NO20230360A1 - BATTERY STORAGE AND CHARGING DEVICE - Google Patents

Description

BATTERY STORAGE AND CHARGING DEVICE

The invention relates to a device for storing and charging a battery. There are various solutions for storing and charging batteries. One example is Falco's “FalcoCharge e-bike battery charging locker”,

(https://www.falco.co.uk/products/cycle-parking/advanced-cycle-products/ebike-battery-charging-locker.html). Eight lockers are shown stacked on top of each other. Each locker is equipped with a power outlet to charge a battery. The lockers have a digital lock with a PIN code.

The invention aims to improve how devices for storing and charging batteries are assembled.

The object is achieved by the features set forth in the description below and in the subsequent patent claims.

In a first aspect, the invention more specifically relates to a device for storing and charging a battery, the device comprising:

- a housing for storing the battery,

- a connector provided in the housing, the connector being arranged to supply a charger with power when the connector in a use position is connected to a power supply, - a bracket attached to the housing for mounting the device on a column, the bracket being designed with a hole for threading the bracket onto the column.

The invention has the effect that the assembly of the device for storing and charging a battery can be made more efficient, for example by threading one or more devices onto a column attached to a wall, floor or ground. In one embodiment, the bracket is attached to the housing such that the housing projects radially from a longitudinal axis of the column. The contact can, for example, be connected to a fuse box with a live cable. In one embodiment, the contact can be connected to a renewable power source, for example a solar panel. In one embodiment, the contact can be connected to a battery, for example a lithium-ion battery.

A further effect of the invention is that the device can be rotated about the longitudinal axis of the column. On a column with several devices, these can thus have different angles in relation to each other.

In one embodiment, the device comprises an electronic component connected to the connector, where the electronic component is configured to selectively cut off the power from the power supply to the connector. This has the effect of controlling when the connector is to supply power to a charger, and thus when the charger is to charge the battery, as long as the battery is connected to the charger. In one embodiment, the device comprises a communication unit connected to the electronic component. The communication unit can be connected to a network, for example Wifi or 4G/5G. Thus, the electronic component can be controlled via the network from a computer or mobile device at another location.

In one embodiment, the device comprises a waterproof chamber for housing the electronic component. This has the effect that the device can be exposed to water, for example rain, without the electronic component being damaged.

In one embodiment, the device comprises a sensor connected to the electronic component for detecting temperature, gas and/or smoke in the housing. This has the effect that the electronic component can cut off the power supply to the socket if the electronic component receives a signal from the sensor that it has detected a temperature change, gas and/or smoke in the housing. Both temperature change, gas and/or smoke in the housing can be signs of a fire in the battery. Cutting off the power supply reduces the risk of a fire escalating.

In one embodiment, the electronic component is arranged to register how many watts are delivered through the connector. By delivered here is meant how many watts of power pass through the connector over a period of time. This has the effect of registering the accumulated power consumption for charging a battery.

In one embodiment, the device comprises an electronic display connected to the electronic component for displaying information. The electronic display may, for example, display a QR code. In one embodiment, the housing comprises a door and an electromechanical lock for locking the door, the electromechanical lock being connected to the electronic component for controlling opening and locking of the electromechanical lock. In one embodiment, the electronic component may be communicated with a mobile device, such as a smartphone or tablet, via a network, such as Wifi or 4G, to open or lock the door.

In a second aspect, the invention relates more specifically to a system comprising at least two devices and a column, wherein the at least two devices, in a position of use, are positioned vertically above each other on the column such that a lower end portion of the bracket of the upper device abuts an upper end portion of the bracket of the lower device. This has the effect that several devices can be mounted on the same column.

In one embodiment, the upper end portion of the bracket is formed with at least one pin and the lower end portion of the bracket is formed with at least one opening. The pin and the opening are designed to fit into each other. The pin on one bracket will thus be able to be threaded into the opening on an above bracket and thereby lock the orientation of the two relative to each other. In one embodiment, a pin is provided on a lower end portion of the column to thread the hole on the lower bracket onto the pin and thereby lock the orientation of the bracket relative to the column.

In a third aspect, the invention more specifically relates to a set of associated parts for storing and charging a battery, comprising:

- a column;

- a device comprising;

- a housing for storing the battery;

- a connector arranged to supply a charger with power when the connector in a use position is connected to a power supply;

- a bracket for mounting the device on the column, the bracket being designed with a hole for threading the bracket onto the column,

- an electronic component connected to the socket to selectively cut off the power from the power supply to the socket.

In the following, an example of a preferred embodiment is described, which is illustrated in the accompanying figures, where:

Fig. 1 shows in perspective a device according to the invention,

Fig. 2 shows a longitudinal cross-section of the device,

Fig. 3 shows a system comprising two devices and a column according to the invention, and

Fig. 4 shows a bracket according to the invention.

In the following, reference numeral 1 will designate a device according to the invention. Like reference numerals designate like or corresponding elements in the figures. The different elements in the figures are not necessarily shown to scale in relation to each other.

Figure 1 shows the device 1 in perspective. The device 1 comprises a housing 3 for storing and charging a battery 2, for example a battery 2 for an electric bicycle or a battery bank. The housing 3 is shown with a door 19 for access to the housing 3. The door 19 can be locked with an electromechanical lock 20, see figure 2. Figure 1 further shows a bracket 7 attached to the housing 3. The bracket 7 is shown with two holes 9 for being able to thread the bracket 7 onto a column 8, see figure 3. The device 1 has a contact 4, here shown as a socket. The contact 4 is placed in an opening in the housing 3 so that it is possible to connect a plug (not shown) to the contact 4 from inside the housing 3. The plug can for example be from a charger 5 (see figure 2) for charging the battery 2. The contact 4 is connected to a power supply 6 (see figure 2). The power supply 6 may, for example, be a fuse box, a solar panel or a battery (not shown).

Figure 2 shows a cross-section through the device 1. The device 1 is shown with a waterproof chamber 11 housing an electronic component 10. This is to keep the electronic component 10 dry from rain or splashing water. It must be understood that the electronic component 10 may consist of one or more components, for example on one or more circuit boards. The electronic component(s) may be discrete components such as resistors, capacitors, diodes and transistors, or integrated circuits in plastic or ceramic housings with a large number of connection pins.

The waterproof chamber 11 is shown to house a communication unit 21 connected to the electronic component 10. The communication unit 21 can be connected to a network, such as Wifi or 4G. Thus, the electronic component 10 can be controlled from a computer or mobile device via the network.

The waterproof chamber 11 is shown attached to the housing 3 such that the connector 4 projects into the chamber 11 and the power supply 6 is connected to the connector 4 inside the chamber 11. The electronic component 10 is connected to the connector 4 to selectively cut off the power supply 6 to the connector 4. Figure 2 further shows an electronic display 13 connected to the electronic component 10. The display 13 may, for example, display a QR code or a status message, such as “free” or “busy”.

Figure 2 also shows a sensor 12 located inside the housing 3 and connected to the electronic component 10. In another embodiment, the device 1 may comprise several sensors 12. The sensor 12 is configured to detect temperature changes and/or the presence of smoke in the housing 3. In one embodiment, the sensor 12 may detect the presence of hydrogen gas in the housing 3. The sensor 12 is further configured to send a signal to the electronic component 10 if the temperature rises above or drops below a given temperature.

The sensor 12 also sends a signal to the electronic component 10 if it detects the presence of smoke and/or hydrogen gas in the housing 3. If the electronic component 10 receives a signal from the sensor 12, one or more things may happen:

- The electronic component 10 can cut off the power supply 6 to the connector 4, - The electronic component 10 can send a signal via the communication unit 21 to a computer or mobile device,

- The electronic component 10 can send a signal via the communication unit 21 to a central fire alarm system in the building where the device 1 is installed.

Figure 3 shows a system 14 with two devices 1 and a column 8. The devices 1 are mounted on the column 8 by the column 8 being threaded through holes 9 in the bracket 7. The housing 3 projects from the column 8 so that the two devices 1 are oriented 180 degrees relative to each other, in a horizontal plane. It must be understood that the devices 1 can be oriented at any angle relative to each other in the horizontal plane.

Figure 4 shows a bracket 7 with two holes 9. A lower end portion 15 of the bracket 7 is shown with an opening 18. An upper end portion 16 of the bracket 7 is shown with a pin 17. The opening 18 and the pin 17 are designed so that the pin 17 fits into the opening 18 of a bracket 7 of an above-mentioned device 1 mounted on a column 8, and the opening 18 can accommodate the pin 18 of a bracket 7 of a below-mentioned device 1 mounted on a column 8. As long as the pin 18 is placed in the opening 18 of an adjacent bracket 7, the relative angle between the two respective devices 1 will be locked. It must be understood that the above-mentioned angle between two devices 1 in a position of use is in a horizontal plane.

In one embodiment, the bracket 7 may comprise a plurality of openings 18 along a circumference around the hole 9. In one embodiment, the bracket 7 may comprise a plurality of openings 18 and a plurality of pins 17 along a circumference around the hole 9. This has the effect that two adjacent devices 1 can be locked at different angles relative to each other when mounted on the column 8.

The housing 3 may be made of one or more materials, such as plastic or metal. The metal may be, for example, aluminum or stainless steel. The waterproof chamber 11 may also be made of one or more of the aforementioned materials.

Please note that the figures are schematic and not necessarily drawn to scale. The figures are intended to provide a visual impression of the invention, not to provide a detailed, accurate representation of the objects shown.

Claims (10)

Patent claims 1. A device (1) for storing and charging a battery (2), the device (1) comprising: - a housing (3) for storing the battery (2); - a contact (4) provided in the housing (3), the contact (4) being arranged to supply a charger (5) with power when the contact (4) in a use position is connected to a power supply (6); - a bracket (7) attached to the housing (3) for mounting the device (1) on a column (8), characterized in that the bracket (7) is designed with a hole (9) to be able to thread the bracket (7) onto the column (8). 2. The device (1) according to claim 1, comprising an electronic component (10) connected to the connector (4), wherein the electronic component (10) is configured to selectively cut off the current from the power supply (6) to the connector (4). 3. The device (1) according to claim 2, comprising a waterproof chamber (11) for housing the electronic component (10). 4. The device (1) according to claim 2 or 3, comprising a sensor (12) connected to the electronic component for detecting temperature, gas and/or smoke in the housing (3). 5. The device (1) according to any one of claims 2 to 4, wherein the electronic component (10) is arranged to register how many watts are supplied through the connector (4). 6. The device (1) according to any one of claims 2 to 5, comprising an electronic display (13) connected to the electronic component (10) for displaying information. 7. A system (14) comprising at least two devices (1) according to any one of the preceding claims and a column (8), wherein the at least two devices (1), in a position of use, are positioned vertically above each other on the column (8) such that a lower end portion (15) of the bracket (7) of the above device (1) abuts an upper end portion (16) of the bracket of the below device (1). 8. The system (14) according to claim 7, wherein the upper end portion (16) of the bracket (7) is formed with at least one pin (17) and the lower end portion (15) of the bracket (7) is formed with at least one opening (18). 9. A set of associated parts for storing and charging a battery (2), comprising: - a column (8); - a device (1) comprising; - a housing (3) for storing the battery (2); - a connector (4) arranged to supply a charger (5) with power, the connector (4) in a position of use being connected to a power supply (6); - a bracket (7) for mounting the device (1) on the column (8), the bracket (7) being designed with a hole (9) for being able to thread the bracket (7) onto the column (8), - an electronic component (10) connected to the connector (4) for selectively cutting off the current from the power supply (6) to the connector (4). 10. A set of related parts according to claim 9, comprising a waterproof chamber (11) for housing the electronic component (10).