WO2022082287A1 - Sliding cable dispenser for elevator - Google Patents

Abstract

The present invention relates to a sliding dispenser used in an elevator device for electric vehicles commonly used in parking installations, allowing the dispensing of the cables used for charging the batteries of the vehicle during the operation of the elevator without electrical contact being interrupted and not interfering with its operation. The dispenser can be applied to elevators of the type having vertical rotating platforms, with an elliptical or circular trajectory, and can also alternatively be applied to horizontal elevators having one or more parking levels.

Description

SLIDING CABLE DISTRIBUTOR FOR ELEVATOR

Subject:

[001] The present Patent of Invention refers to a sliding distributor used in lifting device for electric vehicles commonly used in parking lots, which allows the distribution of cables used to charge the vehicle's batteries during the elevator operation without electrical contact is interrupted, not interfering with its operation. The distributor can be applied in elevators of the type with vertical rotating platforms, with elliptical or circular trajectory, and also, alternatively, can be applied in horizontal elevators, with one or more parking floors.

Technique Status:

[002] The increase in electric energy as a means of supplying vehicles has been increasingly improved, with highly profitable and efficient electric vehicles already existing today, captivating more and more consumers. As a result, there is also a growing need for practical, easily accessible means of supplying these vehicles that can be accessed by people in their everyday lives, since the complete charging of the vehicle can take up to 2 hours, depending on the model.

[003] Added to this is the scarcity of horizontal spaces in large cities that can be used for parking and charging stations, so that alternatives that include vertical parking, whether in buildings or structures with elevators, are increasingly suited to reality.

[004] Regarding vertical parking lots that use elevators to move vehicles through rotating lifting platforms, there are several types of constructive models already known in the art. Some examples of building vertical parking with rotating platforms can be seen in documents BR202014 003084-6 filed on 02/10/2014 by GUIMARÃES and BR202016 028413-4 filed on 12/02/2016 by CROACIA MOVIMENTAÇÃO DE CARGAS.

[005] However, these models mentioned above do not bring solutions that allow the recharging of electric vehicles, since this solution requires that the vehicle remains connected to the network or to a charger/battery at the same time that the movement of the vehicle is held inside the parking lot.

[006] The document WO2013/076346 published on 05/30/2013 describes a parking and charging station for electric vehicles built by a plurality of rings arranged in two rows (two floors) making each platform isolated from the others, allowing recharging vehicle batteries by intelligent means. Solar panels are also provided on the structure with accumulator means and external recharging means.

[007] In this case, the recharge takes place by batteries arranged in each of the platforms, which must be replaced at the end of the cycle, depending on the rotation of the vehicles. The facility also provides extra batteries so vehicles can replace their batteries instead of waiting for them to recharge.

[008] It turns out that this form of operation requires that a large number of batteries be made available, due to the fact that each platform needs to have some batteries for its own uninterrupted operation, which need to be constantly recharged and placed on the platforms.

[009] This factor causes a series of inconveniences ranging from the high investment required depending on the number of batteries required and their various models, to the difficulty of operation due to the constant movement and need to recharge them. Inventive Concept:

[010] The present Sliding Cable Distributor for Elevator seeks to meet mainly the objective of allowing the parking and charging of electric vehicles simultaneously in parking lots consisting of different rotating platforms, vertical or horizontal, using individual cables for charging arranged by a sliding distributor, so that the electrical contact is not interrupted during the movement of the elevator.

[01 1] For this purpose, next to the elevator shaft, there is a sliding distributor that will perform the function of connecting the power cable coming from the photovoltaic panels, storage media or the common electrical network, with the power cable connected to the terminal matrix, ensuring that electrical contact is maintained throughout the elevator movement.

[012] Alternatively, depending on the structure of the elevator, the sliding distributor can be installed next to a second support shaft, as long as its rotation condition is maintained, and its installation next to the driving shaft is a preferential, but not restrictive, suggestion. .

[013] Each platform on which a vehicle is placed constitutes a charging station and includes a terminal equipped with a charging cable with connector that will be coupled to the vehicle. Among the various individual stations on the platforms, the one called matrix station will receive the cables coming from the sliding distributor, and from this station the cables will come out that will connect the other terminals in series.

[014] The sliding distributor is formed by two parts:

- by the transmitter connector, bearing, formed internally by rows of copper, forming the positive and negative poles, in order to transmit the energy coming from the power supply cable to the cable wound on the spool; - and by the spool, also rolled and fixed to the transmitter connector by pins, internally equipped with a ribbon spring arranged in order to loosen or collect the cables that will feed the matrix terminal, as a result of the rotation movement of the elevator.

[015] With this, there is the automatic movement of the cables that feed the matrix station due to the rotation movement of the elevator, preventing the cables from intertwining in some way and ensuring that electrical contact is maintained throughout the movement.

[016] The sliding distributor can be used in elevators or platforms for vehicles with horizontal movement, and its installation together with vertical elliptical or circular trajectory elevators is a preferential, but not restrictive, suggestion.

[017] Likewise, cables with connectors attachable to the vehicle can be replaced by other means of connection and charging, such as electromagnetic induction charging, as well as including universal or case-specific connectors.

Application field:

[018] The application of the Sliding Cable Distributor for Elevator is as a sliding distributor of reel-type power cable used for charging electric vehicles.

Benefits:

[019] The Sliding Cable Distributor for Elevator has the following advantages:

• Allows parking and charging of electric vehicles simultaneously, using cables or other intelligent means to replace them;

• Allows the use of individual power cables for each platform, without them tangling or interfering with movement rotation of the platforms, ensuring the maintenance of the electrical connection throughout the rotation movement;

• Enables the use of different sources of electricity supply;

• Allows the user to monitor the loading progress in real time, as well as access via a computer program or application for payment or other services;

• Enables greater use of parking and charging spaces for electric vehicles, due to their construction by vertical rotating platforms;

• Allows for the dissemination of the installation of rotating stations for charging electric vehicles in the most diverse technical and economic conditions;

• Allows the practical adaptation of parking lots already in operation that use mobile platforms to charge electric vehicles;

• Through the dissemination of charging stations, greater use of electric vehicles by the population is promoted, due to the best cost-benefit ratio;

• It can be used in charging stations for different types of vehicles, small or large, such as motorcycles, trucks, minibuses, buses, etc.

Illustrations:

[020] In order to facilitate the research and provide an understanding of this patent, as recommended in the report, according to a basic and preferential form of realization prepared by the applicant, reference is made to the attached illustrations, which integrate and support this descriptive report where , a:

FIG. 01 - presents the perspective of the elevator; FIG. 02 - presents the side view of the elevator;

FIG. 03 - presents the perspective of the sliding distributor system; FIG. 04 - presents the perspective in detail of the sliding distributor system;

FIG. 05 - shows the side view of the sliding distributor;

FIG. 06 - presents the exploded perspective of the transmitter connector;

FIG. 07 - presents the exploded perspective of the spool;

FIG. 08 - presents the perspective of the sliding distributor.

Description:

[021] The Sliding Cable Distributor for Elevator comprises a structure (1) of the elevator that supports a plurality of platforms (2) on which the vehicles are positioned. A rotation mechanism (3) is arranged along the axis (4) so that the platforms (2) rotate around said axis, following an elliptical or circular path. In general, the vertical elliptical path is preferred because it takes up less space, but it is not restrictive.

[022] Alternatively, the elevator can be of the horizontal type, that is, with a horizontal elliptical trajectory, depending on its original structure. The number of platforms (2) may vary depending on the final proportions of the parking lot, and there may be more than one sliding distributor in a single parking lot. Several structures (1 ) can be placed side by side to form a large parking lot and charging station for electric vehicles, depending on demand.

[023] A plurality of known photovoltaic plates (5) can be arranged on the structure (1), which have the function of generating solar energy that can be used by the parking lot itself, stored or used directly for charging vehicles.

[024] On each platform (2) there is a station (6) that has a cable with a connector (7) for connection to the vehicle in order to allow recharging. Station (8) is called the parent station by make the connection with the sliding distributor (9). The connection between the matrix station (8) and the other stations (6) is done in series through the power cables (10).

[025] The sliding distributor (9) is formed by the transmitter connector (1 1 ) and the spool (12), and is installed next to the pipe (13) that brings the power cables (14) from the photovoltaic boards inside. (5) or from the external power grid. One of the possible options is the installation of the sliding distributor (9) directly on the shaft (4). However, despite this being a preferred arrangement, the sliding distributor (9) can be installed next to other axles, structures or supports suitable for the structure of the elevator.

[026] The transmitter connector (1 1 ) includes the bearing (15) which has the function of allowing the sliding distributor (9) to rotate following the rotation movement of the platforms (2). The connector (16) connects the power cables (14) and the connector (17) connects the power cables (18) that go to the spool (12). Internally to the housing (20), formed by two parts that fit together, the copper conductors (19) form the negative and positive poles, ensuring electrical contact and continuous electrical transmission throughout the elevator's operation. In a preferred construction, four copper conductors (19) are used, two fixed and two sliding. However, this is not a restrictive construction, and the number of conductors may be adequate depending on the energy demanded, on a case-by-case basis.

[027] The spool (12) is fixed to the transmitter connector (1 1 ) by the pins (21), having internally the bearing (22), bushing (23) used for fixing the ribbon spring (24), which is fixed under tension inside the body (25) of the spool. The cables (18) are wound on the body (25) of the spool and are connected to the matrix terminal (8). The cover (26) serves to keep the spool (12) closed. [028] As the ribbon spring (24) is fixed under tension, when the cables (18) are loosened depending on the platform that contains the matrix station (8) it travels its smallest distance in relation to the axis of rotation of the elevator, automatically the cables (18) will be wound on the body (25) of the spool in its loose portion, in order to avoid any type of entanglement between the cables.

[029] As a result, all vehicles parked on platforms (2) will be loaded while parked, with the rotation movement of the elevator being entirely preserved, without tangles in the cables or disconnection of the electrical connection during movement.

Conclusion:

[030] In this way, the Sliding Cable Distributor for Elevator is subsidized by unprecedented functional characteristics, therefore deserving the claimed legal protection.

Claims

9 CLAIMS 1. ELEVATOR CABLE SLIDING DISTRIBUTOR is characterized in that the sliding distributor (9) is formed by the transmitter connector (11), internally provided with at least four copper conductors (19). 2. SLIDING ELEVATOR CABLE DISTRIBUTOR according to claim 1 is characterized by the fact that at least two copper conductors (19) are sliding. 3. ELEVATOR CABLE SLIDING DISTRIBUTOR according to claim 1 is characterized by the fact that the transmitter connector (11) includes the bearing (15), connectors (16) and (17) for connecting the power cables (14) and ( 18) respectively. 4. SLIDING CABLE DISTRIBUTOR FOR ELEVATOR according to claim 1 is characterized by the fact that the transmitter connector (11) is connected to the spool (12). 5. SLIDING CABLE DISTRIBUTOR FOR ELEVATOR according to claim 4 is characterized by the fact that the spool (12) has the bearing (22), the bushing (23) for fixing the tape spring (24), and the cables (18) are wound onto the body (25) of the spool. 6. ELEVATOR CABLE SLIDING DISTRIBUTOR according to claim 1 is characterized by the fact that the sliding distributor (9) is connected to the matrix station (8) by the power cables (18), and the connection between the matrix station ( 8) and the other stations (6) are in series through the power cables