CN111262291A - Charging equipment with gateway function, system and data transmission method - Google Patents

Abstract

The embodiment of the invention discloses charging equipment with a gateway function, a system and a data transmission method. The apparatus comprises: the charging device, the communication device, the data storage device and the controller are electrically connected; the charging device is used for charging the electronic equipment to be charged; the communication device is used for communicating with the electronic equipment to be sent and the target electronic equipment; the data storage device is electrically connected with the communication device and is used for storing the data received by the communication device; the controller is used for controlling the communication device to receive data sent by the electronic equipment with data to be sent, storing the data in the data storage device, acquiring the target equipment information, and controlling the communication device to send the data stored in the data storage device to the target electronic equipment corresponding to the target equipment information according to the target equipment information. The invention assists the electronic equipment to transmit data to the target electronic equipment in time, and improves the user experience.

Description

Charging equipment with gateway function, system and data transmission method

Technical Field

The invention relates to the technical field of charging equipment, in particular to charging equipment with a gateway function, a system and a data transmission method.

Background

Intelligent personal care electronic devices are increasingly used in people's lives, such as electric toothbrushes, face cleaners, and face massagers. In order to effectively use the intelligent personal care electronic device, the use data of the intelligent personal care electronic device needs to be collected in time through the network for display and analysis, and the control data needs to be sent to the intelligent personal care electronic device through the network so that the intelligent personal care electronic device can work more in line with the expected requirements of users. In the prior art, when the intelligent personal protective electronic equipment is frequently started and used in a toilet, the network signal intensity of the toilet is weak and unstable, and when the intelligent personal protective electronic equipment is not smoothly connected with the network, data cannot be sent and received in time, so that the use data cannot be displayed and analyzed in time, the control data cannot be received in time to adjust the work of the intelligent personal protective electronic equipment, and the user experience of the intelligent personal protective electronic equipment is influenced; the charging equipment is the indispensable auxiliary assembly of individual electronic equipment of protecting of intelligence, and in order to avoid moist, charging equipment can place the bathroom and keep away from the place of bathing or other rooms, but present charging equipment only provides the function of charging, and the function is single. Therefore, it is important to develop a charging device that can enable the auxiliary electronic device to transmit data.

Disclosure of Invention

In view of the above, it is necessary to provide a charging apparatus having a gateway function, a system and a data transmission method.

In a first aspect, the present invention provides a charging device with a gateway function, configured to charge an electronic device to be charged, including: the charging device, the communication device, the data storage device and the controller are electrically connected with the charging device, the data storage device and the communication device;

the charging device is used for charging the electronic equipment to be charged;

the communication device is used for communicating with the electronic equipment to be sent and the target electronic equipment;

the data storage device is electrically connected with the communication device and is used for storing the data received by the communication device;

the controller is used for controlling the communication device to receive the data sent by the electronic equipment with the data to be sent, storing the data in the data storage device, acquiring target equipment information, and controlling the communication device to send the data stored in the data storage device to the target electronic equipment corresponding to the target equipment information according to the target equipment information.

In one embodiment, the communication device includes a wireless communication mechanism for wirelessly communicating with the data-to-send electronic device and the target electronic device;

the wireless communication mechanism is electrically connected with the data storage device and the controller;

wherein the wireless communication mechanism comprises: at least one of a WiFi communication component, a Bluetooth communication component, a UWB communication component, a mobile phone communication component, a ZigBee communication component, an RFID communication component, a LoRa communication component, an NB-ioT communication component, a sound wave communication component and an optical communication component.

In one embodiment, the communication device further comprises a wired communication mechanism for wired communication with the data-to-be-sent electronic device and the target electronic device;

the wired communication mechanism is electrically connected with the data storage device and the controller;

wherein the wired communication mechanism includes: at least one of an optical fiber communication module, a network cable communication component, a USB Type-C communication component, a USB Type-B communication component, a USB Type-A communication component, a Lightning communication component and a digital serial communication component.

In one embodiment, the charging device includes at least one of a wireless charging mechanism for wirelessly charging the electronic device to be charged and a wired charging mechanism for wired charging the electronic device to be charged.

In one embodiment, the gateway-enabled charging device further comprises a rechargeable power storage mechanism;

the charging device is electrically connected with the chargeable power storage mechanism and is used for charging the chargeable power storage mechanism;

the rechargeable power storage mechanism is electrically connected with the data storage device, the communication device and the controller and is used for providing electric energy for the data storage device, the communication device and the controller.

In one embodiment, the charging device with gateway function further comprises a wall hanging device for fixed or detachable connection with the wall 18, a housing provided with a containing cavity;

the charging device, the communication device, the data storage device and the controller are positioned in the accommodating cavity;

the wall hanging device is detachably connected to the shell.

In one embodiment, the electronic device to be charged is detachably connected with the housing and detachably connected with the wall hanging device.

In one embodiment, the gateway-enabled charging device further comprises a permanent magnet component;

the permanent magnet component is installed on the shell and used for fixing the electronic device to be charged on the shell in an adsorption mode.

In one embodiment, the data storage device employs at least one of non-volatile memory, random access memory.

In a second aspect, the present invention further provides a charging system with a gateway function, including: at least one charging device with a gateway function, an electronic device to be charged, an electronic device to send data, a target electronic device, a terminal and a server side, wherein the charging device is provided with the gateway function;

the charging equipment with the gateway function is electrically connected with the electronic equipment to be charged and used for charging the electronic equipment to be charged, receiving and storing the data packet to be transmitted sent by the electronic equipment to be transmitted and sending the stored data packet to be transmitted to the target electronic equipment;

the terminal is loaded in the electronic device with the to-be-transmitted data and/or the target electronic device, is in communication connection with the charging device with the gateway function, and is used for receiving the data packet to be transmitted sent by the charging device with the gateway function and sending the data packet to be transmitted to the charging device with the gateway function;

the server side is loaded in the to-be-transmitted data electronic equipment and/or the target electronic equipment, is in communication connection with the charging equipment with the gateway function and the terminal, and is used for receiving the to-be-transmitted data packet sent by the charging equipment with the gateway function, sending the to-be-transmitted data packet to the charging equipment with the gateway function, receiving the to-be-transmitted data packet sent by the terminal, and sending the to-be-transmitted data packet to the terminal.

In a third aspect, the present invention further provides a data transmission method based on a charging device with a gateway function, which is applied to at least one charging device with a gateway function in any one of the first aspect or the charging system with a gateway function in the second aspect;

the charging equipment with the gateway function comprises a charging device, a communication device and a data storage device;

the method comprises the following steps:

receiving a data temporary storage request;

responding to the data temporary storage request, controlling a communication device to receive a data packet to be transmitted sent by the electronic equipment for data to be sent, and storing the data packet to be transmitted in a data storage device;

acquiring target equipment information;

controlling the communication device to send a data sending request to the target electronic equipment corresponding to the target equipment information according to the target equipment information;

receiving a data uploading signal sent by target electronic equipment corresponding to the target equipment information;

and controlling the communication device to send the data packet to be transmitted in the data storage device to the target electronic equipment corresponding to the target equipment information according to the data uploading signal, receiving a data transmission completion signal sent by the communication device, and controlling the data storage device to delete the data packet to be transmitted according to the data transmission completion signal.

In an embodiment, when the same to-be-transmitted data packet needs to be sent to multiple pieces of target device information, in response to the data temporary storage request, the method further includes, after controlling the communication device to receive the to-be-transmitted data packet sent by the to-be-transmitted data electronic device and storing the to-be-transmitted data packet in the data storage device:

A. acquiring a plurality of pieces of target equipment information;

B. controlling the communication device to send the data sending request to the target electronic equipment corresponding to the target equipment information according to the target equipment information;

C. receiving the data uploading signal sent by the target electronic equipment corresponding to the target equipment information;

D. controlling the communication device to send the data packet to be transmitted in the data storage device to target electronic equipment corresponding to the target equipment information according to the data uploading signal;

E. and D, repeating the steps B to D until the data package to be transmitted is sent to all target electronic equipment corresponding to the target equipment information, receiving the data transmission completion signal sent by the communication device, and controlling the data storage device to delete the data package to be transmitted according to the data transmission completion signal.

In one embodiment, the data temporary storage request carries source information;

after controlling the communication device to receive a data packet to be transmitted sent by the electronic device for data to be sent and storing the data packet to be transmitted in the data storage device, the method further comprises the following steps: and sending a data storage completion signal to the to-be-sent data electronic equipment corresponding to the source information.

In one embodiment, the data packet to be transmitted includes: the gateway program control method includes any one of usage data of the data-to-be-transmitted electronic device, data for program control of the target electronic device, data for program update of the target electronic device, data for controlling operation of the charging apparatus based on the charging device having the gateway function, data for gateway program control based on the charging device having the gateway function, and data for upgrading update based on the gateway program of the charging device having the gateway function.

In summary, the charging device with gateway function of the present invention includes: the charging device is used for charging the electronic equipment to be charged, the controller stores the data received by the communication device and sent by the electronic equipment to be sent in the data storage device, the data in the data storage device is sent to the target electronic equipment through the communication device, the data sent by the electronic equipment to be sent is stored in the data storage device for temporary storage, when the charging equipment with gateway function is in smooth communication connection with the target electronic equipment, the charging equipment with gateway function sends the data in the data storage device to the target electronic equipment through the communication device, so that the charging equipment with gateway function has the gateway function, the electronic equipment to be sent is assisted to transmit the data to the target electronic equipment in time, and the use data are displayed and analyzed in time, the work of adjusting the target electronic equipment by receiving the control data in time is realized, and the user experience of the electronic equipment is improved. Therefore, the invention assists the electronic equipment to transmit data to the target electronic equipment in time, and improves the user experience.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Wherein:

fig. 1 is a schematic structural diagram of a charging apparatus having a gateway function in one embodiment;

fig. 2 is a block diagram illustrating a structure of the charging apparatus having a gateway function of fig. 1;

fig. 3 is a partial structural perspective view of the charging apparatus having a gateway function of fig. 1;

fig. 4 is a diagram of an application scenario of a charging system with a gateway function;

fig. 5 is a flowchart of a data transmission method based on a charging device having a gateway function in one embodiment;

fig. 6 is a flowchart of a data transmission method based on a charging apparatus having a gateway function in another embodiment.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1 to 3, in one embodiment, a charging device 1 with a gateway function is provided for charging an electronic device to be charged, and includes: the charging device 11, the communication device 12, the data storage device 13 and the controller 14, wherein the controller 14 is electrically connected with the charging device 11, the data storage device 13 and the communication device 12;

the charging device 11 is used for charging the electronic device to be charged;

the communication device 12 is used for communicating with the electronic device to send data and the target electronic device;

the data storage device 13 is electrically connected with the communication device 12 and is used for storing data received by the communication device 12;

the controller 14 is configured to control the communication device 12 to receive data sent by the electronic device to be sent, store the data in the data storage device 13, obtain target device information, and control the communication device 12 to send the data stored in the data storage device 13 to a target electronic device corresponding to the target device information according to the target device information.

The charging apparatus 1 with a gateway function of the present embodiment includes: the charging device 11 is used for charging the electronic equipment to be charged, the controller 14 stores the data sent by the electronic equipment to be charged and received by the communication device 12 in the data storage device 13, the data in the data storage device 13 is sent to the target electronic equipment to be charged through the communication device 12, the data sent by the electronic equipment to be sent is stored in the data storage device 13 for temporary storage, when the charging equipment 1 with gateway function is in smooth communication connection with the target electronic equipment, the charging equipment 1 with gateway function sends the data in the data storage device 13 to the target electronic equipment through the communication device 12, so that the charging equipment 1 with gateway function has gateway function, and the electronic equipment to be sent is assisted to transmit the data to the target electronic equipment in time, the method and the device realize timely display and analysis of the use data, realize timely receiving of the control data to adjust the work of the target electronic equipment, and improve user experience.

The to-be-charged electronic equipment comprises but is not limited to an electric toothbrush, a face cleaning instrument, a face massaging instrument, a mobile phone, wearable equipment and a tablet personal computer.

Alternatively, the charging device 11 may charge various types of electronic devices to be charged.

The data to be sent electronic equipment comprises but is not limited to an electric toothbrush, a face cleaning instrument, a face massage instrument, a mobile phone, wearable equipment, a tablet computer, a desktop computer and a server. It is understood that the data to be transmitted electronic device can transmit data to the charging device 1 having the gateway function as long as the communication connection with the charging device 1 having the gateway function is successful.

The target electronic device includes, but is not limited to, an electric toothbrush, a face cleaning instrument, a face massaging instrument, a mobile phone, a wearable device, a tablet computer, a desktop computer, and a server. It is understood that the target electronic device can receive the data transmitted by the charging device with gateway function 1 as long as the communication connection with the charging device with gateway function 1 is successful.

Optionally, the charging apparatus 1 with the gateway function may be simultaneously in communication connection with a plurality of electronic devices to be sent and a plurality of target electronic devices through the communication device 12.

Optionally, the electronic device to be charged may also be used as an electronic device to send data to the charging device 1 with the gateway function when charging, and the electronic device to be charged may also be used as a target electronic device to receive data sent by the charging device 1 with the gateway function when charging. When the electronic device to be charged is not charged, the electronic device to be charged can also be used as an electronic device to send data to the charging device 1 with the gateway function, and when the electronic device to be charged is not charged, the electronic device to be charged can also be used as a target electronic device to receive the data sent by the charging device 1 with the gateway function.

Optionally, the charging device 1 with the gateway function may be an electronic device to send data; the charging apparatus 1 having the gateway function can also serve as the target electronic apparatus. It can be understood that the charging device 1 with the gateway function may be used as a data to be transmitted electronic device, that is, may be used as its own data to be transmitted electronic device, and may also be used as a data to be transmitted electronic device of other charging devices 1 with the gateway function; the charging device 1 having the gateway function may also be a target electronic device, which may be a target electronic device of itself or a target electronic device of another charging device 1 having the gateway function.

The Controller 14 may be selected from the prior art and may employ a PLC (Programmable Logic Controller) and/or an FPGA (field Programmable Gate Array) and/or a microprocessor, which is not specifically limited by the examples herein.

The communication device 12 may employ a wireless communication means 121 for wireless communication, may employ a wired communication means 122 for wired communication, and may employ both the wireless communication means 121 for wireless communication and the wired communication means 122 for wired communication.

The charging device 11 is configured to convert an ac power to charge the electronic device to be charged, for example, convert 220V ac power to 5V dc power and input the dc power to the electronic device to be charged to charge a battery of the electronic device to be charged, which is not limited in this example.

The data storage device 13 may employ a plurality of memories for storing different data in a classified manner, may also employ one memory and the memory is divided into a plurality of areas for storing different data in a classified manner, and may also employ at least one memory without storing data in a classified manner, which is not specifically limited by the example.

Optionally, the data sent by the to-be-sent data electronic device means that one data packet to be transmitted is sent each time, and the data packet to be transmitted is a complete data packet, so that the to-be-transmitted data packet is beneficial to receiving and sending management of the to-be-transmitted data packet.

In one embodiment, the communication device 12 includes a wireless communication mechanism 121 for wirelessly communicating with the data-to-send electronic device and the target electronic device;

the wireless communication mechanism 121 is electrically connected to the data storage device 13 and the controller 14;

wherein the wireless communication mechanism 121 includes: at least one of a WiFi communication component, a bluetooth communication component, a UWB (ultra wide band) communication component, a mobile phone communication component, a ZigBee (ZigBee) communication component, an RFID (radio frequency identification) communication component, a LoRa (long distance) communication component, an NB-ioT (narrowband internet of things) communication component, a sound wave communication component, and an optical communication component. It is understood that the wireless communication mechanism 121 may also adopt other wireless communication components, which are not specifically limited by way of example herein. Through multiple wireless communication components, the charging device 1 with the gateway function can communicate with the to-be-sent data electronic device and the target electronic device which adopt different types of wireless communication components, so that the application scenes of the charging device 1 with the gateway function are increased, the use cost of the charging device 1 with the gateway function is reduced, and the user experience of the charging device 1 with the gateway function is improved.

The WiFi communication means is Wireless-Fidelity, and a technology in which a plurality of terminals 3 are wirelessly connected to each other may be a WiFi communication module selected from existing technologies.

The bluetooth communication means is based on a low-cost short-range wireless connection, a special short-range wireless technology connection establishing a communication environment for the fixed and mobile devices, a bluetooth communication module being selectable from the prior art.

The UWB communication section is a wireless carrier communication technology, and the UWB communication module may be selected from the existing technologies.

The mobile phone communication component may select a component inserted into a mobile phone card for communication from the prior art, such as a 2G module, a 3G module, a 4G module, and a 5G module, which is not limited in this example.

The ZigBee communication component uses a wireless network protocol of low-speed short-distance transmission, and may select a ZigBee communication module from the prior art, which is not specifically limited in this example.

The RFID communication component is one of automatic identification technologies, performs contactless bidirectional data communication by using a radio frequency, and may select an RFID communication module from the prior art, which is not specifically limited by this example.

The LoRa communication component is an ultra-long distance wireless transmission scheme based on a spread spectrum technology, belongs to one of internet of things technologies, and may select an LoRa communication module from the prior art, which is not specifically limited herein.

The NB-ioT communication component is used for a narrowband internet of things, supports cellular data connection of low power consumption devices in a wide area network, and may select an NB-ioT communication module from the prior art, which is not specifically limited by the example herein.

The acoustic wave communication component is used to encode data into an acoustic wave signal for transmission to achieve short-distance point-to-point and one-to-many communication, and an acoustic wave communication module may be selected from the prior art, which is not specifically limited herein.

The optical communication component is a communication method using light waves as carriers, and an optical communication module may be selected from the prior art, which is not specifically limited by the examples herein.

In one embodiment, the communication device 12 further comprises a wired communication mechanism 122 for wired communication with the data-to-send electronic device and the target electronic device;

the wired communication mechanism 122 is electrically connected with the data storage device 13 and the controller 14;

wherein the wired communication mechanism 122 comprises: at least one of an optical fiber communication module, a network cable communication component, a USB Type-C (C Type USB interface) communication component, a USB Type-B (B Type USB interface) communication component, a USB Type-A (A Type USB interface) communication component, a Lightning interface communication component and a digital serial communication component. It is understood that the wired communication mechanism 122 may also adopt other wired communication components, which are not specifically limited by way of example herein. Through multiple wired communication parts, the communication stability of the charging device 1 with the gateway function is improved, and the efficiency of data transmission is improved through the wired communication parts by the charging device 1 with the gateway function, so that the user experience of the charging device 1 with the gateway function is further improved.

The optical fiber communication module is a communication module which takes light waves as an information carrier and optical fibers as a transmission medium. The optical fiber is referred to as an optical fiber.

The network cable communication means communicates via a network cable.

USB Type-C communication part is based on the part that is USB Type-C communication, outwards passes through USB Type-C interface, supports positive and negative 2 directions and inserts USB Type-C interface.

The USB Type-B communication component is based on a component which is in USB Type-B communication and outwards passes through a USB Type-B interface.

The USB Type-A communication component is based on a component of USB Type-A communication and outwards passes through a USB Type-A interface.

The Lightning communication part provides an apple high-speed multifunctional I/O interface outwards.

The digital serial communication part transmits data bit by bit in sequence through a digital serial communication bus.

In one embodiment, the charging device 11 includes at least one of a wireless charging mechanism 112 for wirelessly charging the electronic device to be charged and a wired charging mechanism 111 for wired charging the electronic device to be charged. The method specifically comprises the following steps: charging device 11 adopts and is used for to wait to charge wireless charging mechanism 112 that electronic equipment carries out wireless charging, perhaps charging device 11 adopts and is used for to wait to charge wired charging mechanism 111 that electronic equipment carries out wired charging, perhaps charging device 11 adopts simultaneously be used for to wait to charge wireless charging mechanism 112 that electronic equipment carries out wireless charging and be used for to wait to charge wired charging mechanism 111 that electronic equipment carries out wired charging.

In one embodiment, the wireless charging mechanism 112 includes a wireless charging transmitter 1121, and the wireless charging transmitter 1121 is electrically connected to an external power source and is configured to wirelessly charge the electronic device to be charged after the external power source is converted. The wireless charging transmitter 1121 may be selected from the prior art to support the component of the QI wireless charging standard, and is not specifically limited by the examples herein.

In one embodiment, the wireless charging mechanism 112 further includes a battery component 1122; the battery component 1122 is electrically connected to the wireless charging transmitter 1121 for supplying power to the wireless charging transmitter 1121; the battery component 1122 and the wireless charging transmitter 1121 are detachably connected to other components of the charging device 1 with the gateway function, so that the battery component 1122 and the wireless charging transmitter 1121 can be used independently, application scenarios of the charging device 1 with the gateway function are further increased, the use cost of the charging device 1 with the gateway function is reduced, and the user experience of the charging device 1 with the gateway function is improved.

The battery unit 1122 may be a rechargeable lithium battery or a disposable dry battery selected from the prior art, and is not specifically limited by this example.

In one embodiment, the wired charging mechanism 111 includes an external power input port for electrically connecting to an external power source, a power conversion circuit, and a wired charging spring; the input end of the power supply conversion circuit is electrically connected with the external power supply input port, and the output end of the power supply conversion circuit is electrically connected with the wired charging elastic sheet so as to convert electric energy input by the external power supply through the external power supply input port and then output the electric energy through the wired charging elastic sheet. For example, the alternating current of 220V is converted into the direct current of 5V and the current of 2A, and the direct current is input to the electronic device to be charged to charge the battery of the electronic device to be charged, which is not limited in this example.

The power conversion circuit may select an integrated circuit capable of implementing a corresponding function from the prior art, which is not described herein again.

In one embodiment, the gateway-enabled charging apparatus 1 further includes a chargeable power storage mechanism;

the charging device 11 is electrically connected with the rechargeable power storage mechanism for charging the rechargeable power storage mechanism;

the rechargeable power storage mechanism is electrically connected with the data storage device 13, the communication device 12 and the controller 14 for supplying electrical energy to the data storage device 13, the communication device 12 and the controller 14. Therefore, when the external power supply of the charging device 11 is powered off, the charging device 1 with the gateway function can continue to operate through the electric energy provided by the rechargeable electricity storage mechanism, the charging device 1 with the gateway function can continue to receive data when being in communication with the electronic device to be sent, and the charging device 1 with the gateway function can continue to send data when being in communication with the target electronic device.

In an embodiment, the rechargeable power storage mechanism is further configured to charge the electronic device to be charged through the charging device 11, so that when the charging device 11 is disconnected from an external power source, the electronic device to be charged can be continuously charged, and the user experience of the charging device 1 with the gateway function is further improved.

In one embodiment, the gateway-enabled charging apparatus 1 further comprises a disposable power storage mechanism electrically connected with the data storage device 13, the communication device 12 and the controller 14 for providing power to the data storage device 13, the communication device 12 and the controller 14.

In one embodiment, the disposable power storage mechanism is further used for charging the electronic device to be charged through the charging device 11.

The rechargeable power storage mechanism may be a rechargeable lithium battery selected from the prior art, and is not specifically limited by way of example.

The disposable power storage mechanism may be selected from disposable dry cells in the prior art, and is not specifically limited by the examples herein.

In one embodiment, the gateway-enabled charging device 1 further comprises a wall-hanging means 16 for fixed or detachable connection to a wall 18, a housing 15 provided with a receiving cavity;

the charging device 11, the communication device 12, the data storage device 13 and the controller 14 are positioned in the accommodating cavity;

the wall hanging device 16 is detachably connected to the housing 15. The charging equipment 1 with the gateway function can be stably installed on a wall 18 by arranging the wall hanging device 16, so that the parts of the charging equipment 1 with the gateway function are prevented from being collided and damaged when scattered, and the service life of the charging equipment 1 with the gateway function is prolonged; by detachably connecting the wall hanging device 16 to the housing 15, when the charging apparatus with gateway function 1 is placed in a position parallel to the horizontal plane, the contact area between the charging apparatus with gateway function 1 and the external power supply unit can be reduced.

In one embodiment, the wall hanging device 16 includes: wall hanging casing 161 and first connecting piece 162, wall hanging casing 161 are used for with wall 18 fixed or can dismantle the connection, first connecting piece 162 is connected in wall hanging casing 161, shell 15 is equipped with the second connecting piece, the second connecting piece with the connection can be dismantled to first connecting piece 162. The first connecting piece 162 can be selected as a clamping column, the second connecting piece can be selected as a clamping groove, and the second connecting piece is detachably connected with the first connecting piece 162 through the matching of the clamping column and the clamping groove.

It is understood that the wall-mounted housing 161 is provided with a plug hole 1611, and a plug is inserted through the plug hole 1611 for electrically connecting the charging device 11 with an external power source.

In one embodiment, the electronic device to be charged is detachably connected to the housing 15 and detachably connected to the wall hanging device 16.

In one embodiment, the wall hanging device 16 further comprises: a folding plate 163 and a placing frame 164, wherein the folding plate 163 is connected with the wall hanging shell 161; the rack 164 is connected to a side of the folding plate 163 away from the wall-mounted housing 161 for placing an electronic device to be charged. When the charging apparatus 1 having the gateway function is mounted on the wall 18 via the wall hanging device 16, the electronic device to be charged can be placed at a predetermined position for charging via the rack 164.

The shape of the folding plate 163 may be an L-shape, and is not limited to this example.

In one embodiment, the gateway-enabled charging apparatus 1 further includes a permanent magnet member;

the permanent magnet component is mounted on the housing 15, so as to be used for fixing the electronic device to be charged on the housing 15 in an adsorption manner. When the charging device 1 with the gateway function and the electronic device to be charged are subjected to external force, the electronic device to be charged can be prevented from falling on the ground.

In one embodiment, the data storage device 13 employs at least one of a non-volatile memory and a random access memory. Therefore, when the charging device with gateway function 1 is powered off, the data stored in the data storage device 13 will not be lost, and the stability of the operation of the charging device with gateway function 1 is ensured.

In one embodiment, when the electronic device with data to be transmitted and the target electronic device are successfully connected to the charging device 1 with gateway function in a communication manner, the controller with gateway function controls the communication device to receive data transmitted by the electronic device with data to be transmitted, stores the data in the random access memory, acquires target device information, and controls the communication device to transmit the data stored in the random access memory to the target electronic device corresponding to the target device information according to the target device information, so that the random access memory serves as a cache. It is to be understood that, in one embodiment, the communication device is controlled to transmit the data stored in the random access memory to the target electronic device corresponding to the target device information in real time according to the target device information.

In one embodiment, the gateway-enabled charging device 1 further comprises an indicator light; the controller 14 is electrically connected with the indicator light for controlling the indicator light to work.

As shown in fig. 4, in one embodiment, a charging system with gateway function is proposed, including: at least one charging device 1 with a gateway function, an electronic device to be charged, an electronic device to send data, a target electronic device, a terminal 3 and a server 4;

the charging equipment 1 with the gateway function is electrically connected with the electronic equipment to be charged, and is used for charging the electronic equipment to be charged, receiving and storing a data packet to be transmitted sent by the electronic equipment to be transmitted, and sending the stored data packet to be transmitted to the target electronic equipment;

the terminal 3 is loaded in the electronic device with data to be transmitted and/or the target electronic device, and is in communication connection with the charging device 1 with gateway function, so as to receive the data packet to be transmitted sent by the charging device 1 with gateway function, and send the data packet to be transmitted to the charging device 1 with gateway function;

the server 4 is loaded in the to-be-transmitted data electronic device and/or the target electronic device, and is in communication connection with the charging device 1 with the gateway function and the terminal 3, so as to be used for receiving the to-be-transmitted data packet sent by the charging device 1 with the gateway function, sending the to-be-transmitted data packet to the charging device 1 with the gateway function, receiving the to-be-transmitted data packet sent by the terminal 3, and sending the to-be-transmitted data packet to the terminal 3.

Optionally, the loading of the server end 4 in the electronic device with data to be sent and/or the target electronic device means that the server end 4 is loaded in a server, and the server may serve as the electronic device with data to be sent and/or the target electronic device.

Optionally, the server 4 is charging management system software with a gateway function.

Optionally, the terminal 3 is loaded in the to-be-sent data electronic device and/or the target electronic device, that is, the terminal 3 may be loaded in a mobile phone, a wearable device, a tablet computer, and a desktop computer, and the mobile phone, the wearable device, the tablet computer, and the desktop computer may serve as the to-be-sent data electronic device and/or the target electronic device.

It is understood that the terminal 3 may be at least one of a mobile device APP side, a mobile device web page side, a desktop computer client side, and a desktop computer web page side.

Optionally, a user may set, through the terminal 3, data for controlling the charging device 11 to operate, package the data into the to-be-transmitted data packet, directly send the to-be-transmitted data packet to the charging apparatus 1 with the gateway function through the terminal 3, or send the to-be-transmitted data packet to the server terminal 4 and then send the to-be-transmitted data packet to the charging apparatus 1 with the gateway function through the server terminal 4.

Optionally, the to-be-transmitted data electronic device packages the usage data into a to-be-transmitted data packet, and then sends the to-be-transmitted data packet to the charging device 1 with the gateway function.

Optionally, the user may also set data for controlling the charging device 11 to operate through the terminal 3, package the data into the to-be-transmitted data packet, directly send the to-be-transmitted data packet to the charging device 1 with the gateway function through the terminal 3, and send the to-be-transmitted data packet to the server terminal 4 and then send the to-be-transmitted data packet to the charging device 1 with the gateway function by the server.

The charging device 1 with gateway function of the charging system with gateway function of this embodiment charges the electronic device to be charged, receives the data packet to be transmitted sent by the electronic device to be transmitted for storage, sends the stored data packet to be transmitted to the target electronic device, and stores the data packet to be transmitted sent by the electronic device to be transmitted in the charging device 1 with gateway function for temporary storage, when the charging device 1 with gateway function is in smooth communication with the target electronic device, the charging device 1 with gateway function sends the data packet to be transmitted to the target electronic device, so that the charging device 1 with gateway function has gateway function, assists the electronic device to transmit data to the target electronic device in time, realizes in-time display and analysis of the data for use, and realizes in-time receiving of control data to adjust the work of the target electronic device, the user experience is improved.

As shown in fig. 5, in an embodiment, a data transmission method based on a charging device with gateway function is provided, which is applied to at least one charging device with gateway function described in any one of the above, or the charging system with gateway function described in the above;

the charging equipment with the gateway function comprises a charging device, a communication device and a data storage device;

the method comprises the following steps:

s502, receiving a data temporary storage request;

specifically, the charging device with the gateway function receives the data temporary storage request through the communication device.

The data temporary storage request can be sent to the charging equipment with the gateway function actively after the electronic equipment to send data detects that communication connection is established between the electronic equipment to send data and the charging equipment with the gateway function; the data temporary storage request may also be a data temporary storage request sent by the charging device with the gateway function to the communication-connected data-to-be-sent electronic device, and the data temporary storage request is sent by the data-to-be-sent electronic device to the charging device with the gateway function when the data-to-be-sent electronic device detects that data needs to be sent after receiving the data-to-be-sent inquiry signal.

Optionally, the data temporary storage request carries source information. The source information may be device identification, account ID, device IP address, etc. that uniquely identifies a piece of electronic equipment that is to send data.

Optionally, the data temporary storage request further carries packet length information. Thereby facilitating the charging apparatus with gateway function to determine whether the space of the data storage device is sufficient based on the packet length information.

S504, responding to the data temporary storage request, controlling a communication device to receive a data packet to be transmitted sent by the electronic equipment for data to be transmitted, and storing the data packet to be transmitted in a data storage device;

the controller of the charging equipment with the gateway function responds to the data temporary storage request, controls the communication device to receive a data packet to be transmitted sent by the electronic equipment with the data to be sent, and controls the communication device to store the data packet to be transmitted in the data storage device.

Optionally, the controller of the charging device with the gateway function may receive and store the data packet to be transmitted in the data storage device.

Optionally, the controller of the charging device with a gateway function controls the communication device to receive the data packet to be transmitted, controls the communication device to store the data packet to be transmitted in the cache, and stores the entire data packet to be transmitted in the cache in the data storage device after all the data of the entire data packet to be transmitted are received.

S506, acquiring target equipment information;

specifically, the controller of the charging device having the gateway function acquires target device information.

Optionally, the target device information may be carried in the data temporary storage request.

Optionally, the target device information may also be included in the data packet to be transmitted.

Optionally, the target device information may also be carried in the data temporary storage request and included in the to-be-transmitted data packet.

Optionally, the target device information is stored in a target device correspondence table, and the target device correspondence table may be stored in the charging device with the gateway function after being preset. The target device correspondence table includes source location information and target device information, and it can be understood that each source location information corresponds to at least one target device information.

The target device information may be device identification, account ID, device IP address, etc. that uniquely identifies a target electronic device.

S508, controlling the communication device to send a data sending request to the target electronic equipment corresponding to the target equipment information according to the target equipment information;

specifically, the controller of the charging device having the gateway function controls the communication apparatus to transmit a data transmission request to the target electronic device corresponding to the target device information according to the target device information.

The data sending request carries an identifier of the charging device with the gateway function, where the identifier of the charging device with the gateway function may be information that uniquely identifies one charging device with the gateway function, such as a device identifier, an account ID, and a device IP address.

Optionally, the data sending request further carries packet length information. Thereby being beneficial to the target electronic equipment to determine whether the storage space of the target electronic equipment is enough according to the packet length information.

S510, receiving a data uploading signal sent by target electronic equipment corresponding to the target equipment information;

specifically, after the target electronic device corresponding to the target device information receives the data transmission request, the data upload signal is transmitted to the communication device of the charging device having the gateway function.

S512, controlling the communication device to send the data packet to be transmitted in the data storage device to the target electronic device corresponding to the target device information according to the data uploading signal, receiving a data transmission completion signal sent by the communication device, and controlling the data storage device to delete the data packet to be transmitted according to the data transmission completion signal.

Specifically, the controller of the charging device with the gateway function controls the communication device to send the data packet to be transmitted in the data storage device to the target electronic device corresponding to the target device information according to the data uploading signal, after the sending is completed, the communication device sends the data sending completion signal to the controller, and the controller controls the data storage device to delete the data packet to be transmitted according to the data sending completion signal.

The method of this embodiment is applied to a charging device with a gateway function, the data package to be transmitted received by a communication device is stored in a data storage device, the data package to be transmitted in the data storage device is sent to a target electronic device corresponding to the target device information through the communication device, the data package to be transmitted received by the communication device is stored in the data storage device for temporary storage, when the charging device with the gateway function is in smooth communication connection with the target electronic device corresponding to the target device information, the charging device with the gateway function sends the data package to be transmitted in the data storage device to the target electronic device corresponding to the target device information through the communication device, so that the charging device with the gateway function has the gateway function to assist the electronic device to transmit data to the target electronic device in time, the method and the device realize timely display and analysis of the use data, realize timely receiving of the control data to adjust the work of the target electronic equipment, and improve user experience.

As shown in fig. 6, in an embodiment, when the same to-be-transmitted data packet needs to be sent to multiple pieces of target device information, a data transmission method based on a charging device with a gateway function is further provided, where the method includes:

s602, receiving a data temporary storage request;

s604, responding to the data temporary storage request, controlling a communication device to receive a data packet to be transmitted sent by the electronic equipment for data to be transmitted, and storing the data packet to be transmitted in a data storage device;

s606, acquiring information of a plurality of target devices;

specifically, the controller of the charging apparatus having the gateway function acquires a plurality of pieces of target apparatus information.

S608, controlling the communication device to send the data sending request to the target electronic equipment corresponding to the target equipment information according to the target equipment information;

specifically, the controller of the charging device with the gateway function sequentially acquires one piece of target device information from a plurality of pieces of target device information as target device information to be processed, and controls the communication apparatus to transmit a data transmission request to a target electronic device corresponding to the target device information according to the target device information to be processed.

S610, receiving the data uploading signal sent by the target electronic equipment corresponding to the target equipment information;

specifically, after the target electronic device corresponding to the target device information receives the data transmission request, the data upload signal is transmitted to the communication device of the charging device having the gateway function.

S612, controlling the communication device to send the data packet to be transmitted in the data storage device to target electronic equipment corresponding to the target equipment information according to the data uploading signal;

specifically, the controller of the charging device with the gateway function controls the communication device to send the to-be-transmitted data packet in the data storage device to the target electronic device corresponding to the target device information according to the data upload signal, and executes step S614 after the sending is completed.

And S614, repeatedly executing the steps S608 to S612 until the data package to be transmitted is sent to the target electronic equipment corresponding to all the target equipment information, receiving the data transmission completion signal sent by the communication device, and controlling the data storage device to delete the data package to be transmitted according to the data transmission completion signal.

Specifically, the plurality of pieces of target device information sequentially execute steps S608 to S612 according to each piece of target device information until the to-be-transmitted data packet is sent to all target electronic devices corresponding to the target device information, after the sending is completed, the communication device sends the data sending completion signal to the controller of the charging device with the gateway function, and the controller of the charging device with the gateway function controls the data storage device to delete the to-be-transmitted data packet according to the data sending completion signal.

The method automatically realizes that the same data packet to be transmitted needs to be sent to the target electronic equipment corresponding to the information of the plurality of target equipment, simplifies the operation of a user, avoids the loss of the data packet to be transmitted, and further improves the user experience.

In one embodiment, the data temporary storage request carries source information;

after the control communication device receives the data packet to be transmitted and stores the data packet to be transmitted in the data storage device, the method further comprises the following steps: and sending a data storage completion signal to the to-be-sent data electronic equipment corresponding to the source information. And the to-be-transmitted data electronic equipment corresponding to the source information receives the data storage completion signal, and deletes the stored to-be-transmitted data packet corresponding to the data storage completion signal according to the data storage completion signal, so that the data loss is avoided, and the storage space can be cleaned out in time by the to-be-transmitted data electronic equipment corresponding to the source information.

In one embodiment, the data packet to be transmitted includes: the gateway program control method includes any one of usage data of the data-to-be-transmitted electronic device, data for program control of the target electronic device, data for program update of the target electronic device, data for controlling operation of the charging apparatus based on the charging device having the gateway function, data for gateway program control based on the charging device having the gateway function, and data for upgrading update based on the gateway program of the charging device having the gateway function. It is understood that each data packet to be transmitted is a complete data packet, so as to facilitate the management of receiving and sending the data packet to be transmitted, which is not specifically limited by the examples herein.

In one embodiment, the data packet to be transmitted includes a description information packet and a content data packet. The description information packet comprises source information, destination information, data type information and packet length information, and the content data packet comprises: the gateway program control method includes any one of usage data of the data-to-be-transmitted electronic device, data for program control of the target electronic device, data for program update of the target electronic device, data for controlling operation of the charging apparatus based on the charging device having the gateway function, data for gateway program control based on the charging device having the gateway function, and data for upgrading update based on the gateway program of the charging device having the gateway function.

The usage data of the electronic device with data to be sent includes service data and log data, which is not specifically limited by this example.

The data for program control of the target electronic device includes control parameters, which are not specifically limited by way of example herein

The data for updating the target electronic device program includes target electronic device information and a target electronic device package, which is not specifically limited by the example herein.

The data for controlling the operation of the charging apparatus based on the charging device having the gateway function includes: the information of the electronic device to be charged and the charging parameter are not specifically limited here.

The data for gateway program control based on the charging device having the gateway function includes: the charging device information and the control parameter with the gateway function are not specifically limited here.

Updating data based on a gateway program of a charging device with gateway function: the charging device information with the gateway function and the charging device package with the gateway function are based on, and examples herein are not particularly limited.

It should be noted that, the contents in the above-mentioned embodiments of a charging device with gateway function, a charging system with gateway function and a data transmission method based on the charging device with gateway function belong to a general inventive concept, and a charging device with gateway function, a charging system with gateway function and a data transmission method based on the charging device with gateway function are applicable to each other.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention, and it is therefore to be understood that the invention is not limited by the scope of the appended claims.

Claims (14)

1. A charging device with gateway function for charging an electronic device to be charged, comprising: the charging device, the communication device, the data storage device and the controller are electrically connected with the charging device, the data storage device and the communication device;

the charging device is used for charging the electronic equipment to be charged;

the communication device is used for communicating with the electronic equipment to be sent and the target electronic equipment;

the data storage device is electrically connected with the communication device and is used for storing the data received by the communication device;

the controller is used for controlling the communication device to receive the data sent by the electronic equipment with the data to be sent, storing the data in the data storage device, acquiring target equipment information, and controlling the communication device to send the data stored in the data storage device to the target electronic equipment corresponding to the target equipment information according to the target equipment information.

2. The gateway-enabled charging device according to claim 1, wherein the communication means includes a wireless communication mechanism for wirelessly communicating with the data-to-be-transmitted electronic device and the target electronic device;

the wireless communication mechanism is electrically connected with the data storage device and the controller;

wherein the wireless communication mechanism comprises: at least one of a WiFi communication component, a Bluetooth communication component, a UWB communication component, a mobile phone communication component, a ZigBee communication component, an RFID communication component, a LoRa communication component, an NB-ioT communication component, a sound wave communication component and an optical communication component.

3. The charging apparatus with gateway function according to claim 2, wherein the communication means further includes a wired communication mechanism for wired communication with the data-to-be-transmitted electronic device and the target electronic device;

the wired communication mechanism is electrically connected with the data storage device and the controller;

wherein the wired communication mechanism includes: at least one of an optical fiber communication module, a network cable communication component, a USB Type-C communication component, a USB Type-B communication component, a USB Type-A communication component, a Lightning communication component and a digital serial communication component.

4. The charging device with gateway function of claim 1, wherein the charging means comprises at least one of a wireless charging mechanism for wirelessly charging the electronic device to be charged and a wired charging mechanism for wired charging the electronic device to be charged.

5. The gateway-enabled charging device according to claim 1, further comprising a chargeable electric storage mechanism;

the charging device is electrically connected with the chargeable power storage mechanism and is used for charging the chargeable power storage mechanism;

the rechargeable power storage mechanism is electrically connected with the data storage device, the communication device and the controller and is used for providing electric energy for the data storage device, the communication device and the controller.

6. The gateway-enabled charging apparatus according to any one of claims 1 to 5, further comprising wall hanging means for fixed or detachable connection with a wall 18, a housing provided with a receiving cavity;

the charging device, the communication device, the data storage device and the controller are positioned in the accommodating cavity;

the wall hanging device is detachably connected to the shell.

7. The charging apparatus with gateway function of claim 6, wherein the electronic device to be charged is detachably connected to the housing and detachably connected to the wall hanging device.

8. The gateway-enabled charging device according to claim 6, further comprising a permanent magnet member;

the permanent magnet component is installed on the shell and used for fixing the electronic device to be charged on the shell in an adsorption mode.

9. The charging apparatus with gateway function according to any one of claims 1 to 5, wherein the data storage means employs at least one of a nonvolatile memory, a random access memory.

10. A charging system having a gateway function, comprising: at least one charging device with gateway function, electronic device to be charged, electronic device to send data, target electronic device, terminal, server side according to any one of claims 1 to 9;

the charging equipment with the gateway function is electrically connected with the electronic equipment to be charged and used for charging the electronic equipment to be charged, receiving and storing the data packet to be transmitted sent by the electronic equipment to be transmitted and sending the stored data packet to be transmitted to the target electronic equipment;

the terminal is loaded in the electronic device with the to-be-transmitted data and/or the target electronic device, is in communication connection with the charging device with the gateway function, and is used for receiving the data packet to be transmitted sent by the charging device with the gateway function and sending the data packet to be transmitted to the charging device with the gateway function;

the server side is loaded in the to-be-transmitted data electronic equipment and/or the target electronic equipment, is in communication connection with the charging equipment with the gateway function and the terminal, and is used for receiving the to-be-transmitted data packet sent by the charging equipment with the gateway function, sending the to-be-transmitted data packet to the charging equipment with the gateway function, receiving the to-be-transmitted data packet sent by the terminal, and sending the to-be-transmitted data packet to the terminal.

11. A data transmission method based on a charging device with gateway function, which is applied to at least one charging device with gateway function according to any one of claims 1 to 9 or a charging system with gateway function according to claim 10;

the charging equipment with the gateway function comprises a charging device, a communication device and a data storage device;

the method comprises the following steps:

receiving a data temporary storage request;

responding to the data temporary storage request, controlling a communication device to receive a data packet to be transmitted sent by the electronic equipment for data to be sent, and storing the data packet to be transmitted in a data storage device;

acquiring target equipment information;

controlling the communication device to send a data sending request to the target electronic equipment corresponding to the target equipment information according to the target equipment information;

receiving a data uploading signal sent by target electronic equipment corresponding to the target equipment information;

and controlling the communication device to send the data packet to be transmitted in the data storage device to the target electronic equipment corresponding to the target equipment information according to the data uploading signal, receiving a data transmission completion signal sent by the communication device, and controlling the data storage device to delete the data packet to be transmitted according to the data transmission completion signal.

12. The method according to claim 11, wherein when the same to-be-transmitted data packet needs to be sent to multiple pieces of target device information, in response to the data buffering request, the method controls the communication device to receive the to-be-transmitted data packet sent by the to-be-transmitted data electronic device, and after storing the to-be-transmitted data packet in the data storage device, further comprises:

A. acquiring a plurality of pieces of target equipment information;

B. controlling the communication device to send the data sending request to the target electronic equipment corresponding to the target equipment information according to the target equipment information;

C. receiving the data uploading signal sent by the target electronic equipment corresponding to the target equipment information;

D. controlling the communication device to send the data packet to be transmitted in the data storage device to target electronic equipment corresponding to the target equipment information according to the data uploading signal;

E. and D, repeating the steps B to D until the data package to be transmitted is sent to all target electronic equipment corresponding to the target equipment information, receiving the data transmission completion signal sent by the communication device, and controlling the data storage device to delete the data package to be transmitted according to the data transmission completion signal.

13. The data transmission method based on the charging device with gateway function as claimed in claim 11 or 12, wherein the data temporary storage request carries source information;

after controlling the communication device to receive a data packet to be transmitted sent by the electronic device for data to be sent and storing the data packet to be transmitted in the data storage device, the method further comprises the following steps: and sending a data storage completion signal to the to-be-sent data electronic equipment corresponding to the source information.

14. The data transmission method based on the charging apparatus with gateway function according to claim 11 or 12, wherein the data packet to be transmitted includes: the gateway program control method includes any one of usage data of the data-to-be-transmitted electronic device, data for program control of the target electronic device, data for program update of the target electronic device, data for controlling operation of the charging apparatus based on the charging device having the gateway function, data for gateway program control based on the charging device having the gateway function, and data for upgrading update based on the gateway program of the charging device having the gateway function.

Images