CN107357597B - Method for configuring batch equipment - Google Patents
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- CN107357597B CN107357597B CN201610303084.5A CN201610303084A CN107357597B CN 107357597 B CN107357597 B CN 107357597B CN 201610303084 A CN201610303084 A CN 201610303084A CN 107357597 B CN107357597 B CN 107357597B
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F9/00—Arrangements for program control, e.g. control units
- G06F9/06—Arrangements for program control, e.g. control units using stored programs, i.e. using an internal store of processing equipment to receive or retain programs
- G06F9/44—Arrangements for executing specific programs
- G06F9/445—Program loading or initiating
- G06F9/44505—Configuring for program initiating, e.g. using registry, configuration files
Abstract
The invention discloses a configuration method of batch equipment, which comprises the following steps: s1, grouping a plurality of devices into batch devices; s2, the remote server sends the identity information of each piece of equipment in the batch of equipment to the front end; s3, enabling the batch equipment to be in a monitoring state; and S4, the front end broadcasts and sends wireless network information to the batch equipment through the identity information of the batch equipment, so that the batch equipment is connected to the Internet. The method according to the invention simplifies the configuration process of the batch plant.
Description
Technical Field
The invention relates to the technical field of equipment configuration methods, in particular to a batch equipment configuration method, which comprises the networking and the post-networking configuration of batch equipment.
Background
For the leased customers of the batch of devices, configuring each device, such as networking and configuring after networking, may be a tedious task, and the customers need to perform operations for each device individually, such as inputting a wireless network name and a network password or performing configuration operations on each device. It is desirable to simplify this repetitive operational flow.
In recent years, the demand for indoor air cleaning equipment has been gradually increased due to severe air pollution. What is needed is a plurality of air purification apparatuses in a batch, for example, provided in respective rooms, for public places such as malls, office buildings, schools, and hospitals. There may be batches of air purification apparatuses rented in a rental form due to their high procurement cost. In public places such as office buildings, schools, hospitals, and the like, it is difficult and troublesome to configure, manage, and maintain each air purification apparatus.
Disclosure of Invention
The invention aims to provide a configuration method of batch equipment to simplify the configuration process of a user for the equipment, such as equipment networking and daily operation.
To achieve at least one of the above objects, there is provided a method of configuring a batch device, the method comprising:
s1, grouping a plurality of devices into batch devices;
s2, the remote server sends the identity information of each piece of equipment in the batch of equipment to the front end;
s3, enabling the batch equipment to be in a monitoring state; and
and S4, the front end broadcasts and sends wireless network information to the batch equipment through the identity information of the batch equipment, so that the batch equipment is connected to the Internet.
Optionally, in the configuration method, each device in the batch of devices has a network card module, and the identity information is a physically unique address of the network card module.
Optionally, in the configuration method, the front end is a mobile phone, a computer, a tablet computer, or an intelligent wearable device.
Optionally, in the above configuration method, the step S3 further includes turning on a listening switch of the batch device.
Optionally, in the configuration method, the wireless network information in step S4 includes a network name and a password.
Optionally, in the above configuration method, the batch apparatus is a plurality of air cleaning apparatuses.
Optionally, in the above configuration method, the configuration method further includes: and S5, the remote server interacts with the batch equipment through the Internet.
Optionally, in the above configuration method, the step S5 includes obtaining, by the remote server, information of each device in the batch of devices through the internet.
Optionally, in the configuration method, the information of each device in the batch of devices acquired by the remote server includes environment information and device state information.
Optionally, in the above configuration method, the step S5 further includes: configuring, by the remote server, individual ones of the batches of devices over the internet.
According to another aspect, there is also provided a method of configuring a batch of equipment, the method comprising:
s11, grouping a plurality of air purification devices into batch devices;
s12, the remote server sends the identity information of each air purification device in the batch of equipment to the front end, wherein the identity information is a physical unique address of each air purification device;
s13, opening the monitoring switches of the air purification devices to enable the batch devices to be in a monitoring state;
s14, using the front end to broadcast wireless network information to the batch equipment through identity information of the batch equipment so that the batch equipment is connected to the Internet, wherein the wireless network information comprises a wireless network name and a password; and
and S15, the remote server interacts with the batch equipment through the Internet.
The method has the advantages of simplifying the configuration flow of the batch equipment, improving the working efficiency of the batch equipment and optimizing the use state of each equipment in the batch equipment.
Drawings
The principles of the present invention will become more apparent from the following detailed description when taken in conjunction with the accompanying drawings, wherein:
FIG. 1 shows a communication diagram of a batch device configuration method according to the present invention.
The specific implementation mode is as follows:
it should be understood that the present invention describes the method of configuring a batch plant by way of example of an air purification plant, but the batch plant may be any other plant suitable for being configured using the method according to the present invention. The batch plant configuration method of the present invention can be used in a variety of locations including, but not limited to: hospitals, schools, shopping malls, hotels, etc.
Referring to FIG. 1, a communication diagram of a batch device configuration method according to the present invention is shown. There is shown a batching device 1, a front end 2 and a remote server 3. Where the batch plant 1 comprises a plurality of plants 11,12,13,14,15,16, e.g. a plurality of air cleaning plants, the batch plant 1 may be configured by a service provider by renting or selling and entrusting management, etc.
In one embodiment, a method of configuring a batch plant according to the present invention comprises:
s1, grouping a plurality of devices into batch devices 1;
s2, the remote server 3 sends the identity information of each piece of the batch equipment 1 to the front end 2, and the front end 2 is preferably positioned at the near position of the batch equipment 1;
s3, enabling the batch equipment 1 to be in a monitoring state; and
s4, the front end 2 broadcasts and sends wireless network information to the batching equipment 1 through the identity information of the batching equipment 1, so that the batching equipment 1 is connected to the Internet.
In one embodiment, a plurality of air cleaning devices may each be integrated with a network card module having a physically unique address (MAC address) as identification information, and the manufacturer or service provider records the physically unique address of each of the batch devices 1 rented or entrusted to the unified management and stores in the remote server 3 in the form of a group. The remote server 3 sends the identity information of each of the batches 1 to the head-end 2 as indicated by arrow 51. The front end 2 sends a broadcast message, which may include network information, via the identity information, as indicated by arrow 42, and the batching device receives the broadcast message and learns the network information, which includes the network name (SSID) and password, thereby enabling batch networking of the batching device. Optionally, the transmitted broadcast message may be encrypted.
In one embodiment, the front end 2 may be a cell phone, a computer, a tablet, or a smart wearable device, preferably the front end 2 is in proximity to the batch device, e.g. in the same room. In the case where the front end 2 is a cell phone or other mobile device, it may be loaded with an app application provided by a service provider. The communication between the front end 2 and the batch device 1 may be in a conventional wireless communication mode, such as bluetooth, wifi hotspot connection, etc.
In one embodiment, the air purification apparatus may have a sniffer switch that allows the air purification apparatus to be switched between an offline mode, in which the air purification apparatus is individually configurable, for example using a control panel, automatically configured or adjusted using the head-end 2 or using the air purification apparatus itself, and a batch configuration mode, in which the air purification apparatus may be in a sniffer state, which may accept broadcast messages from the head-end 2.
In one embodiment, the configuration method further comprises: and S5, the remote server 3 interacts with the batching equipment 1 through the Internet. The step S5 includes: obtaining, by the remote server, information for each of the batch devices over the internet, as indicated by arrow 62; and configuring, by the remote server, each of the batch devices over the internet, as indicated by arrow 61. The interaction may be through the network unique address of the batch device.
The information of each device in the batch of devices acquired by the remote server includes environmental information and device status information. In one embodiment, the batch device 1 may be provided with sensors. In the case where the batch plant 1 is a plurality of air cleaning plants, the sensors may be air quality sensors, temperature sensors, humidity sensors, or even sound sensors, etc., and in step S5, the information fed back from the batch plant 1 includes environmental information, such as the value of the environmental PM2.5, etc., and the plant status information may include the state of the plant, such as the operating power, the filter usage time, etc. The remote server may configure the batch device based on this information. For example, when the air purification apparatus is installed in a noisy environment such as a shopping mall, when the sound sensor receives that the volume of the surrounding environment is lower than a threshold value, which means that the surrounding personnel have less activity, the power of the air purification apparatus can be turned off or reduced.
In one embodiment, the remote server 3 may also feed back the received information to the front end 2, for example, the use status of each air purification device, so as to display in the app of the front end or push the information to the front end 2 by way of short message, email, or the like. In addition, the remote server 3 can also transmit the filter element (net) using state of the air purifying device to the front end 2 so as to remind the filter element to be replaced and the like.
The interaction between the batching device 1 and the remote server 3 further comprises: individual ones of the batches are configured by the remote server over the internet as indicated by arrow 61.
In one embodiment, the remote server configures each of the batches to operate in the same mode, e.g., when the batches are located in the same location, such as a hotel lobby, the individual air purification apparatuses can be configured in unison, which greatly reduces the cumbersome process of configuring the air purification apparatuses one by one.
In one embodiment, the remote server may time configure the batch device, for example, in the case of a batch device being used in a mall, may run at low power at 8 to 10 am with low traffic, run at high power with high traffic, and shut down the air purification device during periods of outages.
In one embodiment, the remote server may configure a portion of the batches individually, for example, the batches may be subdivided, such as grouping the air purification apparatuses 11,12 into subgroups 110, grouping the air purification apparatuses 13,14 into subgroups 120, and then configuring each of the subdivided subgroups 110,120 separately. For example, in an embodiment for a hospital, the night shift site devices may be grouped into a first group 110, the day shift site devices may be grouped into a second group 120, and configured differently.
In one embodiment, configuring the batch devices with the remote server includes configuring each of the air purification devices in the batch devices to be on, off, air volume, dashboard brightness and lock-in, run power or run profile, etc. at various time periods. For example, the brightness of the air purification apparatus and the like include: a day mode, a night mode, a conference mode, etc., each of which corresponds to various settings including a fan rotation speed and air cleaning apparatus noise, or display panel brightness, etc.
In one embodiment, the communication between the batch device 1 and the front-end 2 may be a short-range wireless communication, while the communication between the front-end 2 and the remote server 3 may be via a network, such as a mobile network, the internet, etc., and the communication between the batch device 1 and the remote server 3 may also be via a network.
In one embodiment, the method of the present invention comprises:
s11, grouping a plurality of air purification devices into batch devices;
s12, the remote server sends the identity information of each air purification device in the batch of equipment to the front end, wherein the identity information is a physical unique address of each air purification device;
s13, opening the monitoring switches of the air purification devices to enable the batch devices to be in a monitoring state;
s14, using the front end to broadcast wireless network information to the batch equipment through identity information of the batch equipment so that the batch equipment is connected to the Internet, wherein the wireless network information comprises a wireless network name and a password; and
and S15, the remote server interacts with the batch equipment through the Internet.
The above-described embodiments are merely illustrative for the purpose of more clearly describing the principles of the present invention, and various components are embodied so as to make the principles of the present invention easier to understand. Various modifications to the invention will be readily apparent to those skilled in the art without departing from the scope of the invention. It should therefore be understood that the scope of the present invention should not be limited by the above specific embodiments.
Claims (10)
1. A method of configuring a batch device, the method comprising:
s1, grouping a plurality of devices into batch devices;
s2, the remote server sends the identity information of each piece of equipment in the batch equipment to a front end, wherein each piece of equipment in the batch equipment is provided with a network card module, and the identity information is a physical unique address of the network card module;
s3, enabling the batch equipment to be in a monitoring state; and
and S4, the front end broadcasts and sends wireless network information to the batch equipment through the identity information of the batch equipment, so that the batch equipment is connected to the Internet.
2. The configuration method according to claim 1, wherein the front end is a mobile phone, a computer, a tablet computer or a smart wearable device.
3. The method of claim 1, wherein the step S3 further includes opening a sniffer switch of the batch device.
4. The method according to claim 1, wherein the wireless network information in step S4 includes a network name and a password.
5. The deployment method of claim 1 wherein the batch device is a plurality of air purification devices.
6. The configuration method according to claim 1, further comprising: and S5, the remote server interacts with the batch equipment through the Internet.
7. The method according to claim 6, wherein the step S5 includes obtaining information of each device in the batch of devices by the remote server through the Internet.
8. The configuration method of claim 7, wherein the information about each device in the batch of devices obtained by the remote server includes environment information and device status information.
9. The configuration method according to claim 6, wherein the step S5 further comprises: configuring, by the remote server, individual ones of the batches of devices over the internet.
10. A method of configuring a batch device, the method comprising:
s11, grouping a plurality of air purification devices into batch devices;
s12, the remote server sends the identity information of each air purification device in the batch of equipment to the front end, wherein the identity information is a physical unique address of each air purification device;
s13, opening the monitoring switches of the air purification devices to enable the batch devices to be in a monitoring state;
s14, using the front end to broadcast wireless network information to the batch equipment through identity information of the batch equipment so that the batch equipment is connected to the Internet, wherein the wireless network information comprises a wireless network name and a password; and
and S15, the remote server interacts with the batch equipment through the Internet.
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