the driver from the weather in a light and narrow vehicle.
    [0072]
    [0073] In a preferred embodiment of the invention, the electric vehicle comprises one, two or more rear wheels. This is achieved by increasing the stability of the vehicle with more rear wheels.
    [0074]
    [0075] In a preferred embodiment of the invention in which the electric vehicle comprises a handlebar, the vehicle further comprises an electronic controller on the handlebar and a cable connection from the handlebar to the rear drive and steering assembly to transmit to it the orders of the March.
    [0076]
    [0077] In a preferred embodiment of the invention in which the electric vehicle comprises a cargo housing, between said cargo housing and the cargo tray there is a cargo space having dimensions between 1.0-1.3 m high, 0.8 1.0 m wide and 0.8-1.0 m long. This is achieved by not impeding the visibility of the driver during the journey. Additionally, it is possible to cover the driver and protect him from the resistance that opposes wind when interposing the load housing between it and the wind during the march, as if it were a body.
    [0078]
    [0079] The invention thus allows to propose a solution of an electric vehicle comprising a chassis with a flat loading tray, and which is especially suitable for use in:
    [0080]
    [0081] - Vehicles registered, destined for the transport of goods and that need a load capacity of more than 200 liters, but that due to their dimensions and homologation as an L5E motorcycle, can access and park in areas intended for motorcycles, transporting the same cargo as a commercial van, without causing retentions or traffic jams.
    [0082]
    [0083] - Vehicles registered for the transport of people and normally have two front seats, plus the driver's seat in the rear area, thus facilitating the best visibility of passengers by not having the driver in front of them.
    [0084]
    [0085] - Vehicles for public services, such as urban cleaning, garbage collection, maintenance, firefighters, ambulance, civil protection, police, etc. that need vehicles with a large box (Europalet) customizable to their technical needs, a load capacity of 750 kg and especially dimensions (90 cm wide) and an agility that allows them to provide their services in areas and streets of difficult access .
    [0086]
    [0087] - Vehicles destined to the transport of loads in enclosed spaces, ships or warehouses, that cover the needs of movements of internal loads of a more agile and fast form that with the traditional pallet trucks or fenwick.
    [0088]
    [0089] DESCRIPTION OF THE FIGURES
    [0090]
    [0091] Figure 1 shows a perspective view of an electric vehicle intended for cargo transportation, comprising the chassis of the invention, according to a preferred embodiment thereof.
    [0092]
    [0093] Figure 2 shows an inside perspective view of the chassis loading tray of the invention, according to a preferred embodiment of the invention.
    [0094]
    [0095] Figure 3 shows an interior perspective view of an electric vehicle comprising the chassis of the invention, when it takes a curve and tilts slightly, according to a preferred embodiment thereof.
    [0096]
    [0097] Figure 4 shows an internal front view of the electric vehicle comprising the chassis of the invention, according to a preferred embodiment thereof.
    [0098] Figure 5 shows an internal side view of an electric vehicle comprising the chassis of the invention, according to a preferred embodiment thereof.
    [0099]
    [0100] NUMERICAL REFERENCES USED IN THE FIGURES
    [0101]
    [0102] In order to help a better understanding of the technical characteristics of the invention, the aforementioned Figures 1-5 are accompanied by a series of numerical references where, for illustrative and non-limiting purposes, the following is represented:
    [0103]
    [0104]
    [0105] DETAILED DESCRIPTION OF THE INVENTION
    [0106]
    [0107] A preferred embodiment of the present invention will be described below, provided for illustrative but not limiting purposes.
    [0108]
    [0109] As described in the preceding sections, and as represented in Figures 1-5 of this document, an object of the present invention refers to an electric vehicle intended for the urban distribution of goods and / or transport of persons who understands:
    [0110]
    [0111] - a chassis (1), adapted to accommodate and join all the suspension, steering and traction elements of the vehicle and configured to support the main weight of the vehicle and merchandise;
    [0112] - a rear wheel (2) and two front wheels (2 ’, 2’), connected to the chassis (1); - a cargo box (3), arranged on the chassis (1) adapted to contain inside the transported merchandise;
    [0113] - a cargo housing (4), adapted to receive the cargo box (3);
    [0114] - an electronics module (5), adapted to manage the energy consumption of the electric vehicle;
    [0115] - a seat (6) for the driver; Y
    [0116] - a handlebar (7) to drive and control the direction of the vehicle.
    [0117]
    [0118] An electric vehicle with these elements is shown in Figure 1, according to a preferred embodiment of the invention. The vehicle is designed to be driven from the rear of the vehicle. The chassis (1) comprises a substantially flat loading tray (1 '), arranged horizontally between the three wheels (2, 2', 2 ''), and is adapted to hold the loading box (3) on top, preferably in The central area of the vehicle. More preferably, the cargo box (3) has a height and dimensions such that it does not impede the visibility of the driver.
    [0119]
    [0120] More specifically, the loading tray (1 ') comprises a housing channel (8) that crosses it longitudinally, adapted to receive a central axis (9) comprised in the chassis (1). (The channel (8) is seen in Figure 2, while the central axis (5) can be seen in Figure 5). The loading tray (1 ') also includes holes (10) housing bearing connections (11) between the central shaft (9) and the channel (8) of the loading tray (1 '). These bearings (11) allow the loading tray (1 ') to pivot freely around the central axis (9).
    [0121]
    [0122] The loading tray (1 ’) comprises extraction rails (12), preferably arranged transversely to the central axis (9), adapted to facilitate the removal of the cargo box (3) from the side of the electric vehicle.
    [0123]
    [0124] The loading tray (1 ') further comprises a plurality of housings (13) for a plurality of batteries (14) of the electric vehicle, these being distributed so that the batteries (14) are positioned in a balanced and symmetrical manner by weight. length and width of the plane that forms the loading tray (1 '). The distribution of the batteries (14) contributes in this way to the horizontal stabilization of the cargo tray (1 '), since it allows the distribution of the merchandise inside the cargo box (3) (which is located above the Loading tray (1 ')) is not so decisive in determining the position of the center of gravity of the vehicle, even when the load distribution is not completely symmetrical on both sides of the central axle (9). Additionally, the batteries (14) of electric vehicles are elements of considerable weight, which displaces the center of gravity towards the ground, making the vehicle more stable than a conventional motorcycle. For example, about ten housings (13), five on each side of the central axle (9) can accommodate removable batteries (14) of 10 kg each, moving 100 kg of batteries (14) to a lower area of the vehicle, improving with This is the dynamic behavior of the electric vehicle.
    [0125]
    [0126] On the other hand, as mentioned, the vehicle comprises three wheels (2, 2 ', 2' ') in order to provide greater stability during movement and to be able to transport a load greater than that transported on conventional motorcycles .
    [0127]
    [0128] In addition to all of the above, the chassis (1) of the electric vehicle comprises two sets for stabilizing the vehicle: the rear drive and steering assembly (15) and the front suspension and tilt assembly (16). The rear drive and steering assembly (15) is responsible for driving the vehicle and propelling it during movement. Preferably, this module is connected to the electronics module (5) and the batteries (14) of the electric vehicle, to manage the movement and direction of the vehicle. The front suspension and tilt assembly (16) has the function of keeping the vehicle stable, especially during cornering.
    [0129] For the correct stabilization of the vehicle comprising the chassis (1), both front and rear assemblies (15, 16) are joined by the central axle (9) that passes through the loading tray (1 ’). The front assembly (16) is connected to the front wheels (2 ’, 2’) and the rear assembly (15) is connected to the rear wheel (2). Preferably, the loading tray (1 ’) has a rear opening (17) to accommodate the rear assembly (15) and the rear wheel (2). In addition, the front assembly (16) is arranged in a front support (18) of the loading tray (1 ’), as shown in Figure 3.
    [0130]
    [0131] A detail of the front suspension and tilt assembly (16) is shown in Figure 4. Said front assembly (16) comprises:
    [0132] - upper suspension trapezoids (19);
    [0133] - lower trapezoids (20) for anchoring;
    [0134] - connecting hoses (21);
    [0135] - a stiffening bridge (22);
    [0136] - a secondary axis (23).
    [0137]
    [0138] The stiffening bridge (22) is partially housed in the front support (18), jointly attached to the central axis (9) of the chassis (1), while the front support (18) of the loading tray (1 ') freely pivots around the central axis (9) through one of the bearings (11). The upper suspension trapezoids (19) are connected to the stiffening bridge (22) through a pivotal connection around a secondary axis (23). The upper suspension trapezoids (19) are connected in an articulated manner through connecting hoses (21) to the lower anchor trapezoids (20). The lower anchor trapezoids (20) are fixed to the front support (18) of the loading tray (1 ’) and the connecting sleeves (21) are connected to the front wheels (2’, 2 ’).
    [0139]
    [0140] When the vehicle takes a curve, the driver moves into the curve as if it were a motorcycle; at that time, the inclination is transmitted to both the front assembly (16) and the rear assembly (15). The rear assembly (15) transmits the inclination to the rear wheel (2) since the axle of the rear wheel (2) is integral with said rear assembly (15) and also transmits the inclination to the front assembly (16) since both assemblies are joined by the central axis (9). When the inclination is transmitted to the front assembly (16), immediately, the stiffening bridge (22) is inclined. With the stiffening bridge (22) and the upper trapezoids (19) having a pivotal connection, the upper trapezoids (19) pivot around the secondary axis (23), causing said inclination is transmitted in turn to the connecting hoses (21) (and from them to the front wheels (2 ', 2'')), since their axes are integral with the connecting hoses (21)), but keeping said inclination isolated with respect to the lower trapezoids (20) of anchorage and the front support (18) of the loading tray (1 '). Therefore, the function of the stiffening bridge (22) is to bend in the curve and transmit the inclination parallel to the front wheels (2 ', 2'') but keeping the loading tray (1') horizontal. This novel design keeps the vehicle stable in the cornering. Thus, when drawing a curve, the vehicle tilts but the loading tray (1 ') pivots around the central axis (9) by supporting the bearings (11) anchored to the chassis (1), for example, of type needles or balls, there is no rigid connection between the two and allowing a free rotation. Thus, the loading tray (1 ') is isolated from the inclinations suffered by the vehicle at all times. This is a great advantage, since the vehicle is stable when cornering while the load remains horizontal.
    [0141]
    [0142] Therefore, this new distribution and technical elements combine the inclination capabilities of motorcycles or tricycles with the load properties of a substantially flat chassis (1) closer to the traditional one of a truck in the same electric vehicle.
    [0143]
    [0144] The fundamental advantage of the vehicle of the invention lies in the ability to tilt the vehicle to facilitate the drawing of curves, while maintaining the horizontal load with respect to the ground, joining the best of cars (stability, safety, load capacity ...) with the best of motorcycles (agile in urban, narrower and more accessible, more moderate consumption.).
    [0145]
    [0146] As can be seen in Figure 3, additionally, the chassis (1) of the electric vehicle has the functionality of providing structural rigidity to the vehicle due to its distribution and design, overcoming the rigidity and stability of a conventional motorcycle.
    [0147]
    [0148] Another of the main advantages of the electric vehicle of the invention lies in the distribution of the elements that the chassis (1) houses in the vehicle. The distribution of these elements optimizes the use of space and the stability of the vehicle, while increasing the load capacity and volume, without the need to provide a vehicle as wide as a car or an urban delivery van for it. In this sense, the electric vehicle of the invention is homologous and can park in parking lots destined for motorcycles, at the same time that it is narrow enough to circulate through narrow streets and more inaccessible places for other types vehicular. In addition, the electric vehicle of the invention is a clean vehicle and its CO2 footprint is non-existent.
    [0149]
    [0150] That is, the flat design of the loading tray (1 ') and the chassis (1) allows to optimize the cargo space that can be transported in a narrow and light electric vehicle less than 90 cm wide, being able to transport up to volumes for the cargo box (3) of the order of 200 l. Preferably, the cargo box (3) has substantial dimensions of 1.2 x 0.9 x 0.9 m.
    [0151]
    [0152] On the other hand, the distribution of the load and the elements in the chassis (1), allows the load to reach the order of 200-750 kg, maintaining the stability and approval necessary to circulate and park in parking lots to conventional motorcycles.
    权利要求:
    Claims (15)
    [1]
    1. - Chassis (1), suitable for use in electric vehicles of at least three wheels intended for the transport of cargo and / or persons, characterized in that said chassis (1) comprises:
    a substantially flat loading tray (1 '), adapted to receive a load on it, being substantially located in the space between at least two front wheels (2', 2 '') and at least one rear wheel (2) of an electric vehicle;
    wherein said loading tray (1 ’) comprises a housing channel (8) substantially located along said loading tray (1’);
    where the chassis (1) further comprises a central axis (9) housed in the housing channel (8); where the loading tray (1 ’) is pivotally connected with respect to said central axis (9);
    where the loading tray (1 ’) comprises a plurality of battery housings (13); being distributed substantially symmetrically to both sides along the central axis (9);
    where the chassis (1) further comprises a rear drive and steering assembly (15) and a front suspension and tilt assembly (16); both sets (15, 16) being connected through the central axle (9) and where the rear drive and steering assembly (15) and the front suspension and tilt assembly (16) respectively comprise connections to the at least one rear wheel (2) and at least two front wheels (2 ', 2' ').
    [2]
    2. - Chassis (1) according to the preceding claim wherein the loading tray (1 ') comprises extraction rails (12), configured for the extraction of a loading box (3) housed on the loading tray (1' ).
    [3]
    3. - Chassis (1) according to the preceding claim wherein the extraction rails (12) are located substantially horizontally and perpendicular to the central axis (9), configured for the extraction of the cargo box (3) by the side of the loading tray (1 ').
    [4]
    4. Chassis (1) according to any of the preceding claims comprising:
    - a front support (18) of the loading tray (1 ’);
    - a rear opening (17) of the loading tray (1 ');
    where the rear drive and steering assembly (15) and the front suspension and tilt assembly (16) are arranged respectively and partially in the rear opening (17) and in the front support (18) of the loading tray (1 ' ).
    [5]
    5. - Chassis (1) according to the preceding claim wherein the front suspension and tilt assembly (16) comprises a stiffening bridge (22), connecting sleeves (21), upper suspension trapezoids (19) and lower trapezoids (20) anchor; where:
    - the stiffening bridge (22) is jointly connected to the central axis (9) and is partially arranged in the front support (18) of the loading tray (1 ’);
    - the front support (18) of the loading tray (1 ’) freely pivots around the central axis (9);
    - the stiffening bridge (22) is connected through a pivoting connection to the upper suspension trapezoids (19);
    - the upper suspension trapezoids (19) are connected through a pivoting connection to the connecting hoses (21);
    - the connecting hoses (21) are connected to the front wheels (2 ’, 2’ ’);
    - the lower anchoring trapezoids (20) are connected to the connecting hoses (21) through a pivoting connection, these being adapted for fixing to the front support (18) and to support the weight of the front wheels (2 ' , 2'').
    [6]
    6. - Electric vehicle comprising a chassis (1) according to any of the preceding claims.
    [7]
    7. - Electric vehicle according to the preceding claim comprising a load housing (4) arranged on the loading tray (1 ’).
    [8]
    8. - Electric vehicle according to any of claims 6-7 comprising an electronics module (5), said electronics module (5) being configured to manage the batteries (14) housed in the battery housings (13).
    [9]
    9. - Electric vehicle according to any of claims 6-8 whose maximum width is between 80 and 100 cm.
    [10]
    10.
    [11]
    11. - Electric vehicle according to any of claims 6-10 comprising one, two or more rear wheels (2).
    [12]
    12. - Electric vehicle according to any of claims 6-11 comprising a handlebar (7) and a seat (6) for a driver at the rear of the vehicle.
    [13]
    13.
    [14]
    14.
    [15]
    fifteen. Electric vehicle according to any one of the preceding claims 7-14, where between the cargo housing (4) and the cargo tray (1 ') there is a cargo space having dimensions between 1.0-1.3 m high, 0.8-1.0 m wide and 0.8-1.0 m long.
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    同族专利:
    公开号 | 公开日
    ES2725998B2|2020-02-03|
    CN111918814B|2022-03-04|
    EP3778365A1|2021-02-17|
    US20210031860A1|2021-02-04|
    EP3778365A4|2021-12-15|
    CN111918814A|2020-11-10|
    WO2019185964A1|2019-10-03|
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    法律状态:
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    优先权:
    申请号 | 申请日 | 专利标题
    ES201830313A|ES2725998B2|2018-03-28|2018-03-28|CHASSIS FOR ELECTRIC CARGO TRANSPORT VEHICLES AND ELECTRIC VEHICLE THAT INCLUDES SUCH CHASSIS|ES201830313A| ES2725998B2|2018-03-28|2018-03-28|CHASSIS FOR ELECTRIC CARGO TRANSPORT VEHICLES AND ELECTRIC VEHICLE THAT INCLUDES SUCH CHASSIS|
    US17/042,561| US20210031860A1|2018-03-28|2019-03-27|Chassis for Electric Cargo Vehicles and Electric Vehicle Comprising Said Chassis|
    CN201980023295.5A| CN111918814B|2018-03-28|2019-03-27|Electric truck chassis and electric vehicle comprising same|
    PCT/ES2019/070204| WO2019185964A1|2018-03-28|2019-03-27|Chassis for electric cargo vehicles and electric vehicle comprising said chassis|
    EP19777773.3A| EP3778365A4|2018-03-28|2019-03-27|Chassis for electric cargo vehicles and electric vehicle comprising said chassis|
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