CN208158144U - Storage device and power receiving equipment - Google Patents

Abstract

The utility model embodiment discloses a kind of storage device and power receiving equipment.The storage device includes：Shell, at least one accommodation space are located in the shell portion, are equipped with the opening for leading to the accommodation space on the housing, wherein the accommodation space is for accommodating power receiving equipment；Power supply mould group, for providing the electric energy powered to the power receiving equipment；At least one first wireless charging mould group, connect with the power supply mould group, for coupling with the second wireless charging mould group in the power receiving equipment, carries out wireless charging to the power receiving equipment.

Description

Storage device and power receiving equipment

Technical Field

The utility model relates to the field of electronic technology, especially, relate to an accommodating device and powered device.

Background

The power receiving device can provide a power supply carried by the power receiving device and charge charging equipment such as a mobile phone or a tablet personal computer.

With the advent of current shared power receiving devices, storage devices have appeared that collectively charge a plurality of power receiving devices. In the prior art, charging of the powered device is performed by using a charging wire, or charging based on a charging contact.

On the one hand, utilize the charging wire to charge obviously need carry out the operation of plug wire and pull out the line, complex operation, and the interface of powered device probably because the plug number of times is too many, perhaps, the plug is improper, leads to the interface that charges of powered device bad to lead to the short-lived problem of powered device.

On the other hand, with contact charging, during charging, the contacts of the powered device must be aligned and attached to the charging contacts in the cabinet, and if the contacts are misaligned or not attached, the charging may not be successful.

Disclosure of Invention

In view of the above, embodiments of the present invention are directed to a receiving device and a powered device, which at least partially solve the above problems.

In order to achieve the above purpose, the technical scheme of the utility model is realized like this:

in a first aspect, an embodiment of the present invention provides an accommodating apparatus, including:

the outer shell is provided with a plurality of grooves,

the power receiving device comprises a shell, at least one accommodating space and a power receiving device, wherein the accommodating space is positioned inside the shell, and an opening communicated with the accommodating space is formed in the shell and is used for accommodating the power receiving device;

the power supply module is used for supplying electric energy for supplying power to the powered device;

at least one first wireless charging module, with the power supply module is connected, be used for with the wireless module coupling that charges of second in the powered device, right the powered device carries out wireless charging.

Optionally, the storage device further comprises:

the first wireless communication module is positioned in the accommodating space and used for carrying out information interaction with a second wireless charging module on the powered device;

the first control module is connected with the first wireless communication module and used for determining the condition information of the powered equipment in the corresponding accommodating space according to the information provided by the first wireless communication module;

wherein,

the first wireless communication module is specifically configured to interact with the second wireless charging module to read identification information of the powered device and return the identification information to the first control module;

or

The first wireless communication module is further configured to detect connection state information with the second wireless charging module, and send connection state information to the first control module;

the first control module is specifically configured to determine whether a corresponding powered device is located in the accommodating space according to the connection status information.

Optionally, the storage device further comprises:

the prompting module is used for outputting preset prompting information; the predetermined prompt information includes: an operation prompt of the storage device and/or status information of the storage device;

and/or

The storage device further includes:

the operation module is used for acquiring operation instructions;

and the second control module is connected with the operation module and is at least used for controlling the corresponding working state information of the first wireless charging module according to the operation instruction.

Optionally, the storage device further comprises:

the switch module is used for opening the corresponding accommodating space or closing the accommodating space according to the switch state of the switch module;

the third control module is used for determining the current use state information of the powered device by combining the switching state of the switching module and the information interaction state information of the powered device; and/or determining the accommodating space of the powered device by combining the switch state of the switch module and the carried identification information sent by the powered device.

Optionally, the storage device further comprises:

the at least first wireless communication module is used for performing information interaction with a second wireless communication module of the powered device, and at least acquiring identification information and electric quantity state information of the powered device;

the fourth control module is connected with the first wireless communication module and reads the identification information and the electric quantity state information; determining the charging amount of the powered device by combining the identification information and the electric quantity state information; and generating a preset operation request according to the charging amount.

Optionally, one accommodating space is provided with one first wireless charging module and one first wireless communication module;

the first wireless communication module is used for performing information interaction with a second wireless communication module of the powered device, and at least acquiring identification information of the powered device;

and the fifth control module is respectively connected with the first wireless charging module and the first wireless communication module, and is used for reading power supply condition information from the first wireless charging module and reading identification information of the powered device from the first wireless communication module, determining the charging amount of the powered device according to the identification information and the power supply condition information, and generating a preset operation request according to the charging amount.

In a second aspect, an embodiment of the present invention provides a power receiving apparatus, including:

a housing;

a battery located within the housing;

and the second wireless charging module is positioned in the shell, is connected with the battery and is used for being coupled with the first wireless charging module of the storage device to wirelessly charge the battery.

Optionally, the power receiving apparatus further includes:

and the second wireless communication module is positioned in the shell and performs information interaction with the first wireless communication module of the containing device.

Optionally, the power receiving apparatus further includes:

the storage module is positioned in the shell, is connected with the second wireless communication module, and is at least used for storing the identification information of the powered device;

the second wireless communication module is at least specifically configured to send the identification information to the first wireless communication module.

The power receiving apparatus further includes:

the charging detection module is used for detecting charging state information of the powered device;

the second wireless communication module is further configured to send the charging status information to the first wireless communication module.

The embodiment of the utility model provides a storage device and powered device sets up in the storage device and is used for the wireless module that charges that is of powered device heavy electricity, carries out wireless charging through wireless technology between storage device and the powered device that is so. On the one hand, if wireless charging is carried out, contact connection between the power receiving equipment and a socket or a contact on the storage device is not required, the problem of charging failure caused by the fact that contact connection is not successfully established is solved, and therefore the charging success rate is improved. On the other hand, if wireless charging is carried out, the problems of aging of metal contacts, damage caused by multiple plugging and unplugging of the socket and the like are not worried about, and consumption of consumables is reduced.

Drawings

Fig. 1 is a schematic structural view of a first storage device according to an embodiment of the present invention;

fig. 2 is a schematic structural view of a second storage device according to an embodiment of the present invention;

fig. 3 is a schematic structural view of a third storage device according to an embodiment of the present invention;

fig. 4 is a schematic structural view of a fourth storage device according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a power receiving device according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of another power receiving device according to an embodiment of the present invention;

fig. 7 is a schematic structural view of a fifth storage device according to an embodiment of the present invention;

fig. 8 is a schematic structural view of a sixth storage device according to an embodiment of the present invention;

fig. 9 is a wireless network established by the receiving apparatus and the powered device according to an embodiment of the present invention;

fig. 10 is a schematic structural diagram of a power supply system according to an embodiment of the present invention.

Detailed Description

The technical solution of the present invention will be further described in detail with reference to the drawings and specific embodiments.

As shown in fig. 1 and fig. 2, the present embodiment provides a storage device, including:

the outer shell 110 is provided with a plurality of through holes,

at least one accommodating space 111 inside the housing 110, wherein an opening leading to the accommodating space 111 is provided on the housing 110, and the accommodating space 111 is used for accommodating a power receiving device;

a power supply module 112, configured to provide power for the powered device;

at least one first wireless charging module 113, connected to the power supply module, for coupling with a second wireless charging module in the powered device, to wirelessly charge the powered device.

The housing 110 in this embodiment may be a housing with various shapes, for example, a rectangular housing 110, a circular housing 110, a laminated housing 110, etc., and the housing may be made of metal, plastic or wood.

In some embodiments, a built-in baffle or a built-in partition is disposed in the housing 110, and a space formed by covering the housing 110 is divided into a plurality of subspaces, and each subspace is one of the accommodating spaces 111.

The shape of the receiving space may be various types, specifically, it is a grid, in some embodiments, the bottom of the receiving space is made into an arc shape recessed towards the ground, and the first wireless charging module 113 is disposed at the bottom of the arc shape, so that if a user puts a powered device into the receiving space at will, the powered device will automatically slide to the bottom of the arc shape under the action of gravity, that is, at an optimal coupling position of the first wireless charging module 113 and the second wireless charging module, so that the powered device is charged at the position, and has a high charging efficiency and a high power transfer rate, where the power transfer rate is a ratio of the electric energy actually received by the receiving device to the total discharge of the receiving device to the powered device.

In other embodiments, the accommodating space 111 is formed by separate shells, different accommodating spaces 111 are assembled into the receiving device according to a certain assembly rule, and the parts of the accommodating spaces 111 exposed outside after assembly form the outer shell 110.

The housing 110 is provided with an opening to the receiving space 111, and a shielding member for closing the opening may be provided at an edge of the opening or may not be provided, so that the opening is always kept in an open state.

The storage device further comprises a power supply module 112 and a first wireless charging module 113, wherein the first wireless charging module 113 can supply power to other electronic devices through transmission of wireless signals. In this embodiment, the device receiving the power supply from the storage device is referred to as a power receiving device. The powered device may be an electronic device carrying or connected to a second wireless charging module, and the first wireless charging module 113 and the second wireless charging module are coupled based on a wireless charging technology, and transfer electric energy of the storage device to the powered device.

The power receiving apparatus may include: the mobile power supply which is converted into power supply for other devices can also generate other electronic devices with power consumption, such as mobile phones, tablet computers or wearable devices. If the devices carry the wireless charging module, the devices can be coupled with the first wireless charging module 113 on the storage device, so as to realize charging.

In this embodiment, the power supply module 112 may be located inside the receiving device or outside the receiving device. The first wireless charging module 113 in this embodiment is preferably located in the receiving device.

As shown in fig. 1 and 2, the number of the first wireless charging modules 113 may be one or more. When there is one first wireless charging module 113, the wireless signal of the first wireless charging module 113 can cover all the accommodating spaces 111, so that the power receiving devices in different accommodating spaces 111 can be charged.

In some embodiments, the first wireless charging module 113 may include a plurality of modules, one of the first wireless charging modules 113 is shared by a plurality of accommodating spaces 111, and the first wireless charging module 113 may be configured to supply power to a power receiving device in the accommodating space 111 that shares the first wireless charging module 113.

In some other embodiments, the number of the first wireless charging modules 113 is equal to the number of the accommodating spaces 111, and one first wireless charging module 113 is disposed in one accommodating space 111, for example, N accommodating spaces 111 are provided, so that N first wireless charging modules 113 and an nth first wireless charging module 113 are configured to supply power to the power receiving device in the nth accommodating space 111. In a specific implementation, the effective radiation range of the wireless charging signal can be limited by controlling the power of the charging signal when the first wireless charging module 113 is used, so as to limit the operable space of the wireless charging signal.

Because in the embodiment of the utility model the storage device is used for being first wireless charging module 113 to the powered device power supply, what first wireless charging module 113 adopted is that wireless signal charges, like this, if the powered device puts into behind the storage space, do not need the powered device to carry out the establishment of charging connection through the mode of point contact or socket to avoided the point to touch badly and the socket not inserted the power supply failure that leads to, also avoided the power supply contact to use ageing for a long time simultaneously, the power supply failure that the socket long-term plug damage leads to, and the big problem of consumptive material consumption, have the characteristics of the success rate of charging height and consumptive material consumption few.

Optionally, as shown in fig. 2 and 4, the storage device further includes:

at least one first wireless communication module 114, located in the accommodating space 111, and configured to perform information interaction with a second wireless charging module on the powered device;

a first control module 115, connected to the first wireless communication module 114, configured to determine status information of the powered device located in the corresponding accommodating space 111 according to information provided by the first wireless communication module 114.

In some embodiments, the first wireless Communication module 114 may be a bluetooth module, a WiFi module, a Device to Device (D2D) module, or a Near Field Communication (NFC) module.

The Bluetooth module carries out communication by utilizing a Bluetooth technology; the WiFi communication is based on WiFi technology for communication, the D2D module can be used for D2D communication, and the NFC communication can be based on radio frequency communication.

In this embodiment, the number of the first wireless communication modules 114 may be determined by the type of the communication module, for example, when the first wireless communication module 114 is a bluetooth module, since the coverage of bluetooth communication may be 10 meters or even 100 meters, the communication range is large, and the entire storage apparatus may be covered, and at this time, the storage apparatus may be provided with only one first wireless communication module 114. Similarly, the first wireless communication module 114 is the WiFi module or the D2D module, and only one module may be provided.

In some embodiments, if the coverage of the first wireless communication module 114 exceeds the space occupied by the receiving device, in order to avoid further complication of the wireless environment outside the receiving device, in this embodiment, the housing 110 of the receiving device may be a metal housing 110, so as to perform the function of shielding wireless signals, and simultaneously, avoid the interference of external wireless signals between the power receiving equipment located in the receiving device and the receiving device, thereby ensuring the communication quality. In some embodiments, if the first wireless communication module 114 is one, a partition or the like in the receiving device that divides the receiving device to form the receiving space may be made of a non-conductor such as plastic or wood.

If the first wireless communication module 114 is an NFC module, since the communication range of the NFC module is small, the number of NFC modules is equal to the number of storage spaces, that is, one NFC module is disposed in one storage space.

In some embodiments, the first wireless communication module 114 is specifically configured to interact with the second wireless charging module to read the identification information of the powered device and return the identification information to the first control module 115.

The identification information of the powered device may be an International Mobile Equipment Identity (IMEI) of the electronic device receiving the charging; or, the powered device is used for a Media Access Control (MAC) address of a second wireless communication module communicating with the first wireless communication module 114, or is a charging identifier that is allocated to the powered device for charging by the storage apparatus or a charging platform connected to the storage apparatus, or is another identifier that can uniquely identify the powered device, for example, a registration identifier that registers the charging identifier for use, where the registration identifier may be an identity identifier of an identity number of a user, or a communication identifier of a mobile phone number or a micro signal of the user, and the like.

In this way, the storage device identifies the power receiving apparatus according to the identification information.

In some embodiments, the receiving device only charges a specific device, for example, a mobile power supply associated with the receiving device, or an electronic device already registered on the charging platform. In this way, the first control module 115 may determine whether the current powered device is the specific device according to the identification information, and if the current powered device is the specific device, the charging is performed, and if the current powered device is not the specific device, the charging is not performed on the specific device.

The first control module 115 may include: various types of controllers or processors may be connected to the first wireless communication module 114 through an integrated circuit bus or the like, and may perform information processing.

In some embodiments, the first control module 115 may be further connected to the first wireless charging module 113, and may be configured to control the wireless charging of the first wireless charging module 113.

In some further embodiments, the first wireless communication module 114 is further configured to detect connection status information with the second wireless charging module and send connection status information to the first control module 115; the first control module 115 is specifically configured to determine whether a corresponding powered device is located in the accommodating space 111 according to the connection status information.

Optionally, the storage device further comprises:

the prompting module is used for outputting preset prompting information; the predetermined prompt information includes: an operation prompt of the storage device and/or status information of the storage device.

The suggestion module can be for including: the display prompt module can include: the display screen can prompt through information display, and can be a liquid crystal display screen, an electronic ink display screen or an Organic Light Emitting Diode (OLED) display screen and the like.

The suggestion module can also be voice prompt module, includes: various audio output devices such as speakers can output prompts in a voice manner.

The prompt message may include: the operation prompt is, for example, how to operate the storage device, so that the user can put the device into the storage device for charging or take the charged powered device out of the storage device.

The state information may include: status information of the accommodating space 111 and/or status information of the powered device.

The state information of the accommodating space may include at least one of:

information indicating whether there is a powered device in the corresponding storage space;

information indicating whether there is a free storage space in the current storage device;

and information indicating which storage space in the current storage apparatus contains the power receiving device or does not contain the power receiving device.

The state information of the powered device may include at least one of:

information indicating a storage space in which the power receiving apparatus is located;

information indicating a current power amount of the powered device.

In some embodiments, the prompt message may further include: prompting an abnormality;

for example, an exception prompt indicating a failure of a certain powered device;

and a prompt indicating that a certain powered device is improperly placed to cause abnormal charging, and the like.

In some embodiments, the storage device further comprises:

the operation module is used for acquiring operation instructions;

and the second control module is connected with the operation module and is at least used for controlling the corresponding working state information of the first wireless charging module 113 according to the operation instruction.

The operation module can correspond to a human-computer interaction interface, and the human-computer interaction interface can comprise: physical keys and/or keyboards, etc., may also include: the virtual keyboard displayed on the display can collect the operation instruction input by the user.

In some embodiments, the operation module may include: the voice operation module of collection pronunciation such as microphone can operate storage device through pronunciation.

Likewise, the second control module may include: a controller or a processor, etc., and the second control module may correspond to the same control module as the first control module 115, or may be a different processing module. Such first control module 115 and second control module may be logically divided based on operation difference, or may be divided into physical structures.

Optionally, the storage device further comprises:

the switch module is used for opening the corresponding accommodating space 111 or closing the accommodating space 111 according to the switch state of the switch module;

the third control module is used for determining the current use state information of the powered device by combining the switching state of the switching module and the information interaction state information of the powered device; and/or determining the accommodating space 111 where the powered device is located by combining the switch state of the switch module and the carried identification information sent by the powered device.

The switch module may include: an electrically controlled switch, or an electromagnetically controlled switch, may be installed on the barrier of the opening, for example, on the door of the accommodating space 111, and may be turned on or off according to the switch state of the switch, so as to open or close the accommodating space 111.

The third control module may control the state of the switch module, and determine the current use state information of the powered device and/or the accommodation space 111 where the powered device is located, by combining the identification information reported by the powered device, and the like.

For example, the storage device can only open one storage space at a time, and according to whether there is a powered device in the corresponding space to be put in or taken out, it can be determined whether the current usage state of the powered device is a "lending" state or a "waiting lending" state. For another example, it can be determined that the powered device is located in the accommodating space 111 where the on-off state of the powered device is switched within the corresponding time according to the powered device being placed in or taken out of the corresponding space and the identification information reported by the powered device.

The specific structure of the third control module can be seen in the first control module 115 and/or the second control module. The third control module may correspond to the same physical controller or processor as the first control module 115 and/or the second control module.

Optionally, the storage device further comprises:

at least a first wireless communication module 114, configured to perform information interaction with a second wireless communication module of the powered device, and at least obtain identification information and power status information of the powered device;

a fourth control module, connected to the first wireless communication module 114, for reading the identification information and the power status information; determining the charging amount of the powered device by combining the identification information and the electric quantity state information; and generating a preset operation request according to the charging amount.

In some embodiments, the first wireless communication module 114 reports the identification information and the power status information of the powered device with the second communication module.

For example, the first wireless communication module 114 is one, and the second wireless communication module carries its own communication identifier each time it communicates with the first wireless communication module 114, so as to facilitate the identification of the storage device, and report its own power state information periodically, where the power state information may include: current amount of electricity or amount of electricity charged by rush, etc. The fourth control module, in communication with the first wireless communication module 114, may determine a charging amount according to the identification information and the state of electric quantity information, and generate the preset operation request, for example, a charging payment request, or a prompt request that the electric quantity is full, and the storage device may perform a predetermined operation by itself according to the preset operation request, or send the preset operation request to the user equipment bound to the powered device, to request payment or output a prompt that the electric quantity is full.

For example, a user finds that one own mobile phone is not powered in a shopping mall, the mobile phone without power can be placed into a storage device as powered equipment to be charged, the storage device comprises a switch module, the corresponding storage space is closed after the user places the mobile phone in, and the user can subsequently open the corresponding storage space by means of a password and the like displayed by the storage device. The user utilizes user equipment such as the smart bracelet or another mobile phone to establish with storage device and has the binding relation, and follow-up, after fourth control module group of storage device found that this user's cell-phone has been full of, can send the suggestion to another cell-phone of user or smart bracelet etc. through the charging platform of network side, perhaps, requests payment etc..

In this embodiment, the fourth control module may determine a charging amount of the powered device put into the storage device according to the last reported state of power information of the powered device.

Optionally, one accommodating space 111 is provided with one first wireless charging module 113 and one first wireless communication module 114; the first wireless communication module 114 is configured to perform information interaction with a second wireless communication module of the powered device, and at least obtain identification information of the powered device; in this embodiment, the first wireless charging module 113 may adopt an NFC module, and has the characteristics of low cost and convenient communication.

A fifth control module, connected to the first wireless charging module 113 and the first wireless communication module 114, respectively, and configured to read power supply status information from the first wireless charging module 113 and read identification information of the powered device from the first wireless communication module 114, determine a charging amount of the powered device according to the identification information and the power supply status information, and generate a preset operation request according to the charging amount.

In this embodiment, the fifth controller is connected to the first wireless charging module 113 and the first wireless communication module 114, respectively, and can read the identification information of the powered device, and can also read the power supply status information of the first wireless charging module 113, such as the power consumption, power supply amount, charging current, charging voltage, etc. of the first wireless charging module 113, so as to determine the charging amount to the corresponding powered device.

In some embodiments, the generation of the payment request for charging or the like may also be performed according to the number of times of charging or the charging time, without being limited to the amount of charge for payment.

Optionally, the power supply module 112 includes:

the power receiving device comprises a first power supply interface used for receiving external power supply to obtain electric energy for supplying power to the power receiving device. The first power supply interface can be a mains supply interface, can be directly connected to a mains supply, and supplies power to the powered device.

Further optionally, the power supply module 112 may include:

the power receiving device comprises an energy storage battery and a second power supply interface, wherein the energy storage battery is used for storing electric energy for supplying power to the power receiving device, and the second power supply interface is used for supplying power to the energy storage battery.

The energy storage battery can be an ultra-large capacity battery, and the second power supply interface can be a mains supply interface for supplying power to the energy storage battery and the like.

Still alternatively, the power supply module 112 may include:

generator and the energy storage battery who links to each other with the generator, in some remote areas such as desert, commercial power supply probably can not arrive or unusual, and this storage device can dispose small-size generator, and when energy storage battery's electric quantity was crossed lowly, the generator automatic start electricity generation to supply with the electric energy that obtains energy storage battery, it is convenient energy storage battery passes through first wireless charging module 113 and supplies power to the powered device.

As shown in fig. 5, the present embodiment provides a power receiving apparatus including:

a housing 210;

a battery 211 located within the housing 210;

and a second wireless charging module 212, located in the housing 210, connected to the battery 211, and configured to couple with the first wireless charging module of the receiving device to wirelessly charge the battery 211.

The powered device provided by the embodiment may be various types of electronic devices, such as a mobile power supply or an electronic device such as a mobile phone with power consumption.

The housing 210 may be various types of housings 210, and may be an outer housing 210 of the power receiving apparatus.

The battery 211, which may be a storage battery, such as a lithium battery, may be located within the housing 210. The second wireless charging module 212 is connected to the battery 211 in the housing 210, and can charge the battery 211, and can also be coupled to the first wireless charging module in the storage device to charge the battery 211, thereby wirelessly charging the power receiving device.

Optionally, as shown in fig. 6, the power receiving apparatus further includes:

the second wireless communication module 213 is located in the housing 210 and performs information interaction with the first wireless communication module of the storage device.

The second wireless communication module 213 can be any type of wireless communication module, such as the aforementioned bluetooth module, WiFi module, NFC module, or D2D module.

In this embodiment, the information interaction may include interaction of identification information of the powered device and/or interaction of charging condition information, and the like.

Optionally, the power receiving apparatus further includes:

a storage module, located in the housing 210, connected to the second wireless communication module 213, and configured to store at least identification information of the powered device;

the second wireless communication module 213 is at least specifically configured to send the identification information to the first wireless communication module.

The storage module can include: a storage medium that may store identification information of the power receiving apparatus. The identification information may be any one of the aforementioned identification information, and in some embodiments, for example, when the powered device is a mobile phone, the storage module may be identification information stored in a Subscriber Identity Module (SIM) and corresponding to a mobile phone number.

In some embodiments, the powered device further comprises: the charging detection module is used for detecting charging state information of the powered device;

the second wireless communication module 213 is further configured to send the charging status information to the first wireless communication module. The charging detection module can include: the current electric quantity of the powered device is determined by an electric quantity meter and the like.

Several specific examples are provided below in connection with the above embodiments:

example 1:

this example provides a storage device, and this storage device is called the rack in this example, has a wireless transmitting terminal coil that charges under every little check of placing portable power source in this rack, and portable power source can charge after putting into naturally.

The Bluetooth (BLE) chip in each mobile power supply has a unique MAC address, and can be identified by the cabinet when the mobile power supply is placed in the cabinet. Thereby confirming the user borrowing and returning.

The Bluetooth chip on the cabinet is a master device, and the Bluetooth chip of the mobile power supply is a slave device. Through adopting BLE wireless (mesh) network structure, a rack only needs a slice bluetooth chip, just can control the portable power source of whole rack, has saved the cost of rack greatly.

A mobile power supply can be placed in each small cell of the cabinet. The bottom of each cell is provided with a wireless charging coil which is a transmitting end. The mobile power supply is also provided with a wireless charging module which is a receiving end. All there is bluetooth BLE chip on portable power source and the rack, communicates, discerns portable power source's sign (ID). The cabinet can know which mobile power supply is borrowed or returned, count the number of power supplies, supplement in time and the like. The cabinet and the power supply are connected in a BLE mesh mode, and the cabinet can know information of all power supplies in the whole cabinet only by one Bluetooth chip.

Fig. 7 is a schematic front view of a cabinet, in which a charging grid for a portable power source (a powered device) can be seen.

Fig. 8 is a schematic view of the inside of one side of the cabinet, and it can be seen that a charging grid, a wireless charging module for wireless charging, and BLE for wireless communication are disposed in the cabinet.

Fig. 9 shows a wireless connection network established between the cabinet and the mobile power source, for example, a BLE network established by using a bluetooth module.

Example 2:

as shown in fig. 10, the present example provides a power supply system including: the storage device and the power receiving equipment are described above. The storage apparatus may include the cabinet of example 1, and the powered device may be a mobile power source.

The portable power source includes:

a battery for storing an amount of power;

the wireless charging receiving module is equivalent to the second wireless charging module and is used for receiving wireless charging and transmitting electric quantity to the charging and protecting module;

the charging and protecting module is respectively connected with the battery and the wireless charging receiving module, can be used for charging the battery and performing charging protection, such as overvoltage protection in the charging process;

microcontroller (MCU), with charge and protection module and BLE be connected, control on the one hand charge and the protection module charges to the battery, on the other hand control BLE's bluetooth communication.

BLE, a wireless communication module, can carry out wireless communication through bluetooth signal, for example, sends portable power source's sign to rack etc..

The cabinet is one of the aforesaid storage device, includes:

the wireless charging module sending module is equivalent to the first wireless charging module and can be used for supplying power to the outside;

the transformer may be a dc transformer, which can convert a dc voltage, or an ac-to-dc transformer, and in short, the transformer can provide a supply voltage required by the power receiving device by transforming the voltage. For example, the powered device may notify the storage apparatus of its charging parameters through information interaction with the storage apparatus, where the charging parameters may include: a charging current and/or a charging voltage.

The BLE is one of wireless communication modules and can be used for information interaction between the cabinet and the mobile power supply;

the MCU is connected with the transformer, the BLE and the like, and is integrally used for controlling the working state of each module of the cabinet and coordinating the mutual matching of different modules;

the wireless module, for example, a wireless module for mobile communication, for example, a 3G, 4G or 5G communication module in mobile communication, may be connected to the cloud.

The cloud may be various servers or service platforms arranged on the network side, such as a charging platform.

As shown in fig. 10, the mobile power source and the cabinet transfer electric quantity through the wireless charging sending module and the wireless charging receiving module; wireless communication is carried out through various BLE, and various information in the charging process is interacted. The mobile power supply and the MCU of the cabinet can be respectively an internal control module for controlling the charging state and/or the information interaction state.

In the several embodiments provided in the present application, it should be understood that the disclosed apparatus and method may be implemented in other ways. The above-described device embodiments are merely illustrative, for example, the division of the unit is only a logical functional division, and there may be other division ways in actual implementation, such as: multiple units or components may be combined, or may be integrated into another system, or some features may be omitted, or not implemented. In addition, the coupling, direct coupling or communication connection between the components shown or discussed may be through some interfaces, and the indirect coupling or communication connection between the devices or units may be electrical, mechanical or other forms.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, that is, may be located in one place, or may be distributed on a plurality of network units; some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, each functional unit in the embodiments of the present invention may be integrated into one processing module, or each unit may be separately used as one unit, or two or more units may be integrated into one unit; the integrated unit can be realized in a form of hardware, or in a form of hardware plus a software functional unit.

Those of ordinary skill in the art will understand that: all or part of the steps for implementing the method embodiments may be implemented by hardware related to program instructions, and the program may be stored in a computer readable storage medium, and when executed, the program performs the steps including the method embodiments; and the aforementioned storage medium includes: a mobile storage device, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. A storage device, comprising:

the outer shell is provided with a plurality of grooves,

the power receiving device comprises a shell, at least one accommodating space and a power receiving device, wherein the accommodating space is positioned inside the shell, and an opening communicated with the accommodating space is formed in the shell and is used for accommodating the power receiving device;

the power supply module is used for supplying electric energy for supplying power to the powered device;

at least one first wireless charging module, with the power supply module is connected, be used for with the wireless module coupling that charges of second in the powered device, right the powered device carries out wireless charging.

2. The storage device of claim 1, further comprising:

the first wireless communication module is positioned in the accommodating space and used for carrying out information interaction with a second wireless charging module on the powered device;

the first control module is connected with the first wireless communication module and used for determining the condition information of the powered equipment in the corresponding accommodating space according to the information provided by the first wireless communication module;

wherein,

the first wireless communication module is specifically configured to interact with the second wireless charging module to read identification information of the powered device and return the identification information to the first control module;

or

The first wireless communication module is further configured to detect connection state information with the second wireless charging module, and send connection state information to the first control module;

the first control module is specifically configured to determine whether a corresponding powered device is located in the accommodating space according to the connection status information.

3. The storage device of claim 1, further comprising:

the prompting module is used for outputting preset prompting information; the predetermined prompt information includes: an operation prompt of the storage device and/or status information of the storage device;

and/or

The storage device further includes:

the operation module is used for acquiring operation instructions;

and the second control module is connected with the operation module and is at least used for controlling the corresponding working state information of the first wireless charging module according to the operation instruction.

4. The storage device of claim 1, further comprising:

the switch module is used for opening the corresponding accommodating space or closing the accommodating space according to the switch state of the switch module;

the third control module is used for determining the current use state information of the powered device by combining the switching state of the switching module and the information interaction state information of the powered device; and/or determining the accommodating space of the powered device by combining the switch state of the switch module and the carried identification information sent by the powered device.

5. The storage device of claim 1,

the storage device further includes:

the at least first wireless communication module is used for performing information interaction with a second wireless communication module of the powered device, and at least acquiring identification information and electric quantity state information of the powered device;

the fourth control module is connected with the first wireless communication module and reads the identification information and the electric quantity state information; determining the charging amount of the powered device by combining the identification information and the electric quantity state information; and generating a preset operation request according to the charging amount.

6. The storage device of claim 1,

one accommodating space is provided with one first wireless charging module and one first wireless communication module;

the first wireless communication module is used for performing information interaction with a second wireless communication module of the powered device, and at least acquiring identification information of the powered device;

and the fifth control module is respectively connected with the first wireless charging module and the first wireless communication module, and is used for reading power supply condition information from the first wireless charging module and reading identification information of the powered device from the first wireless communication module, determining the charging amount of the powered device according to the identification information and the power supply condition information, and generating a preset operation request according to the charging amount.

7. A powered device, comprising:

a housing;

a battery located within the housing;

and the second wireless charging module is positioned in the shell, is connected with the battery and is used for being coupled with the first wireless charging module of the storage device to wirelessly charge the battery.

8. The power receiving apparatus according to claim 7, further comprising:

and the second wireless communication module is positioned in the shell and performs information interaction with the first wireless communication module of the containing device.

9. The power receiving apparatus according to claim 8, further comprising:

the storage module is positioned in the shell, is connected with the second wireless communication module, and is at least used for storing the identification information of the powered device;

the second wireless communication module is at least specifically configured to send the identification information to the first wireless communication module.

10. The power receiving apparatus according to claim 8 or 9, further comprising:

the charging detection module is used for detecting charging state information of the powered device;

the second wireless communication module is further configured to send the charging status information to the first wireless communication module.