阅读说明：本技术 一种扫码使用的便携式共享制氧机平台及其使用方法 (Portable shared oxygenerator platform used for code scanning and use method thereof ) 是由 张鲁伊 王新文 吴利民 张强 于 2018-07-05 设计创作，主要内容包括：本发明涉及制氧机技术领域,尤其是一种扫码使用的便携式共享制氧机平台及其使用方法,包括后台服务器、应用软件APP和便携式制氧机,所述后台服务器用于数据存储与数据处理,所述应用软件APP用于接收便携式制氧机的相关信息,且同时用于控制便携式制氧机的使用过程,所述便携式制氧机与后台服务器无线通讯连接,本发明能够方便用户对制氧机的使用,提高了使用效果,避免了用户使用过程中的不必要麻烦。(The invention relates to the technical field of oxygen generators, in particular to a portable shared oxygen generator platform used by code scanning and a using method thereof.)

1. The utility model provides a sweep portable sharing oxygenerator platform that sign indicating number used which characterized in that: including backend server, application software APP and portable oxygenerator, backend server is used for data storage and data processing, application software APP is used for receiving portable oxygenerator's relevant information, and is used for controlling portable oxygenerator's use simultaneously, portable oxygenerator and backend server wireless communication are connected, backend server contains data center and processing center, data center is used for storing user registration login information, portable oxygenerator equipment identification information, portable oxygenerator geographical position information, portable oxygenerator equipment state information, long information of user duration and user geographical position information, processing center is used for receiving the request that the user initiatively opened portable oxygenerator, uses long setting and oxygenerator velocity of flow setting, sends the instruction that start instruction, length of use instruction and velocity of flow set to oxygenerator wireless communication module, instruction, the, Receiving user reports portable oxygenerator information of repairment through application software APP initiative and stores data center, sends portable oxygenerator geographical position information to application software APP, be provided with the two-dimensional code label on the portable oxygenerator, application software APP passes through the relevant information of the corresponding portable oxygenerator of two-dimensional code label discernment and carries out portable oxygenerator control.

2. The portable shared oxygen generator platform for code scanning use of claim 1, wherein: the application software APP comprises a display module, a code scanning starting module, a using time length setting module, a flow rate setting module, an active warranty module, a shutdown module and a payment module.

3. The portable shared oxygen generator platform for code scanning use of claim 2, wherein: the display module is used for displaying the geographical position of the portable oxygen generator near the user on the map; the code scanning starting module is used for identifying a two-dimensional code of a portable oxygen generator to be used by a user and starting the portable oxygen generator through a background server; the use duration setting module is used for setting the use duration of the portable oxygen generator by a user through application software APP; the flow rate setting module is used for setting the oxygen outlet flow rate of the portable oxygen generator through the APP; the shutdown module is used for shutting down the function of the oxygen generator when the user does not reach the use time but needs to shut down the machine.

4. The portable shared oxygen generator platform for code scanning use of claim 2, wherein: the active warranty module is used for a user to find that the portable oxygen generator is damaged or fails in the using process, actively reporting the warranty on the application software APP and sending the label of the portable oxygen generator to the background server;

and the payment module is used for paying the fee according to the use duration on the APP interface of the application software after the user uses the portable oxygen generator.

5. The portable shared oxygen generator platform for code scanning use of claim 1, wherein: and the two-dimensional code label is provided with an equipment label corresponding to the portable oxygen generator.

6. The portable shared oxygen generator platform for code scanning use of claim 1, wherein: the portable oxygen generator is provided with a wireless communication module and is in wireless communication with the background server through the wireless communication module.

7. The portable shared oxygen generator platform for code scanning use of claim 6, wherein: the portable oxygen generator is provided with a positioning module, and a user positions equipment of the portable oxygen generator.

8. The portable shared oxygen generator platform for code scanning use of claim 1, wherein: and the application software APP performs data interaction with the background server through the data of the user or the wireless flow.

9. A use method of a portable shared oxygenerator platform used by code scanning is characterized in that: the method comprises the following steps:

(1) the user opens the application software APP, after registration and login, the background server receives user registration and login information, and stores the user registration and login information into the data center;

(2) obtaining available portable oxygen generator position information near a user on an APP map interface;

(3) the user directly selects a nearby oxygenerator, and after the two-dimensional code of the oxygenerator is scanned through the APP interface, the user can use the oxygenerator after the start of the oxygenerator is confirmed;

(4) a user can set the use duration, the oxygen outlet flow rate and the startup and shutdown of the oxygen generator through the APP;

(5) according to the operation in the step (4), uploading the user data or the wireless network to a background server, and transmitting an operation instruction to the portable oxygen generator by the background server through wireless communication transmission, so that the oxygen generator completes the operation;

(6) if a user finds that the oxygen generator has a fault in the whole process of using the oxygen generator, the fault type can be selected and uploaded to a background server in an APP active warranty item, and the background server stores fault information into a data center for subsequent processing;

(7) after the user uses the oxygen generator, the user can pay the cost on the APP payment interface according to the use duration to finish one-time oxygen inhalation.

Technical Field

The invention relates to the technical field of oxygen generators, in particular to a portable shared oxygen generator platform used for code scanning.

Background

The living pressure of people is gradually increased at present, and along with the reduction of air quality, people increasingly need to absorb pure oxygen. The existing oxygen generator is not cheap, and lacks of a shared oxygen generator platform, so that people can absorb oxygen at a higher cost.

Although a small amount of shared oxygen generators exist, the oxygen generators are not portable and are generally installed at fixed network points, and people need to go to the fixed network points to inhale oxygen, which is not different from the way that people go to medical care places to inhale oxygen. And the user can use the mobile phone only by reserving the mobile phone, and the mobile phone cannot be used anytime and anywhere. When tourists go to a high altitude area for playing, the phenomenon of oxygen deficiency often occurs, and oxygen inhalation is needed to be timely relieved. The shared oxygen generator cannot enable users to absorb pure oxygen in time. Therefore, a portable oxygen generator that can be shared is needed for the user.

Disclosure of Invention

The invention aims to provide a portable shared oxygenerator platform for code scanning, and aims to solve the problems that in the prior art, an oxygenerator is single in use function, cannot be conveniently shared, and is inconvenient for users to use.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a sweep portable sharing oxygenerator platform that sign indicating number used, includes backend server, application software APP and portable oxygenerator, backend server is used for data storage and data processing, application software APP is used for receiving portable oxygenerator's relevant information, and is used for controlling portable oxygenerator's use simultaneously, portable oxygenerator and backend server wireless communication are connected, backend server contains data center and processing center, data center is used for storing user registration login information, portable oxygenerator equipment identification information, portable oxygenerator geographical position information, portable oxygenerator equipment state information, long information of user duration and user geographical position information, processing center is used for receiving the request that the user initiatively opened portable oxygenerator, length of use setting and oxygenerator velocity of flow setting, a, Send the instruction that start instruction, length of use instruction and velocity of flow set up, receive the portable oxygenerator information that the user reported the repairment through application software APP initiative and deposit data center, send portable oxygenerator geographical position information to application software APP, be provided with the two-dimensional code label on the portable oxygenerator, the relevant information of corresponding portable oxygenerator is discerned through the two-dimensional code label to application software APP and carry out portable oxygenerator control.

Preferably, the application software APP comprises a display module, a code scanning startup module, a use time setting module, a flow rate setting module, an active warranty module, a shutdown module and a payment module.

Preferably, the display module is used for displaying the geographical position of the portable oxygen generator near the user on the map; the code scanning starting module is used for identifying a two-dimensional code of a portable oxygen generator to be used by a user and starting the portable oxygen generator through a background server; the use duration setting module is used for setting the use duration of the portable oxygen generator by a user through application software APP; the flow rate setting module is used for setting the oxygen outlet flow rate of the portable oxygen generator through the APP; the shutdown module is used for shutting down the function of the oxygen generator when the user does not reach the use time but needs to shut down the machine.

Preferably, the active warranty module is used for a user to find that the portable oxygen generator is damaged or fails in the using process, actively reporting the service on the application software APP and sending the label of the portable oxygen generator to the background server;

and the payment module is used for paying the fee according to the use duration on the APP interface of the application software after the user uses the portable oxygen generator.

Preferably, the two-dimensional code label is provided with an equipment label corresponding to the portable oxygen generator.

Preferably, the portable oxygen generator is provided with a wireless communication module, and the portable oxygen generator is in wireless communication with the background server through the wireless communication module.

Preferably, the portable oxygen generator is provided with a positioning module, and a user positions equipment of the portable oxygen generator.

Preferably, the APP performs data interaction with the background server through user data or wireless traffic.

In order to achieve the above purpose, the invention also provides the following technical scheme: a use method of a portable shared oxygenerator platform used by code scanning comprises the following steps:

(1) the user opens the application software APP, after registration and login, the background server receives user registration and login information, and stores the user registration and login information into the data center;

(2) obtaining available portable oxygen generator position information near a user on an APP map interface;

(3) the user directly selects a nearby oxygenerator, and after the two-dimensional code of the oxygenerator is scanned through the APP interface, the user can use the oxygenerator after the start of the oxygenerator is confirmed;

(4) a user can set the use duration, the oxygen outlet flow rate and the startup and shutdown of the oxygen generator through the APP;

(5) according to the operation in the step (4), uploading the user data or the wireless network to a background server, and transmitting an operation instruction to the portable oxygen generator by the background server through wireless communication transmission, so that the oxygen generator completes the operation;

(6) if a user finds that the oxygen generator has a fault in the whole process of using the oxygen generator, the fault type can be selected and uploaded to a background server in an APP active warranty item, and the background server stores fault information into a data center for subsequent processing;

(7) after the user uses the oxygen generator, the user can pay the cost on the APP payment interface according to the use duration to finish one-time oxygen inhalation.

Compared with the prior art, the invention has the beneficial effects that:

1. be equipped with the two-dimensional code on the oxygenerator, set up equipment identification, manage and operate the oxygenerator through backend server, let the user obtain the operation authority to the oxygenerator through APP.

2. On the basis of the existing portable oxygen generator, a shared oxygen generator platform used by code scanning is provided, so that more users can use the oxygen generator anytime and anywhere.

Drawings

FIG. 1 is a schematic diagram of a platform of the present invention.

In the figure: 1. a background server; 2. application software APP; 3. a portable oxygen generator; 4. a data center; 5. a processing center; 6. a display module; 7. a code scanning starting module; 8. setting a use duration module; 9. setting a flow rate module; 10. an active warranty module; 11. a shutdown module; 12. a payment module; 13. labeling the two-dimension code; 14. a wireless communication module; 15. and a positioning module.

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.

Referring to fig. 1, the present invention provides a technical solution: the utility model provides a sweep portable sharing oxygenerator platform that sign indicating number used, includes backend server 1, application APP2 and portable oxygenerator 3, backend server 1 is used for data storage and data processing, application APP2 is used for receiving portable oxygenerator 3's relevant information, and is used for controlling portable oxygenerator 3's use simultaneously, portable oxygenerator 3 is connected with backend server 1 wireless communication, backend server 1 contains data center 4 and processing center 5, data center 4 is used for storing user registration login information, portable oxygenerator 3 equipment identification information, portable oxygenerator 3 geographical position information, portable oxygenerator 3 equipment state information, user duration information and user geographical position information, processing center 5 is used for receiving the request that the user initiatively opened portable oxygenerator 3, sets up and oxygenerator 3 flow rate sets up during use, Send the instruction of start-up instruction, length of use instruction and velocity of flow setting to oxygenerator 3 wireless communication module 14, receive the user and pass through application software APP2 initiative report portable oxygenerator 3 information of repairment and save data center 4, send portable oxygenerator 3 geographical position information to application software APP2, be provided with two-dimensional code label 13 on portable oxygenerator 3, application software APP2 passes through the relevant information of corresponding portable oxygenerator 3 of two-dimensional code label 13 discernment and carries out portable oxygenerator 3 control.

The application software APP2 comprises a display module 6, a code scanning startup module 7, a use duration setting module 8, a flow rate setting module 9, an active warranty module 10, a shutdown module 11 and a payment module 12.

The display module 6 is used for displaying the geographical position of the portable oxygen generator 3 nearby the user on the map, the position information of the portable oxygen generator 3 is realized by the positioning module 15 in the oxygen generator 3, the positioning information is sent to the background server 1 through the oxygen generator 3 wireless communication module 14, the server 1 obtains the position of the user through the APP2, and the portable oxygen generator 3 nearby is sent to the user;

sweep code start module 7 user and carry out the two-dimensional code discernment to the portable oxygenerator 3 that need use to carry out the start operation to current portable oxygenerator 3 through backend server 1, the realization is that the user scans the two-dimensional code on the 3 fuselages of oxygenerator, and user APP2 can send this oxygenerator 3 equipment serial number to backend server 1. After a user clicks an APP2 interface to confirm starting, the background server 1 sends a starting instruction to the oxygen generator 3, and the oxygen generator 3 is started;

the use duration setting module 8 is used for setting the use duration of the portable oxygen generator 3 through application software APP2 by a user, and is realized in a way that APP2 sends the use duration input by the user to the background server 1, the use duration is forwarded to the oxygen generator 3 by the background server 1, and a timer in the oxygen generator 3 determines the use duration;

the flow rate setting module 9 is used for setting the oxygen outlet flow rate of the portable oxygen generator 3 by a user through application software APP2, the implementation mode is that APP2 sends the flow rate grade set by the user to the background server 1, the background server 1 forwards the flow rate grade to the oxygen generator 3, and the oxygen generator 3 realizes the flow rate setting through motor speed regulation;

shutdown module 11 is used for the user not reach the live time but when needing to shut down, closes oxygenerator 3 function, and the implementation is that APP2 clicks after confirming the shutdown at the user, sends the shutdown request to backend server 1, and server 1 retransmits the shutdown instruction to oxygenerator 3 again, and oxygenerator 3 shuts down.

The active warranty module 10 is used for a user to find that the portable oxygen generator 3 is damaged or fails in the using process, actively report the repair on the application software APP2 and send the label of the portable oxygen generator 3 to the background server 1, and the realization mode is that the APP2 sends the failure type selected by the user to the background server 1;

the payment module 12 is used for paying the fee according to the using time length on the interface of the application software APP2 after the user uses the portable oxygen generator 3.

The two-dimensional code label 13 is provided with equipment labels corresponding to the portable oxygenerators 3, and the equipment numbers of each oxygenerator 3 are mutually independent and different.

The portable oxygen generator 3 is provided with a wireless communication module 14, the wireless communication module 14 adopts a standard communication chip on the market, and the portable oxygen generator 3 is in wireless communication with the background server 1 through the wireless communication module 14.

The portable oxygen generator 3 is provided with a positioning module 15, and a user positions equipment of the portable oxygen generator 3 by adopting a standard positioning module 15 on the market.

The application software APP2 performs data interaction with the background server 1 through user own data or wireless traffic.

A use method of a portable shared oxygenerator 3 platform used by code scanning comprises the following steps:

(1) the user opens the application software APP2, after login registration, the background server 1 receives user login registration information, and stores the user login registration information into the data center 4;

(2) obtaining the position information of the portable oxygen generator 3 available near the user at the APP2 map interface;

(3) the user directly selects the nearby oxygenerator 3, after the two-dimensional code of the oxygenerator 3 is scanned through the APP2 interface, the start is confirmed, and the user can use the oxygenerator 3;

(4) a user can set the use duration of the oxygen generator 3, the oxygen outlet flow rate of the oxygen generator 3 and the on-off operation through the APP 2;

(5) according to the operation in the step (4), the operation instruction is uploaded to the background server 1 through user data or a wireless network, the background server 1 transmits the operation instruction to the portable oxygen generator 3 through wireless communication transmission, and the oxygen generator 3 finishes the operation;

(6) if a user finds that the oxygen generator 3 has a fault in the whole process of using the oxygen generator 3, the fault type can be uploaded to the background server 1 through the APP2 initiative maintenance item selection, the background server 1 stores fault information into the data center 4 for subsequent processing, and the fault type is insufficient in power, incapable of starting, incapable of generating oxygen and the like;

(7) after the user finishes using the oxygen generator 3, the user can pay the fee on the APP2 payment interface according to the use duration to finish one-time oxygen inhalation.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.