WO2020097926A1 - 医疗设备自动联网系统及其自动连接wlan的方法 - Google Patents
医疗设备自动联网系统及其自动连接wlan的方法 Download PDFInfo
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- WO2020097926A1 WO2020097926A1 PCT/CN2018/115977 CN2018115977W WO2020097926A1 WO 2020097926 A1 WO2020097926 A1 WO 2020097926A1 CN 2018115977 W CN2018115977 W CN 2018115977W WO 2020097926 A1 WO2020097926 A1 WO 2020097926A1
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- wireless power
- gateway
- networking information
- power supply
- medical device
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W4/00—Services specially adapted for wireless communication networks; Facilities therefor
Definitions
- the present application relates to the technical field of medical equipment, in particular to an automatic networking system for medical equipment and a method for automatically connecting to a WLAN.
- WLAN wireless local area network
- imaging devices such as ultrasound and DR use WIFI to transmit images.
- the existing operation method is: first, turn on the WLAN function, search for nearby connectable networks, and find the AP (Access Point, wireless access node); Next, click Connect, if there is a password, enter the correct password of the AP; then, if the password is verified, the connection is established.
- NFC near field communication, near field communication
- a program for connection has been installed between the AP and the medical equipment
- the medical device connects to the AP according to the received information to complete the establishment of the wireless connection.
- This application mainly provides an automatic networking system for medical equipment, in which a new method is adopted to automatically connect the medical equipment to the WLAN.
- a method for automatically connecting a medical device to a wireless local area network wherein the medical device includes a wireless power receiving terminal and a wireless communication interface, the wireless power receiving terminal is configured to receive power from a paired wireless power transmitting terminal ,
- the method includes:
- a wireless power supply communication link is established between the medical device and the wireless power transmitting end to wirelessly power the medical device, and the networked information is transferred via the wireless power supply communication link To the wireless power receiving end of the medical device, so that the medical device automatically connects to the gateway according to the networking information received by the wireless power receiving end through the wireless communication interface.
- a medical device which includes a medical device host, a wireless power receiving terminal, and a wireless communication interface that are signal-connected to each other; the wireless power receiving terminal is used to enter a power supply range of a wireless power transmitting terminal Time, establish a wireless power supply communication link with the wireless power transmitter to wirelessly power the medical device host, and also used to receive gateway networking information from the wireless power transmitter; the medical device host is used to According to the networking information, establish a connection with the gateway through the wireless communication interface.
- a wireless power supply transmitter for supplying electrical energy to a medical device paired with the wireless power transmitter.
- the wireless power transmitter includes a power supply circuit, a first communication interface, and a processor in signal connection with each other;
- the processor is used to enable the wireless power transmitter to access the gateway and obtain the network information of the gateway, and also used to identify whether the medical device entering the power supply range is an authorized device and identify the medical
- a wireless power supply communication link is established between the wireless power supply transmitting end and the wireless power supply receiving end of the medical device;
- the power supply circuit is used to perform communication with the medical device via the wireless power supply communication link Wireless power supply;
- the first communication interface is used to transfer the networking information to the wireless power receiving end of the medical device via the wireless power supply communication link, so that the medical device can pass the wireless communication interface according to The networking information received by the wireless power receiving end is automatically connected to the gateway.
- a medical equipment automatic networking system which includes:
- the wireless power supply transmitter is used to connect to the gateway and obtain the networking information of the gateway after accessing the gateway;
- Medical equipment which has a wireless communication interface and a wireless power receiving terminal, the wireless power receiving terminal is used to receive electrical energy from the paired wireless power transmitting terminal;
- the wireless power transmitter transmits the networking information to the wireless power receiver of the medical device via the wireless power communication link, so that the wireless communication interface of the medical device
- the networking information received by the wireless power receiving end is automatically connected to the gateway.
- the medical equipment can automatically connect to the gateway according to the networking information received from the wireless power supply communication link, compared with the traditional NFC transmission gateway AP
- the networking information received from the wireless power supply communication link
- the medical device there is no need to increase the cost of NFC hardware; and, only when the medical device is an authorized device, it will supply power and transmit network information, that is, only wireless power authorized devices will receive network information, while wireless power authorization
- the control is very strict and not easy to crack, thus ensuring security.
- FIG. 1 is a schematic diagram of the composition of a medical equipment automatic networking system according to an embodiment of the present application
- FIG. 2 is a schematic flowchart of a method for a medical device to automatically connect to a wireless local area network according to an embodiment of the present application
- FIG. 3 is a schematic diagram of the composition of a medical equipment automatic networking system according to another embodiment of the present application.
- FIG. 4 is a schematic flowchart of a method for a medical device to automatically connect to a wireless local area network according to another embodiment of the present application
- FIG. 5 is a schematic flowchart of a method for a medical device to automatically connect to a wireless local area network according to an embodiment of the present application
- FIG. 6 is a schematic flowchart of a method for a medical device to automatically connect to a wireless local area network according to an embodiment of the present application.
- connection and “connection” mentioned in this application, unless otherwise specified, include direct and indirect connection (connection).
- Wireless power supply technology is a non-contact wireless energy transmission method, which includes a transmitter and a receiver. Both transmit energy from the transmitter to the receiver through an energy transmission medium, such as an electromagnetic field, to charge the battery or power the device. In some cases, it is also called wireless power supply.
- wireless charging technology more and more medical devices are equipped with both wireless charging and WLAN functions. However, in these medical devices, wireless charging and WLAN are not directly connected, and the functions are independent of each other. Based on this, and in conjunction with the problems existing in existing medical equipment in automatic WLAN connection, the inventor of the present application proposes an automatic WLAN connection method and related system based on wireless power supply connection.
- a medical device automatic networking system 10 includes a gateway 100, a medical device 200, and a wireless power transmitter 301.
- the gateway 100 has a wireless and / or wired connection function to connect devices connected thereto.
- the gateway 100 may include a processor, a memory, a wireless communication module (such as a WIFI module), a USB interface, and a power module, etc., wherein the processor of the gateway 100 may adopt an embedded operating system Linux, iOS, or Android OS, which can process the protocols and data of different communication modules, run various applications, etc.
- the WIFI module of the gateway 100 which can connect the wireless LAN currently located to another WIFI network, like the USB interface of the gateway 100. It can be used to expand other wireless communication modules, such as 2.4GHz wireless, ZigBee, Z-wave modules, etc.
- the medical device 200 may be, for example, an ultrasound imaging device, a mobile DR (Digital Radiography, digital X-ray photography) device, etc., which includes a wireless power receiving terminal 201, a host 202, a wireless communication interface 203, and a network communication interface (not shown), And has WLAN function and wireless power supply function.
- the wireless charging receiving end 201 mainly includes a wireless power receiving circuit and a wireless power receiving coil, which are used to supply the received electrical energy to the remaining components of the medical device 200.
- the wireless power transmitting terminal 301 has been connected to the gateway 100 by wired or wireless means.
- the wireless power transmitter 301 is connected to the LAN by connecting to the gateway 100 in a wired manner.
- the DHCP module in the local area network assigns an IP address to the wireless power transmitter 301 and obtains its MAC address, and then establishes a network connection to wirelessly
- the power transmitting terminal 301 can learn the password and other information required for the WLAN connection. This can be achieved with reference to existing related network technologies, and this application does not limit it.
- the wireless power transmitter 301 is connected to the local area network by wirelessly connecting to the gateway 100.
- the information terminal 400 shown in FIG. 3 may be used to access the local area network.
- the wireless power transmitter 301 is not connected to the network, it can be automatically turned into a wireless hotspot for connection.
- the information terminal 400 can directly find the wireless power transmitter 301 and connect it as a router. During the connection process, you need to enter the connection password of the wireless power transmitter 301.
- a special management program on the information terminal 400 finds the wireless power transmitter 301 And configure the real router, router connection password and other information (such as user name) to be connected to the wireless power transmitter 301, so that the wireless power transmitter 301 can join the local area network through the real router.
- the preparation of each special management program can refer to the prior art, as long as it can achieve the functions described above, this application does not limit this.
- the wireless power transmitter 301 can learn the password of the gateway 100 and other information.
- the wireless power transmitter 301 is paired with the wireless power receiver 201.
- the wireless power transmitting terminal 301 is connected to the wireless power receiving terminal 201 through wireless power supply proprietary communication.
- the wireless power supply proprietary communication connection uses a wireless power supply communication link, which can realize information in addition to power transmission.
- the transmission allows the wireless power transmitter 301 and the wireless power receiver 201 to establish a wireless pairing connection.
- the wireless power supply receiving terminal 201 broadcasts the power supply demand to the surrounding wireless power supply transmitting terminal 301, and the wireless power supply transmitting terminal 301 can receive the power supply demand in order to make a response and complete the pairing.
- the wireless power transmitter and the wireless power receiver are also equipped with wireless communication units for high-speed transmission of large amounts of data; in some embodiments of the present application, the transmission of networking information is through a wireless power communication link Implementation, that is, the special communication path of wireless power supply, without taking the wireless communication unit to achieve.
- the wireless power transmitting terminal 301 mainly includes a wireless power transmitting circuit and a wireless power transmitting coil, so as to transmit the electric energy to the wireless power receiving terminal 201 according to requirements.
- the medical device automatic networking system 10 has multiple wireless power transmitting terminals, each of which corresponds to the wireless power receiving terminals of different medical devices and is paired for use, such as the wireless power receiving of the medical device 200 Before the terminal 201 and the wireless power transmitting terminal 301 realize the wireless power supply, you can confirm whether it is an authorized device through the wireless power supply proprietary communication connection, if it is, provide power to realize the wireless power supply, if it is not an authorized device 301 pre-stores the medical device 200 corresponding to the wireless power receiving terminal 201 that it will pair with), it does not provide power.
- the wireless power receiving terminal senses and distinguishes the identification signal; or the wireless power receiving terminal sends out the identification signal, and the wireless power transmitting terminal receives and distinguishes the identification signal to determine whether the other party authorizes the device.
- the two are paired with each other.
- the wireless power transmitter is usually fixedly installed on the wall or other objects.
- the wireless power transmitting end 301 and the wireless power receiving end 201 are paired, there is a wireless power supply communication path between the two, which is used to transmit electrical energy on the one hand, and to pass the password and other information required for the WLAN connection on the other hand.
- the wireless power module of the wireless power transmitter 301 will determine whether the medical device 200 is an authorized device.
- the management program running in the host 202 of the medical device 200 (which was previously burned in the medical device to implement the network connection function) connects the gateway AP according to the gateway AP information and establishes a WLAN connection
- the wireless power supply module of the wireless power supply transmitter 301 will not provide wireless power supply and will not send gateway AP information.
- the management program running in the host 202 of the medical device 200 can refer to the prior art, as long as it can implement the functions described above, and this application does not limit this.
- the communication protocol between the wireless power transmitting terminal 301 and the gateway 100 and the communication protocol between the medical device 200 and the gateway 100 may be available communication protocols known in the prior art, which are not limited in this application.
- the wireless power transmitter 301 after the wireless power transmitter 301 is connected to the gateway 100 through a wired / wireless connection, the wireless power transmitter 301 will determine whether the medical device 200 is authorized when the medical device 200 approaches, and if so, it will The gateway AP information is transmitted through the wireless power supply communication path, so that the medical device 200 will automatically establish a connection with the gateway 100 according to the learned gateway AP information; thus, the network connection can be completed without the user's manual operation each time, and at the same time, no additional Increase the cost of NFC hardware.
- an embodiment of the present application provides a method for automatically connecting a medical device to a WLAN. As shown in FIG. 2, the method includes the following steps:
- Step S10 Connect the wireless power transmitter to the gateway, that is, establish a connection between the wireless power transmitter and the gateway.
- the establishment of the specific connection is as described above and will not be repeated here.
- Step S11 The wireless power transmitting terminal obtains the networking information of the gateway from the gateway after connection.
- Step S20 enable the wireless power supply transmitting end to distinguish whether the medical device entering its power supply range is an authorized device. This is an authentication step. As mentioned above, the pairing between the specific wireless power transmitter and the wireless power receiver of the medical device will not be described in detail here.
- Step S30 After the wireless power supply transmitter determines that the medical device is an authorized device, establish a wireless power supply communication link between the medical device and the wireless power supply transmitter to wirelessly power the medical device, and via the wireless power supply communication link, Pass the networking information to the wireless power receiving end of the medical equipment.
- Step S40 The wireless communication interface of the medical device is automatically connected to the gateway according to the networking information received by the wireless power receiving end.
- the medical device can automatically connect to the gateway while achieving wireless power supply, and only authorized medical devices can supply power and connect to the network, ensuring the security of network communication.
- a medical device automatic networking system 10 includes a gateway 100, a medical device 200, a wireless power transmitter 301, and an information terminal 400.
- the functions of the gateway 100, the medical device 200, and the wireless power supply transmitter 301 are the same as those in the embodiment shown in FIG. 1, and are not repeated here.
- the information terminal 400 may be a terminal such as a personal computer, server, or smartphone used by the user.
- the information terminal 400 is connected to the gateway 100.
- the information terminal 400, the wireless power transmitting terminal 301, and the medical device 200 have all run special management programs, and the three can communicate with each other through their respective special management programs.
- the special management program running in the wireless power transmitting terminal 301 can not only realize the function of connecting with the wireless power receiving terminal 201 and the gateway 100 (same as the description of the embodiment shown in FIG. 1), but also realize its connection with the information terminal 400 Communication between.
- the special management program running in the medical device 200 is the same as the embodiment shown in FIG. 1, and can realize the function of connecting with the wireless power transmitting terminal 301 and the gateway 100.
- the special management program running in the information terminal 400 can not only implement the wireless access gateway 100 (described in the embodiment shown in FIG. 1) for wirelessly transmitting the transmitter 301 described in the embodiment shown in FIG. 1, but also In the embodiment, the special management program running in the information terminal 400 can also enable the user to manually or automatically set and modify the password of the gateway 100 and other information. In addition, the special management program running in the information terminal 400 can also encrypt and save the modified information, so that it can only be read after logging in through the management program.
- the wireless power transmitting terminal 301 communicates with the management program of the information terminal 400 through its management program, and obtains information such as the password of the gateway 100. Then, similar to the description of the embodiment shown in FIG. 1, when the medical device 200 is close to the wireless power transmitting terminal 301, the wireless power supply module of the wireless power transmitting terminal 301 determines whether the medical device 200 is an authorized device, and if it is an authorized device, Then start wireless power supply and send the gateway password and other information to the host 202 of the medical device 200.
- the management program running in the host 202 of the medical device 200 connects to the gateway AP according to the AP information of the gateway 100 and establishes a WLAN connection; if it is not authorized Device, the wireless power transmitter 301 does not provide wireless power and does not send gateway AP information.
- the wireless power transmitting terminal 301 communicates with the management program of the information terminal 400 through its management program and obtains the changed password and other information, and the medical device 200
- the WLAN connection with the gateway 100 will be disconnected due to the wrong password; therefore, when wireless power supply is implemented again, the management program of the wireless power transmitter 301 will re-send the new password and other information to the host 202 of the medical device 200 for medical
- the device 200 and the gateway 100 re-establish a connection.
- the WLAN connection between the medical device 200 and the gateway 100 will be disconnected because of the wrong password.
- the The management program will re-acquire information such as a new password from the information terminal 400 and send it to the host 202 of the medical device 200 to re-establish the connection.
- the medical device automatic networking system of the embodiment shown in FIG. 3 requires no additional NFC hardware cost compared with the traditional method of transmitting gateway AP information using NFC, and users can complete network information update during normal use without special operations.
- the volume and weight are usually relatively large. If the traditional NFC method is used, it is difficult to align and inconvenient to operate.
- special operations are required To update the information; and the medical equipment automatic networking system of this application automatically updates the information when the wireless power supply function is used normally.
- an embodiment of the present application provides a method for automatically connecting a medical device to a WLAN. As shown in FIG. 4, the method includes the following steps:
- Step S100 enable the information terminal to access the network and establish a connection with the gateway;
- Step S101 the information terminal obtains the networking information of the gateway
- Step S110 enable the wireless power transmitting terminal to communicate with the information terminal, and the way of establishing communication between the two is as described above and will not be repeated here;
- Step S111 The wireless power transmitting terminal obtains networking information from the information terminal;
- Step S120, step S130, and step S140 similar to the aforementioned step S20, step S30, and step S40, and will not be described in detail.
- the wireless power transmitter 301 can also obtain the networking information directly from the gateway 100, for example, send an access request to the gateway 100 to obtain the networking information, and the gateway 100 responds to the access request and sends the networking information to the wireless power supply.
- the transmitter 301 can also obtain the networking information directly from the gateway 100, for example, send an access request to the gateway 100 to obtain the networking information, and the gateway 100 responds to the access request and sends the networking information to the wireless power supply.
- the wireless power transmitting terminal 301 can obtain the changed networking information through the information terminal 400.
- the method for the medical device to automatically connect to the WLAN further includes:
- Step S201 enable the wireless power transmitter 301 to actively send a handshake signal to the gateway 100 every preset time;
- Step S202 if the handshake signal fails to be sent, after the handshake signal fails to be sent, the wireless power transmitter 301 is sent to the information terminal 400 to send a network information request message;
- Step S203 enable the wireless power transmitting terminal 301 to receive updated networking information from the information terminal 400;
- Step S204 The wireless power transmitting terminal 301 sends the updated networking information to the wireless power receiving terminal 201 paired within its power supply range, so that the corresponding medical device 200 re-establishes a connection with the gateway 100 according to the updated networking information.
- the wireless power transmitter 301 sends updated networking information while supplying power; in another implementation, the wireless power transmitter 301 can receive the power even if it does not provide power to the medical device 200 at this time. After the updated networking information, it actively sends the updated networking information to the wireless power receiving terminal 201 paired within its power supply range.
- the wireless power transmitter can be used to actively send a handshake signal to the gateway every preset time and receive a response from the gateway. After that, it sends a networking information request message to the information terminal, receives the updated networking information from the information terminal, and sends the updated networking information to the wireless power supply receiving end paired within the power supply range.
- the wireless power receiving end of the medical device can be used to receive updated networking information from the wireless power transmitting end; the wireless communication interface of the medical device is also used to re-establish a connection with the gateway according to the updated networking information.
- the method for the medical device to automatically connect to the WLAN is to use another method to cope with the change of the network information, that is, when the medical device finds that it is not connected to the Internet, it actively sends the network connection to the wireless power transmitter that is paired
- the information request message requests the updated networking information.
- the method for the medical device to automatically connect to the WLAN further includes:
- Step S301 enable the wireless power transmitting terminal to receive the first networking information request message sent by the wireless power receiving terminal paired with it within its power supply range;
- Step S302 The wireless power supply transmitting terminal sends a second networking information request message to the information terminal according to the first networking information request message;
- Step S303 Enable the wireless power transmitter to receive the networking information provided by the information terminal in response to the second networking information request message
- Step S304 The wireless power supply transmitting end sends the networking information to the wireless power supply receiving end, so that the corresponding medical device re-establishes a connection with the gateway according to the networking information.
- the wireless power transmitting end is used to receive the first networking information request message sent by the paired wireless power receiving ends within the power supply range, according to the first
- the networking information request message sends a second networking information request message to the information terminal, receives the networking information provided by the information terminal in response to the second networking information request message, and sends the networking information to the paired wireless power supply receiving ends within the power supply range.
- the wireless power receiving terminal of the medical device is used to send a first networking information request message to the paired wireless power transmitting terminal to request the networking information for establishing a connection with the gateway, and to receive the networking information from the wireless power transmitting terminal, the wireless communication of the medical device
- the interface is also used to re-establish a connection with the gateway based on networking information.
- the wireless power transmitting terminal provided according to the above embodiments may be provided with several communication interfaces, and these communication interfaces may be integrated into one or separate multiple interfaces to respectively realize information with the wireless power receiving terminal, the information terminal and the gateway connection.
- the networking information may include only the gateway password, or in addition to the gateway password, the networking information may also have information about medical devices that allow access to the local area network, and / or may also have access permission Information about the local area network. In this way, through the configuration of networked information content, related devices can be managed more conveniently.
- the medical equipment automatic networking system provided by the embodiments of the present application has the following characteristics:
- any tangible, non-transitory computer-readable storage medium can be used, including magnetic storage devices (hard disks, floppy disks, etc.), optical storage devices (CD-ROM, DVD, Blu Ray disks, etc.), flash memory, and / or the like .
- These computer program instructions can be loaded onto a general-purpose computer, a dedicated computer, or other programmable data processing equipment to form a machine, so that these instructions executed on a computer or other programmable data processing device can generate a device that implements a specified function.
- Computer program instructions can also be stored in a computer-readable memory, which can instruct the computer or other programmable data processing device to operate in a specific manner, so that the instructions stored in the computer-readable memory can form a piece Manufactured products, including implementation devices that implement specified functions.
- Computer program instructions can also be loaded onto a computer or other programmable data processing device, so that a series of operating steps are performed on the computer or other programmable device to produce a computer-implemented process that allows the computer or other programmable device to execute Instructions can provide steps for implementing specified functions.
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Description
Claims (22)
- 一种医疗设备自动连接无线局域网的方法,其特征在于,所述医疗设备包括无线供电接收端和无线通信接口,所述无线供电接收端用于从与之配对的无线供电发射端接收电能,所述方法包括:使无线供电发射端接入网关并获取所述网关的联网信息;使无线供电发射端辨别进入其供电范围内的医疗设备是否为授权设备;使无线供电发射端在确定所述医疗设备为授权设备后,在所述医疗设备与所述无线供电发射端之间建立无线供电通信链路以对所述医疗设备进行无线供电,并经由所述无线供电通信链路将所述联网信息传递至所述医疗设备的无线供电接收端,以令所述医疗设备通过所述无线通信接口并根据无线供电接收端接收到的联网信息自动连接网关。
- 如权利要求1所述的方法,其特征在于,所述无线供电发射端获取所述网关的联网信息包括:使无线供电发射端与一信息终端通信,以从所述信息终端获取所述联网信息,其中,所述信息终端配置为接入所述网关并提供有设置所述联网信息的功能。
- 如权利要求1所述的方法,其特征在于,所述无线供电发射端获取所述网关的联网信息包括:向所述网关发送获取所述联网信息的访问请求;接收所述网关发送的所述联网信息。
- 如权利要求2所述的方法,其特征在于,所述方法还包括:使无线供电发射端每隔预设时间主动向网关发送握手信号;在发送握手信号失败后,使所述无线供电发射端向所述信息终端发送联网信息请求消息;使无线供电发射端接收来自所述信息终端的更新的联网信息;使无线供电发射端向在供电范围内且与其配对的无线供电接收端发送更新的联网信息,以令相应的医疗设备根据更新的联网信息重新与网关建立连接。
- 如权利要求2所述的方法,其特征在于,在医疗设备与网关断开连接时,所述方法还包括:使无线供电发射端接收在供电范围内与之配对的无线供电接收端发送来的第一联网信息请求消息;使无线供电发射端根据第一联网信息请求消息向所述信息终端发送第二联网信息请求消息;使无线供电发射端接收来自所述信息终端响应所述第二联网信息请求消息而提供的联网信息;使无线供电发射端向在所述无线供电接收端发送联网信息,以令相应的医疗设备根据联网信息重新与网关建立连接。
- 如权利要求1至5任一项所述的方法,其特征在于,所述联网信息包括网关密码;或者所述联网信息包括网关密码和如下内容中的至少一项:允许接入局域网络的医疗设备的相关信息,允许访问的局域网络的相关信息。
- 一种医疗设备,其特征在于,包括:相互信号连接的医疗设备主机、无线供电接收端、无线通信接口;所述无线供电接收端用于在进入一无线供电发射端的供电范围时,与无线供电发射端建立无线供电通信链路,以对所述医疗设备进行无线供电,还用于从所述无线供电发射端接收网关的联网信息;所述医疗设备主机用于根据所述联网信息,通过所述无线通信接口与所述网关建立连接。
- 如权利要求7所述的医疗设备,其特征在于,所述医疗设备主机还用于在与所述网关断开连接时,通过所述无线供电接收端向无线供电发射端发送第一联网信息请求消息,以获取更新的联网信息;所述无线供电接收端还用于从所述无线供电发射端接收因响应所述第一联网信息请求消息而提供的更新的联网信息。
- 一种无线供电发射端,用于为与之配对的医疗设备提供电能,其特征在于,所述无线供电发射端包括相互信号连接的供电电路、第一通讯接口、处理器;其中,所述处理器用于使所述无线供电发射端接入网关,并获取所述网关的联网信息,还用于辨别进入供电范围内的医疗设备是否为授权设备,并在辨别出所述医疗设备为授权设备后,使所述无线供电发射端与医疗设备的无线供电接收端之间建立无线供电通信链路;所述供电电路用于经由所述无线供电通信链路向所述医疗设备进行无线供电;所述第一通讯接口用于经由所述无线供电通信链路,将所述联网信息传递至所述医疗设备的无线供电接收端,以令所述医疗设备通过所述无线通信接口根据无线供电接收端接收到的联网信息自动连接网关。
- 如权利要求9所述的无线供电发射端,其特征在于,所述无线供电发射端还包括第二通讯接口,所述无线供电发射端通过所述第二通讯接口与信息终端通信,以从所述信息终端获取所述联网信息,其中,所述信息终端配置为接入所述网关并提供有设置所述联网信息的功能。
- 如权利要求9所述的无线供电发射端,其特征在于,所述无线供电发射端还通过所述第一通讯接口向所述网关发送获取所述联网信息的访问请求,并接收所述网关发送的所述联网信息。
- 如权利要求10所述的无线供电发射端,其特征在于,所述无线供电发射端还包括第三通讯接口,用于受所述处理器控制而每隔预设时间主动向网关发送握手信号;所述第三通讯接口还用于在发送握手信号失败后,向所述信息终端发送联网信息请求消息,并接收来自所述信息终端的更新的联网信息;所述处理器用于通过所述第一通讯接口,向所述无线供电接收端发送更新的联网信息,以令相应的医疗设备根据更新的联网信息重新与网关建立连接。
- 如权利要求10所述的无线供电发射端,其特征在于,所述第一通讯接口用于接收来自所述无线供电接收端的第一联网信息请求消息;所述第二通讯接口用于向所述信息终端发送第二联网信息请求消息,并接收来自所述信息终端响应所述第二联网信息请求消息而提供的更新的联网信息;所述第一通讯接口用于将所述更新的联网信息发送给所述医疗设备,以令所述医疗设备根据更新的联网信息重新与网关建立连接。
- 如权利要求9至13任一项所述的无线供电发射端,其特征在于,所述联网信息包括网关密码;或者所述联网信息包括网关密码和如下内容中的至少一项:允许接入局域网络的医疗设备的相关信息,允许访问的局域网络的相关信息。
- 一种可读存储介质,其特征在于,所述可读存储介质上存储有计算机程序,所述计算机程序被执行时实现如权利要求1至5任一项所述的方法的步骤。
- 一种医疗设备自动联网系统,其特征在于,包括:网关;无线供电发射端,其用于连接所述网关,并在接入网关后获取所述网关的联网信息;医疗设备,其具有无线通信接口和无线供电接收端,该无线供电接收端用于从与其配对的无线供电发射端接收电能;其中,当所述医疗设备与所述无线供电发射端建立无线供电通信链路时,所述无线供电发射端将所述联网信息经由所述无线供电通信链路传递至所述医疗设备的无线供电接收端,以令所述医疗设备的所述无线通信接口根据无线供电接收端接收到的联网信息自动连接网关。
- 如权利要求16所述的系统,其特征在于,还包括:信息终端,用于与网关通信,设置所述网关的联网信息;所述信息终端还用于与无线供电发射端通信,将所述联网信息发送给所述无线供电发射端。
- 如权利要求17所述的系统,其特征在于,所述无线供电发射端用于每隔预设时间主动向网关发送握手信号,并接收所述网关的响应,并在发送握手信号失败后,向所述信息终端发送联网信息请求消息,还用于接收来自所述信息终端的更新的联网信息,并向所述无线供电接收端发送更新的联网信息。
- 如权利要求18所述的系统,其特征在于,所述医疗设备的无线供电接收端还用于接收来自所述无线供电发射端的更新的联网信息;所述无线通信接口还用于根据更新的联网信息重新与网关建立连接。
- 如权利要求17所述的系统,其特征在于,所述无线供电发射端用于接收所述无线供电接收端发送来的第一联网信息请求消息,根据第一联网信息请求消息向所述信息终端发送第二联网信息请求消息,还用于接收来自所述信息终端的因响应所述第二联网信息请求消息而提供的联网信息,并向所述无线供电接收端发送所述联网信息。
- 如权利要求20所述的系统,其特征在于,所述医疗设备的无线供电接收端用于向配对的无线供电发射端发送第一联网信息请求消息以请求用于与网关建立连接的联网信息,还用于接收来自所述无线供电发射端的联网信息;所述无线通信接口还用于根据联网信息重新与网关建立连接。
- 如权利要求16至21任一项所述的系统,其特征在于,所述联网信息包括网关密码;或者所述联网信息包括网关密码和如下内容中的至少一项:允许接入局域网络的医疗设备的相关信息,允许访问的局域网络的相关信息。
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