This application claims priority to German Patent Application No. 10 2023 104 363.3 filed on Feb. 22, 2023, which is incorporated by reference herein in its entirety.
The present disclosure is directed to a mobile charging unit for shopping carts and a system for charging shopping carts. It comprises: at least one shopping cart having a terminal for outputting/displaying and/or receiving information, an energy storage unit for providing/supplying power to the terminal, and an interface unit for at least receiving power for charging the energy storage unit: The at least one mobile charging unit comprises: a housing; a power supply device configured to provide power for charging the energy storage unit, the power supply device being positioned within the housing.
In recent years the shopping procedure by which customers can shop groceries or other products has changed in many shops. Due to assistance systems, particularly self-checkout systems, for example, customers are becoming more autonomous and do not require the assistance of personnel for selection of products and/or for the check-out procedure any longer. A more efficient and comfortable shopping experience is therefore provided to the customers.
In view of this development, a new class of shopping carts which offers different functions and/or assistance has been developed.
For example, in US 2020/0210982 A1, a shopping cart is disclosed which provides a self-checkout system. The shopping cart is connected to a wireless network. The shopping cart has functions related to scanning products, displaying the cost of these products and making a payment for the bill which corresponds to the products which are inside the shopping cart. The container of the shopping cart is provided with a scale to survey the weight of the products placed inside the shopping cart and to control whether the scanned products are inside the shopping cart.
US 2018/0370554 A1 discloses a shopping cart with integrated checkout equipment, comprising a scanner positioned on an interior edge of a basket portion of the shopping cart, a weight sensing means for determining the weight of an item placed into the basket and possibly a second scanner positioned with a tethered connection to the handle.
DE 196 43 122 A1 discloses a shopping cart for self-service shops having an electronic scale to control the weight of products in the area for receiving the products and a code reader to read the barcodes of products.
As the development of these shopping carts has been initiated only in recent years, there is still a constant need for further improvement of such shopping carts, particularly in view of the maintenance and charging possibilities of such shopping carts.
Any reference to or discussion of any document, act or item of knowledge in this specification is included solely for the purpose of providing a context for the present invention. It is not suggested or represented that any of these matters or any combination thereof formed at the priority date part of the common general knowledge, or was known to be relevant to an attempt to solve any problem with which this specification is concerned
The present disclosure aims to provide a mobile charging unit and a system that allows (re)charging of shopping carts.
The present disclosure aims to provide a mobile charging unit and a system that is very robust and adapted to heavy-duty conditions.
The present disclosure aims to provide a mobile charging unit and a system which allows simplified (re)charging of shopping carts.
Moreover, the present disclosure aims to provide a mobile charging unit and a system that is robust to rough human handling.
The present disclosure aims to provide a mobile charging unit and a system with a high degree of safety and/or with a low error-proneness.
The present disclosure aims to provide a mobile charging unit and a system that makes it efficient for a user to (re)charge a plurality of shopping carts.
Finally, the present disclosure aims to provide a mobile charging unit being able to safely charge a plurality of electronic devices, in particular a plurality of carts having at least one electronic component.
According to an aspect, a system comprises: at least one shopping cart having a terminal for outputting and/or receiving information, an energy storage unit for supplying power to the terminal, and an interface unit for at least receiving power for charging the energy storage unit; and at least one mobile charging unit which comprises: a housing; a power supply device configured to provide power for charging the energy storage unit, the power supply device being positioned within the housing.
According to one aspect a mobile charging unit is provided comprising: a housing, a plurality of wheels, a power supply device inside the housing, a power supply cable at the housing connected to the power supply device and a daisy chain socket.
In a preferred embodiment, a mobile charging unit is provided for charging a plurality of shopping carts including at least one electronic component, the mobile charging unit comprising: a housing made of robust material, a plurality of wheels for moving the mobile charging unit, a power supply device inside the housing being configured to provide power for charging the electronic component of the plurality of shopping carts; a power supply cable connected to the power supply device and configured to be connected to the mains or to another mobile charging unit, a daisy chain socket configured to receive a power supply cable of another mobile charging unit, and a distributer being connected to the power supply device or to the daisy chain socket or to both for supplying power to the power supply device or to the daisy chain socket or to both.
In another preferred embodiment, a mobile charging unit is provided for charging a plurality of shopping carts including at least one electronic component, the mobile charging unit comprising: a housing made of robust material, a plurality of wheels for moving the mobile charging unit, a power supply device inside the housing being configured to provide power for charging the electronic component of the plurality of shopping carts; a power supply cable connected to the power supply device and configured to be connected to the mains or to another mobile charging unit. So in its simplest realization, no daisy chain socket is provided.
The above-mentioned aspects of the invention can be combined with one or more of the following optional features.
In one or more embodiments the mobile charging unit might include at least one pillar protruding or extending substantially vertically out of the housing to thereby efficiently guiding the charging cables to avoid any contact of the charging cables to the floor. The pillar allows to lift the charging cables to a higher level than the housing, thus the charging cables might hang from the pilar without contacting the floor.
The housing of the mobile charging unit has the advantage that it protects elements stored inside, such as the power supply device. The elements may be placed inside the inner compartment of the housing and may therefore be protected against liquids, dust, dirt, and/or damage through rough handling. Therefore, the system, particularly the mobile charging unit is robust against contamination.
The mobile charging unit may be easily moved or transported to the shopping carts and after charging, the mobile charging unit may be stored in a different place. For this and other reasons, the system allows simplified (re)charging of shopping carts. Further, the system is an improved system that allows (re)charging of shopping carts. This is particularly the case when the mobile charging unit has a suitcase-like structure which resembles a robust box. In this and other cases, the mobile charging unit may be provided with wheels.
The system makes it efficient for a user to (re)charge a shopping cart, particularly a plurality of shopping carts at the same time.
In general, the shopping cart may comprise: a handle bar and a wagon configured to be pushed in a pushing direction and having a main receiving area. The handle bar may be affixed to the wagon or may be configured to be coupled to and uncoupled from the wagon. The handle bar is typically used for pushing the wagon in the pushing direction.
The terminal may have a box-like structure that is affixed or can be coupled to a portion of the shopping cart such as a handle bar of the shopping cart and/or a frame of a main receiving area, that may be a basket for example, where items can be placed during the shopping. The terminal may particularly be configured to be coupled to the handle bar. The handle bar may then comprise a mounting element and the terminal may then comprise a mating portion or element that allows the terminal to be coupled to the mounting element of the handle bar. In that case, the terminal may comprise a terminal housing with the mating portion to be coupled with the one first extending portion. The terminal may hence be released from the handle bar for maintenance, updating, replacement, charging and/or cleaning.
The shopping cart can allow communication with the user. Particularly, the terminal for outputting and/or receiving information may allow communication with the user and may have a display to receive an input from a user and/or to display data to a user. Some embodiments of a terminal may however not have a display and may only receive data from a phone and/or a cloud for example. The terminal may have a card reader function. The terminal may be considered a computer, it may have a RAM and/or it may have a storage unit for storing data. The terminal may be configured for storing and/or processing information. The terminal may be configured for data exchange via internet, WLAN, Bluetooth, or the like. The terminal may be configured for data exchange with a cloud, a phone and/or another device. The shopping cart with the terminal can assist a user during a shopping process and/or a payment process. Further, the shopping cart makes it safe for a retailer to provide a self-checkout system which prevents the users from providing incorrect data about their purchase.
Furthermore, the shopping cart may allow surveying the shopping process of the user and/or may allow entering data by the user. The shopping cart may make a shopping process more efficient for the user and/or for the retailer.
The energy storage unit may be positioned in and/or on the terminal or connected to the terminal. The energy storage unit may be positioned apart from the terminal, for example on and/or at the handle bar or the wagon, wherein the energy storage unit is then connected via a wire to the terminal to supply the terminal with power.
The system may comprise robust materials and/or elements of the system may be mounted either to the shopping cart or to the mobile charging unit and therefore, the system may be very robust and adapted to heavy-duty conditions. The shopping cart and/or the mobile charging unit may therefore also be robust to rough human handling.
The mobile charging unit may be a unit having a low degree of complexity in view of electronics and/or mechanics and therefore the system may provide a high degree of safety and/or a low error-proneness. The system may also be intuitively used without an introduction to be given to make it easy for a user to (re)charge a shopping cart, particularly a terminal of a shopping cart.
The power supply device of the mobile charging unit may be configured to be coupled with an external energy source. The power supply device may comprise at least one rechargeable battery and/or at least one charging device. A rechargeable battery has the advantage of providing a mobile charging unit that is independent from an external power supply at certain times when being charged. The rechargeable battery may be charged by the external power supply. The power supply device may comprise one, two, three, four, five, six or more charging device(s) and/or rechargeable batteries.
A charging device is a type of power supply and may be considered a Switched Mode Power Supply. It provides a constant voltage (CV) and a constant current (CC) to the user device, providing it with the power (or energy) required to charge it. Often, the required voltage is 5V DC, and the required current is 0.5 A or 1 A. The charging device may rectify the 220/110 V AC from the wall socket and convert it into DC voltage. Further, the charging device may have the function of a filter and may comprise a high frequency (>than 20 Khz normally) semiconductor switch. A charging device may hence transform the power from the external power supply and may therefore comprise an AC/DC converter. During the charging of the shopping carts, the charging device needs to be connected to the external power supply, whereas the rechargeable battery does not need to be connected to the external power supply given that the rechargeable battery is charged at least partially.
The power supply device may comprise only one or more of rechargeable batteries or one or more of charging devices or the power supply may comprise both types of power supplies. These potential features of this system make it possible for the user to efficiently charge a plurality of shopping carts at the same time.
The rechargeable battery and/or the charging device may be coupled and/or affixed to the interior of the mobile charging unit. The rechargeable battery and/or the charging device may particularly be coupled with the mobile charging unit by a shock-absorbing coupling including a shock-absorbing material, such as rubber, polymers, and/or springs or spring-like materials. A safe coupling, particularly using shock-absorbing materials, protects the rechargeable battery and/or the charging device from vibrations. The mobile charging unit is configured for use in a rough environment, being moved and/or rolled over a rough floor or ground and therefore the elements in the mobile charging unit are exposed to vibrations over a long time. This may extend the longevity of the elements of the mobile charging unit. The same may apply to elements coupled or affixed to the shopping cart, such as the terminal and/or the energy storage unit being coupled to the shopping cart and/or the terminal.
The at least one mobile charging unit may further comprise: a charge distribution unit comprising a plurality of ports wherein each port is configured to be connected to the power supply device; and/or at least one charging cable connected to the power supply device and/or to one of the plurality of ports for being connected with the interface unit at the shopping cart or with the energy storage unit of the shopping cart. These potential features of this system make it possible for the user to efficiently charge a plurality of shopping carts at the same time. The charging cable may have a magnetic connector to connect the mobile charging unit easily and safely with the shopping cart.
The charge distribution unit allows distributing the charge of one or more power supply devices to a plurality of shopping carts via the ports. The charge distribution unit may have approximately between 2 to 50 ports, preferably between 5 and 30 and more preferably between 7 to 15 ports. The one or more power supply devices may be connected to the charge distribution unit by means of one or more cables. A plurality of ports allows charging a plurality of shopping carts in an efficient manner. These potential features of this system make it possible for the user to efficiently charge a plurality of shopping carts at the same time.
Alternatively, the one or more power supply devices may be connected directly with the shopping carts via one or more cables without using a charge distribution unit which is a simplified configuration.
The system may further comprise at least one of a plurality of shopping carts and/or a plurality of mobile charging units. A usual shop provides a plurality of shopping carts to the customers, typically between approximately 30 and 200 or more. For this reason, it is an advantage to charge a plurality of shopping carts at the same time and/or in an efficient manner by means of this system. A plurality of mobile charging units allows charging a high number of shopping carts at the same time. If there are more shopping carts to be charged than ports provided in one mobile charging unit, it is an advantage to provide multiple mobile charging units, such that a high number of shopping carts can be charged at the same time. The plurality of mobile charging units may be 2, 3, 4, 5 or more, such as 10, 15, 20 or more. The plurality of shopping carts may be 10, 20, 30, 40 or more, such as 100, 150, 200 or more. These potential features of this system make it possible for the user to efficiently charge a plurality of shopping carts at the same time.
The system may further comprise a plurality of charging cables connected to the charge distribution unit or to the power supply device, and/or each one of the charging cables may be configured to provide power from the charge distribution unit via one of the plurality of ports to the respective energy storage unit of one of the plurality of shopping carts. The plurality of charging cables per charge distribution unit of one mobile charging unit may correspond to the number of ports, being approximately between 2 to 50 ports, preferably between 5 and 30 and more preferably between 7 to 15 charging cables. These potential features of this system make it possible for the user to efficiently charge a plurality of shopping carts at the same time.
The system may further comprise a power supply cable connected to the power supply device and configured for being connected with the external energy source for receiving power from the external energy source; and/or for being coupled with another mobile charging unit for supplying power from the mobile charging unit to the other mobile charging unit and/or for receiving power from the other mobile charging unit. The power supply cable is provided preferably outside the housing and/or may be connected to the inside of the housing, in particular to the power supply device.
In one or more embodiments, the power supply cable may be provided at one side of the housing and the daisy chain socket may be provided at the opposing other side of the housing.
The power supply cable allows providing power either to the rechargeable battery and/or to the charging device from an external energy source or power supply, such as a socket of the grid or from another mobile charging unit that may be connected to an external energy source or power supply or that may serve as an energy storage, particularly in the case of rechargeable batteries. In other words, a mobile charging unit that is either connected to an external energy source or power supply, such as a socket of the grid or acts as an energy storage may supply other mobile charging units with power via one of the power supply cables of the other mobile charging unit(s), while the supplying mobile charging unit itself might use its own power supply cable for receiving power from the grid or another external energy source, such as a battery or an electric generator. When the energy supply cable is connected to another mobile charging unit it may act as a slave cable and the mobile charging unit which receives power may be considered a slave mobile charging unit. When the energy supply cable is connected to an external energy/power supply, it may act as a main cable and the mobile charging unit which supplies another mobile charging unit may be considered a main mobile charging unit. These potential features of this system make it possible for the user to efficiently charge a plurality of shopping carts at the same time.
The system may further comprise a daisy chain socket for being coupled and/or electrically connected to another mobile charging unit.
The daisy chain socket is preferably coupled and/or connected to the housing of the mobile charging units, more preferably at the opposite side of the housing side having the power supply cable.
The power supply cable of a mobile charging unit may be electrically connected to a daisy chain socket of another mobile charging unit when being supplied with power by the other mobile charging unit.
Multiple mobile charging units may be chained together or electrically connected by this means.
It is particularly advantageous when the daisy chain socket is provided on one side of the housing and the power supply cable is provided on the opposite side, as one of mobile charging units is then positioned between two power supply cables. In this way, one mobile charging unit or one socket might supply a plurality of mobile charging units electrically connected in a row. These potential features of this system make it possible for the user to efficiently charge a plurality of shopping carts at the same time by using multiple charging units.
The daisy chain power supply may be a one-way power supply. Therefore, a first mobile charging unit may be connected to an external power source such as a socket of the grid and the other mobile charging units may therefore be connected to the first mobile charging unit via the daisy chain socket to receive the power from the external power supply.
Alternatively, the daisy chain power supply may be a two-way power supply in which the first mobile charging unit may supply the other mobile charging units in a row with power, for example, from a rechargeable battery within the first mobile charging units and when the rechargeable battery might be empty, one of the mobile charging units in the daisy chain row which has a charged or at least partially charged battery might provide power to the other mobile charging units.
The mobile charging unit may comprise at least one LED and/or each of the ports may be assigned to an LED, preferably the LED may be configured to visibly indicate whether power can be distributed and provided to the energy storage unit via the port. The LED may be positioned inside the housing of the mobile charging unit; therefore, the LED might then only be visible when opening the housing and when the user wants to check the proper function of the power supply device and/or of the ports. Alternatively, the LED may be positioned outside of the housing of the mobile charging unit such that the proper functionality of the power supply device and/or of the ports is visibly indicated outside and always visible to a user from the outside of the housing. Therefore, the housing is not required to be opened. It is preferred that a plurality of LEDs is provided and each of the plurality of LEDs can visibly indicate whether a power supply and particularly whether a port is functional. The LED can close an electrical circuit through which the power is supplied by the power supply and particularly the port. These potential features of this system make it possible for the user to handle the system and diagnose errors in a simplified way which is very intuitive.
The system may further comprise an electrical dummy cell configured to be contacted with the at least one charging cable; and/or configured to indicate whether power can be distributed and provided to the energy storage unit via a respective one of the plurality of ports and a respective one of the plurality of charging cables. As an additional or alternative to the LEDs configured to visibly indicate whether power can be distributed and provided to the energy storage unit via the port, an electrically dummy cell can be provided outside the housing of the mobile charging unit. The electrical dummy cell may be affixed or coupled to the housing, or it is not coupled or affixed to the housing and can be used as a sensor to check whether power is provided through a charging cable. The electrical dummy cell may be a test device for checking whether the charging cable is correctly connected and/or whether it provides any power.
The electrical dummy cell may be an electrical circuit having an element that can indicate whether power is supplied through the charging cable. Such an element may be an LED which can visibly indicate whether power is supplied through the charging cable. Alternatively, the dummy cell may acoustically indicate whether power is supplied through the charging cable. The electrical dummy cell may be configured to be contacted with the at least one charging cable via a magnetic contact with a plurality of pins. These potential features of this system make it possible for the user to handle the system and diagnose errors in a simplified way which is very intuitive.
The mobile charging unit may comprise at least one time delay element configured to delay the delivery of power to another mobile charging unit, preferably via the daisy chain socket.
When a plurality of mobile charging units is chained together, i.e., electrically connected in a row, the power supply may break down in the very moment as too many consumers are connected, i.e. when the mobile charging units with their internal components are supplied with power from an external energy/power source. Particularly, the inrush current of the power supplies during startup may cause the fuse to trip and therefore a time delay can prevent the system to breakdown. In other words, a time delay element may delay the delivery of power/charge to each mobile charging unit to avoid a breakdown of the system. This makes it possible to provide a robust system with a low error-proneness.
The time delay elements may delay the forwarding of power supply by a predetermined time. This time may be set during setting up the system or during operation by a user, if the fuses inside the mobile charging units are released too often or too fast. The time values for each of the time delay elements in the plurality of mobile charging units may be set differently. Thus, it is achieved, that in a chain of multiple mobile charging units the first, second and next mobile charging units are activated, i.e. receive the power supply at different points in time and thus a reliable operation is achieved.
In one or more embodiments, the mobile charging unit may comprise at least one inrush current limiting element.
In one or more embodiments, the mobile charging unit may comprise a controller or distributer for controlling whether and when to supply the incoming power to the daisy chain socket and/or to the power supply device.
In one or more embodiments, the mobile charging unit may include a distributor being connected to the power supply device or to the daisy chain socket or to both for supplying power to the power supply device or to the daisy chain socket or to both.
The distributer may be realized as controller for controlling the power supply to the power supply device or to the daisy chain socket.
The controller/distributer may be coupled to the power supply device via a current limiter, e.g. for limiting the inrush current to the power supply device.
The controller/distributer may be coupled to the daisy chain socket via a time delay element.
The controller might control the time delay element and/or the current limiter.
The mobile charging unit and the terminal may be configured to exchange data with each other via the charging cable and/or another data cable and/or wirelessly, such as via Bluetooth or internet. The mobile charging unit and/or the terminal may be configured to be connected with a cloud for exchanging data with and/or via the cloud. The mobile charging unit and/or the terminal may therefore comprise a transceiver for receiving and transmitting data particularly in a wireless manner, a data cable for receiving and transmitting data, a computer having a RAM and possibly a storage unit for storing data. The exchanged data may comprise one or more of the following: an operational state of the mobile charging unit and/or the terminal, a charging state of the energy storage unit, an error which has occurred in the mobile charging unit and/or the terminal, a measure to be taken to overcome the error which may be displayed via a display of the terminal. This allows a user to easily monitor the charging process and/or diagnose and/or overcome errors. Such a system can be used intuitively.
The mobile charging unit may comprise at least one of: a box-shaped housing, preferably made of metal, a vertical pillar protruding from an upper portion of the housing for at least partially guiding the at least one charging cable from within the housing out of the housing, a plurality of wheels; and a guide rail spaced apart from the upper portion of the housing. A box-shaped housing, preferably made of metal, is very stable and robust against external physical impact. The surfaces may additionally have a structure (rips or protrusions) which makes the housing even more robust. The housing without elements such as wheels, guiderails or vertical pillar may have a height between approximately 30 cm to 120 cm, preferably between approximately 50 cm and 80 cm. The housing may have a width between approximately 20 cm to 70 cm, preferably between approximately 30 cm to 60 cm. The housing may have a length between approximately 30 cm to 100 cm, preferably between approximately 50 cm and 80 cm.
The vertical pillar may have a top end height that is configured to prevent an end of the at least one charging cable to touch the ground. The top end height is the distance between the ground and the top end of the pillar when being properly used, including for example also the height of the wheels when the housing is provided with wheels. The top end height of the vertical pillar may range between approximately 140 cm and 190 cm, particularly between 150 and 180 cm. The mobile charging unit may comprise several vertical pillars which guide different charging cables. The mobile charging unit may comprise a central vertical pillar which extends from the top center of the housing. The mobile charging unit may comprise two vertical pillars extending from two opposite sides of the top of the housing. This allows distributing the charging cables in a way that the charging cables are prevented from hanging on the floor or being overrun by wheels. Further, it allows distributing the charging cables to different shopping carts in an efficient manner.
A plurality of wheels allows the user to easily move the mobile charging unit over different grounds to the shopping carts and/or to a storage position, which improves the mobility. A guide rail spaced apart from the upper portion of the housing may prevent a user from sitting on the mobile charging unit. Therefore, two guide rails may extend from the upper sides of the housing along at least a portion of the length of the housing. The guide rails may have a top end height that is suited to prevent a user from sitting on the housing. The top end height of the guide rail(s) may range between approximately 100 cm and 140 cm, particularly between 110 and 130 cm. Two guide rails may have different top end heights which makes it even more difficult for a user to sit on the housing. Further, the guide rail(s) may have a rectangular shape or a round shape. A round shape makes it even more difficult for a user to sit on the housing. The top end height of the guide rail(s) is the distance between the ground and the upper most portion of the guide rail(s). The guide rail(s) may extend from an edge of an upper side of the housing which has the advantage that the guide rail may be used as a handle for pushing the mobile charging unit. In that case, a person may grab two mobile charging units on their guide rails with one hand, which makes it easy and efficient for the user to handle the system. Overall, the potential features of this system provide a high degree in robustness of the system and/or efficacy and/or convenience in handling.
The housing may comprise a first sub-compartment for storing at least a portion of the at least one charging cable when not being used, preferably, the first sub-compartment may comprise a flap configured to be manually opened and/or the first sub-compartment may be configured to store a cleaning solution for cleaning at least a portion of the at least one charging cable. The flap may comprise a notch that allows guiding the charging cable through. The first sub-compartment may be an upper sub-compartment that is above a second sub-compartment, which is a lower sub-compartment. The two sub-compartments may be separated by a wall and may be sealed against each other. Electronic devices such as the power supply device may be stored in the lower sub-compartment. The flap may allow to open and close the first sub-compartment manually from above. When the charging cable or the charging cables is/are not used they can at least partially be stored in the first sub-compartment. At least the ends of the charging cable may be stored inside the first sub-compartment. The first sub-compartment may house a cleaning solution and/or a cleaning bath that is used for cleaning at least the end of the charging cable. These features make it easy and/or safe and/or convenient for a user to use the system. The first sub-compartment may provide holding elements for the cleaning solution and/or a cleaning bath for avoiding a spilling out of the cleaning solution during movement of the mobile charging unit.
The system may be configured for wirelessly charging the energy storage unit. Therefore, the mobile charging unit may have a contact space which allows contactless charging of the energy storage unit. The mobile charging unit is therefore brought into the vicinity of the energy storage unit and the energy storage unit can be charged without the need for a charging cable, which makes it even easier for a user to charge the shopping cart.
The system may comprise an anti-theft system. The anti-theft system may comprise a lock, an alarm and/or a blocking system which blocks the wheels of the mobile charging unit and/or the shopping cart. The lock may prevent the mobile charging unit from being uncoupled from the shopping cart(s) during the charging process. The alarm may include a noise and/or a visible sign that indicate(s) theft and/or deter a thief. Furthermore, there might be a GPS module inside the housing to be able to provide wirelessly its location to a server for checking whether the mobile charging unit is still in allowed area.
Embodiments of the present invention are described in the following by means of the figures in more detail. The figures display different features off embodiments. The features are not limited to these embodiments. All the features of the embodiments can generally be combined if they are not contradicting each other. Further, features of the embodiments which are not essential to the embodiments may also not be part of the embodiments.
In
In
The mobile charging units 11 can be aligned in a row next and/or parallel to the aligned shopping carts 1 and each mobile charging unit 11 can charge the according energy storage unit of one or more shopping carts 1 via a charging cable 14.
As can be seen best from the detail in
The mobile charging units 11 each have a vertical pillar 19 (denoted “pillar”) which extends from one upper edge of the housing 12. The pillar 19 is configured for guiding other charging cables 14 out of the housing. The top end height of the pillar 19 is configured to prevent the charging cables 14 from reaching the ground. The pillar 19 may also be used as handle to push or pull the mobile charging unit 11. For easily pushing or pulling the mobile charging unit 11 around, four wheels 24 are provided on the lower side of the housing 12 of the mobile charging unit 11. The pillar 19 may have a horizontal portion which may be used as a handle and/or for guiding the charging cables 14.
The invention is not limited to this particular embodiment and can have more or less shopping carts 1 or mobile charging units 11.
In the second sub-compartment 22, which is the lower sub-compartment, the electronic components are positioned. The power supply device comprises multiple units which may comprise rechargeable batteries and/or charging devices connected to a charge distribution unit to which the charging cables 14 are connected.
The mobile charging unit 11 further comprises a daisy chain socket 17, a power cable 16, four wheels 24 and two guide rails 20 which are rectangular in shape, and which extend from the upper length edges. The two guide rails 20 serve as handles for pushing and/or pulling the mobile charging unit 11 and prevent a user from sitting on the mobile charging unit 11 and thereby possibly damaging the mobile charging unit 11. The daisy chain socket 17 is provided on a side of the housing 12 opposite of the side on which the power cable 16 is provided.
The following features can also be present in the embodiments of
All embodiments may have supported edges and corners being therefore very robust. The housing 12 of all embodiments may be made of a very resistant material such as metal which further increases the robustness.
In another embodiment as shown in
As the power supply usually includes capacitors which will be charged during switching on, a strong inrush current might appear when switching on the power supply device 13. To avoid a starting current being too high, an inrush current limiter 38 is provided. As shown in
The controller/distributer 36 might also supply the power to the daisy chain socket 17 and to the power supply device 13. In case the load of the next or following mobile charging units is low power can be supplied to the daisy chain socket 17 and to the power supply device 13.
The delay caused by the time delay elements 26 may be set to 1 to 5 seconds, preferably 2 seconds, which can be controlled by the controller 36. The time delay may be set differently or same for multiple mobile charging units. So, when the chain of three mobile charging units is connected to each other before being connected to the mains, the first mobile charging unit will receive the power after being connected to the mains, the second mobile charging unit will receive the power after 2 second and the third will receive the power again after 2 seconds, e.g. 4 second after connecting the first to the mains.
In these figures, one flap 23 is open and one flap 23 is closed. Some of the wheels 24 have stoppers to fix the wheels from rotating.
In
The power supply of one mobile charging unit 11 is hence bifurcated to supply power to the shopping carts via the power supply device 13 of this particular mobile charging unit 11 on the one hand and to supply power to other mobile charging units 11 on the other hand via the daisy chain sockets 17.
In this specification, the terms ‘comprises’, ‘comprising’, ‘includes’, ‘including’, or similar terms are intended to mean a non-exclusive inclusion, such that a method, system or apparatus that comprises a list of elements does not include those elements solely, but may well include other elements not listed.
In the following a plurality of embodiments is provided:
Number | Date | Country | Kind |
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10 2023 104 363.3 | Feb 2023 | DE | national |