DE202023105381U1 - Containers for storing, transporting, charging or quarantining high performance batteries - Google Patents

Abstract

Container for the storage, transport, charging or quarantine of high performance batteries, characterized in that it comprises:
- a robust structure (1) with walls and access doors (12) defining a compartment for receiving at least one high-performance battery or a product or vehicle containing a high-performance battery;
- a cooling system (2), which comprises the following: a coolant container (21), which is preferably arranged on the roof of the container (1) and via a manually or automatically operated solenoid valve (23) with a circuit for draining (22) of the coolant to the batteries housed in the container (1), and a circuit for recovering (4) the coolant drained onto the batteries and the impurities released by the batteries;
- luminous and audible alarm means (3) connected to temperature and/or smoke or gas sensors (31, 32) located inside the container and which automatically activate the solenoid valve (23) of the drain circuit when they detect overheating or the presence of fire or smoke inside the container (1).

Description

field of technology.

The present invention relates to containers for high-performance batteries, either stored, charged, transported or quarantined alone, or incorporated into products that contain them as a source of energy, such as vehicles, electrical, electronic or any other type of equipment.

Current state of the art

Due to their various advantages, such as the fact that they store much more charge per unit of weight and volume, high-performance batteries, such as lithium-ion batteries, are among the most interesting batteries for use in electric automobiles, laptops, cell phones and other electronic and electrical devices.

Given the increasing shortage of petroleum-based fuels and the need to keep pollutant emissions low, a number of electric vehicles have been developed that need to store a large amount of electrical energy to power the engine. Today's technology has led to this electrical energy being stored in high-performance batteries such as lithium-ion batteries, which have high energy capacity and high discharge resistance, have hardly any memory effect, can operate with a high number of regeneration cycles and on top of that are the lightest.

However, these high-performance batteries are made of flammable materials and are sensitive to high temperatures, shock, manufacturing defects, improper use or handling, which can lead to ignition and even explosion. This is a risk that poses a serious problem for storage, charging and, as there are many reasons that can make batteries unsafe, quarantine.

The risk of ignition or explosion of high-performance batteries, such as lithium-ion batteries, is significant, both when they are disassembled and stored separately, as they are not always safe to handle, and when they are incorporated into products that use them Use energy source, e.g. in accident vehicles that are due for repair, as the batteries can show damage that reveals and accelerates such secondary effects.

These high-performance batteries require suitable containment to prevent foreseeable risks of overheating, ignition or explosion of such high-performance batteries or of vehicles or products containing such batteries.

Explanation of the invention.

The container for the storage, transport, charging or quarantine of high-performance batteries, such as lithium-ion batteries, which is the subject of the present invention, has technical features that provide security against possible incidents with the batteries contained therein and which solve the problems caused by such batteries when their storage, charging or observation in quarantine is required.

For this purpose and according to the invention, the container comprises: a resistant structure with walls and access doors made of fireproof materials, 30-60-90-120 min, comprising a compartment for accommodating at least one high-performance battery or a product or vehicle containing a high-performance battery, to delimit; alarm means equipped with sensors to detect the increase in temperature and/or the presence of vapors or gases inside the compartment; a cooling system comprising: a tank of cooling liquid, preferably disposed on the container, a cooling liquid drain circuit which completely floods the batteries housed in the container when the alarm means are activated, and a recovery circuit for the cooling liquid and that from the batteries pollutants released and transported away through the coolant, which prevents them from being discharged into the environment or the sewage system.

The walls and doors of such a container are made of panels made of a heat-insulating material that, in the event of a fire, prevents or delays the spread of fire.

The coolant that is poured into the container to stop any possible overheating may be contaminated by the products released by the batteries. Although it is water, it cannot be discharged into the sewer system and is therefore reused through the recovery circuit, which includes a collection tank or container from which it is pumped into the tank via a return pipe.

In one embodiment of the invention, the container additionally comprises a cooling unit, which cools the coolant contained in the tank, which is preferably located on the roof of the container and/or in the interior of the container, in order to reduce the overheating of the batteries inside the container.

The container may have an emergency decompression plate on its external surface, preferably on the roof, to minimize damage in the event of an explosion of a battery inside the container.

Brief description of the contents of the drawings.

• - zeigt ein Beispiel für eine Ausführungsform des erfindungsgemäßen Containers für die Lagerung, Aufladung oder Quarantäne von Hochleistungsbatterien, der für die isolierte Lagerung von Unfall- oder Quarantänefahrzeugen oder anderen Produkten, die mit solchen Batterien ausgestattet sind, geeignet ist.
• - zeigt eine Ansicht des Containers aus , die entlang einer vertikalen Ebene geschnitten ist und in der die verschiedenen darin enthaltenen Kühl-, Alarm- und Kältesysteme schematisch dargestellt sind; zusätzlich ist eine Kühleinheit zur Kühlung der im Tank und/oder im Inneren des Containers enthaltenen Kühlflüssigkeit enthalten.
• - zeigt eine perspektivische Ansicht einer Ausführungsform des erfindungsgemäßen Containers zur Lagerung, Aufladung oder Quarantäne von Hochleistungsbatterien, der mehrere wasserdichte Module zur Aufnahme von Hochleistungsbatterien umfasst.

In order to supplement the present description and to facilitate understanding of the features of the invention, this description is accompanied by a series of drawings in which the following are shown, by way of illustration and without limitation:

• - shows an example of an embodiment of the container according to the invention for the storage, charging or quarantine of high-performance batteries, which is suitable for the isolated storage of accident or quarantine vehicles or other products equipped with such batteries.
• - shows a view of the container , which is cut along a vertical plane and in which the various cooling, alarm and refrigeration systems contained therein are shown schematically; In addition, a cooling unit is included for cooling the coolant contained in the tank and/or inside the container.
• - shows a perspective view of an embodiment of the container according to the invention for storing, charging or quarantining high-performance batteries, which includes several waterproof modules for holding high-performance batteries.

Detailed description of embodiments of the invention.

The and show a container (1) consisting of a sturdy steel structure (11) with walls and access doors (12) comprising panels made of a heat-insulating material, for example rock wool, which are fire-retardant on the inside or outside and an internal compartment for storage Charge or quarantine high-capacity batteries, such as lithium-ion batteries, that are alone or mounted on a product or vehicle that carries these batteries.

The container (1) can have different external dimensions to meet the needs of the user. In one embodiment, these dimensions are: 2.3 m. high, 1.4 m. wide and between 3 and 8 m. long. This container (1) can be equipped with legs (13) and/or support wheels that make it easy to move.

The container (1) has a cooling system (2), which includes the following: a tank (21) for coolant, which in this version is located on the roof of the container (1) and with a circuit (22) for draining the coolant to the batteries housed in the container (1) when light and acoustic alarms (3) are triggered, which are connected to temperature and smoke sensors (31, 32) located inside the container.

This drain circuit (22) includes a solenoid valve (23) which opens manually or automatically through the action of the sensors (31, 32) and causes the coolant contained in the tank (21) to be poured over the batteries when the sensors ( 31, 32) detect overheating or the presence of fire or smoke inside the container, thereby cooling and interrupting the automatic overheating process. The coolant contained in the tank (21) can be water or an extinguishing liquid.

The container (1) has a recovery circuit (4) for the coolant released via the batteries and for the impurities released by the batteries and carried by the coolant. This recovery circuit (4) includes a tray or container (41) at the bottom to collect the coolant and any impurities from the batteries, and a pump (42) to return it to the tank (21) through a return line (43). pump and thus prevent the coolant and contaminants from entering the environment or the sewage system.

The container (1) also has a fan (33), as in shown, for smoke extraction, which is activated by the sensors (31, 32) in conjunction with the alarm means (3).

In order to be able to carry out the necessary maintenance work on the devices in the container (1) without having to remove the batteries or drain the coolant, the drain circuit (22) includes a second solenoid valve (25) for closing the flow of coolant inside the container (21). and a valve (26) arranged in a bypass or branch (27) for connection to the coolant recovery circuit (4); wherein the outlet circuit (22), the branch (27) and the recovery circuit (4) form a closed circuit for the circulation of the coolant to and from the tank (21). This closed circuit makes it possible to check whether the system elements are functioning properly without pouring the coolant into the container (1).

In the in In the embodiment shown, the container (1) also includes a cooling unit (5), which cools the coolant contained in the tank (21) and/or the interior of the container (1), for example in order to keep it at 5 ° C and prevent overheating of the inside Batteries housed in container (1).

Like in the and shown, the container (1) can be provided with an emergency decompression plate (6) on its outer surface, preferably in an area of the roof not occupied by the tank (21), to prevent damage in the event of an explosion of a battery inside the container to minimize.

In the in In the variant shown, the container (1) is equipped inside with a series of airtight modules (14), the number of which varies depending on the specific foreseeable needs. Each airtight module (14) is equipped with the corresponding temperature and/or smoke sensors as well as visual and acoustic alarm devices, which, when triggered, activate both the air extraction and the drop of coolant stored in the container on the roof.

Having sufficiently described the nature of the invention and an example of a preferred embodiment, it is hereby explained for the relevant purposes that the materials, shape, size and arrangement of the elements described may be changed provided that this does not result in a change in the essential features of the invention claimed below.

Claims (8)

Container for the storage, transport, charging or quarantine of high-performance batteries, characterized in that it comprises: - a robust structure (1) with walls and access doors (12) forming a compartment for receiving at least one high-performance battery or product or vehicle that contains a high-capacity battery; - a cooling system (2), which comprises the following: a coolant container (21), which is preferably arranged on the roof of the container (1) and via a manually or automatically operated solenoid valve (23) with a circuit for draining (22) of the coolant to the batteries housed in the container (1), and a circuit for recovering (4) the coolant drained onto the batteries and the impurities released by the batteries; - luminous and audible alarm means (3) connected to temperature and/or smoke or gas sensors (31, 32) located inside the container and which automatically activate the solenoid valve (23) of the drain circuit when they detect overheating or the presence of fire or smoke inside the container (1). Container after Claim 1 , wherein the coolant recovery circuit (4) comprises at the bottom a tray or container (41) for collecting coolant and possible contaminants from the batteries and a pump (42) for pumping the coolant through a return line (43) into the tank (21). . Container after Claim 1 , wherein the walls and doors (12) of the container (1) consist of panels made of a heat-insulating, fire-retardant material. Container after Claim 1 , with a fan (33) for smoke extraction, which is activated by the sensors (31, 32) in conjunction with the alarm means (3). Container according to one of the preceding claims, wherein the outlet circuit (22) comprises a second solenoid valve (25) for closing the passage of the cooling liquid into the tank (21) and a valve (26) arranged in a bypass or branch (27). Connection to the coolant recovery circuit (4) is arranged; wherein the outlet circuit (22), the branch (27) and the recovery circuit (4) form a closed circuit for the circulation of the cooling liquid to and from the tank (21). Container according to one of the preceding claims, with a cooling unit (5) which cools the cooling liquid contained in the tank (21) and/or the interior of the container (1). A container according to any one of the preceding claims, having an emergency decompression plate (6) on its external surface in the event of an explosion. Container according to one of the preceding claims, which has in its interior a number of waterproof modules (14) in variable numbers for accommodating high-performance batteries.

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