CN205388753U - Intelligence medical system based on cloud platform - Google Patents

Abstract

The utility model discloses an intelligence medical system based on cloud platform, it includes: an intelligence medical system based on cloud platform, is including the root cloud festival that connects gradually, sub - cloud node and all -in -one terminal, root cloud nodal connection has the sub - cloud node of one or more, sub - cloud nodal connection has one or more all -in -one terminal. The utility model discloses a multistage mode can improve the operating efficiency of management cloud platform, the load of balanced every server, data can effectively prevent loss of data from to have guaranteed data security in the redundant save of a plurality of cloud nodes simultaneously.

Description

A kind of intelligent medical system based on cloud platform

Technical field

This utility model relates to a kind of intelligent medical system based on cloud platform, belongs to network communication field.

Background technology

Healthy all-in-one has feature richness, advantage easy to use.First, equipment meets the demand of user's entry health check-up, and adds the functions such as health education, information browse and management on this basis.The data wherein detected meet professional medical standard.User can reach the standard grade online and lower realize follow-up health control, is suitable under different situation the use of different age group user.Secondly, equipment appearance design can provide occupation mode easily, make us fresh and new.Generally speaking, research and development all-in-one is key one step stepped for novelty health control especially chronic disease management, and user has supplied specialty, simply and easily detection mode, has laid excellent basis for follow-up health control work simultaneously.Consider the targeted customer of all-in-one, resident may be used for understanding easily the health status of self on the one hand, and tentatively carry out personalized health management.On the other hand, Community Service Center can obtain the quantized data of a large number of users group, carries out the foundation of middle analysis and decision as prevention and treatment of chronic diseases work.

But existing all-in-one mostly is isolated operation, in information storage, it is unfavorable for being uniformly carried out data statistics, assessment and feedback.It is susceptible to the situation of loss of data.Simultaneously when breaking down can not direct reaction on platform, it is easy to cause long neglected and in disrepair.

Utility model content

The purpose of this utility model is in that, it is provided that a kind of intelligent medical system based on cloud platform, and it can improve the operational efficiency of management cloud platform, the load of balanced each server, and data can preserve at multiple cloud node redundancies simultaneously, it is ensured that the safety of data.

For solving above-mentioned technical problem, this utility model adopts the following technical scheme that: a kind of intelligent medical system based on cloud platform, including the root cloud node being sequentially connected with, sub-cloud node and integrated machine terminal；Described cloud node is connected to one or more sub-cloud node；Described sub-cloud node is connected to one or more integrated machine terminal.

As the aforementioned based on the intelligent medical system of cloud platform, described cloud node includes: first processor module, the first data transmit-receive module and the first memory module；Described first processor module electrically connects described first data transmit-receive module and the first memory module；Described sub-cloud node includes: the second processor module, the second data transmit-receive module and the second memory module；Described second processor module electrically connects described second data transmit-receive module and the second memory module；Described integrated machine terminal includes: healthy control system, the 3rd data transmit-receive module and data collecting system；Described healthy control system electrically connects described 3rd data transmit-receive module and data collecting system；Described first data transmit-receive module module connects described second data transmit-receive module；Described second data transmit-receive module is also connected with the 3rd data transmit-receive module.Root cloud node, sub-cloud node and integrated machine terminal are equipped with data transmit-receive module, and three can be made to carry out data transmission in many ways.First processor module, the second processor module and the healthy control system being provided with, it is possible to data storage and connection are controlled.

As the aforementioned based on the intelligent medical system of cloud platform, described integrated machine terminal also includes: health education screen；Described health education screen electrically connects with described healthy control system；Described healthy control system includes contact action unit；Described health education screen is located at above contact action unit.Described health education screen can show the image guiding patient to carry out detection operation, improves the adaptability of native system.

As the aforementioned based on the intelligent medical system of cloud platform, described healthy control system includes microprocessor module and memory element；Described microprocessor module electrically connects with described contact action unit, memory element, the 3rd data transmit-receive module and data collecting system.Memory element can make integrated machine terminal that local medical data is also carried out storage.

As the aforementioned based on the intelligent medical system of cloud platform, described integrated machine terminal also includes: identity recognizing unit, and described identity recognizing unit electrically connects described micro treatment module, and described identity recognizing unit is located at below described contact action unit.Arrange identity recognizing unit conveniently user profile checking and detection record thereof to be transferred.

As the aforementioned based on the intelligent medical system of cloud platform, described data collecting system includes: described data collecting system includes: photographic head, survey meter of blood pressure, glucometer, blood oxygen measuring device, height and weight measuring instrument, body temperature rifle, electrocardiogram equipment, squeeze dynamometer, blood fat instrument and spirometer；Described photographic head, survey meter of blood pressure, glucometer, blood oxygen measuring device, height and weight measuring instrument, body temperature rifle, electrocardiogram equipment, squeeze dynamometer, blood fat instrument and spirometer are connected with described microprocessor module；Described photographic head is located at above described contact action unit outer rim；Described glucometer and blood oxygen measuring device are located at below described contact action unit；Either side in described contact action unit outer rim is located at by described body temperature rifle, electrocardiogram equipment, squeeze dynamometer, blood fat instrument and spirometer；Described height and weight measuring instrument and survey meter of blood pressure are respectively arranged on the described contact action unit left and right sides.The multiple detection unit arranged makes the function that all-in-one has comprehensive health detection.

As the aforementioned based on the intelligent medical system of cloud platform, also include printer；Described printer is located at below described survey meter of blood pressure, and described printer electrically connects with described microprocessor module.Arrange printer can Monitoring Data be printed in real time, facilitate user to understand own situation.

As the aforementioned based on the intelligent medical system of cloud platform, also include component storage district；Described component storage district is located at below described contact action unit.Component storage district can be used for placing middle measurement refuse.

As the aforementioned based on the intelligent medical system of cloud platform, described cloud node also includes the first alarm module；Described first alarm module electrically connects with described first processor module.Making integrated machine terminal when breaking down, root cloud node can start warning, and this integrated machine terminal is safeguarded by prompting personnel.

As the aforementioned based on the intelligent medical system of cloud platform, described sub-cloud node also includes the second alarm module；Described second alarm module electrically connects with described second processor module.Making integrated machine terminal when breaking down, sub-cloud node can start warning, and this integrated machine terminal is safeguarded by prompting personnel.

Compared with prior art, this utility model is by utilizing the root cloud joint being sequentially connected with, sub-cloud node and integrated machine terminal；Described cloud node is connected to one or more sub-cloud node；Described sub-cloud node is connected to one or more integrated machine terminal, such that it is able to improved the operational efficiency of management cloud platform, the load of balanced each server by this multistage deployment way；Make data can preserve at multiple cloud node redundancies simultaneously, can effectively prevent loss of data, it is ensured that the safety of data.Additionally, after this utility model can also realize each terminal data acquisition, the remote data gathered is stored in cloud platform, in order to data are carried out to unified analysis and process；And it being also convenient for user in the passing health check-up data of any terminal access, the use making all-in-one is convenient more flexibly.Additionally, in this utility model, make part data can recover when wrecking by redundancy backup, it is also possible to carry out more structurally sound encryption beyond the clouds, it is ensured that data are not by unauthorized access.

Accompanying drawing explanation

Fig. 1 is that structure of the present utility model connects block diagram；

Fig. 2 is the structure block diagram of root cloud node in this utility model；

Fig. 3 is the structure block diagram of this utility model neutron cloud node；

Fig. 4 is the structure block diagram of integrated machine terminal in this utility model；

Fig. 5 is the perspective view of integrated machine terminal in this utility model；

Fig. 6 is the perspective view at another visual angle of integrated machine terminal in this utility model.

nullAccompanying drawing labelling: 1-root cloud node，2-cloud node，3-integrated machine terminal，4-first processor module，5-the first data transmit-receive module，6-the first memory module，7-the second processor module，8-the second data transmit-receive module，9-the second memory module，10-health controls system，11-the 3rd data transmit-receive module，12-data collecting system，13-health education screen，14-contact action unit，15-microprocessor module，16-memory element，17-identity recognizing unit，18-photographic head，19-survey meter of blood pressure，20-glucometer，21-blood oxygen measuring device，22-height and weight measuring instrument，23-body temperature rifle，24-electrocardiogram equipment，25-printer，26-component storage district，27-the first alarm module，28-the second alarm module，29-squeeze dynamometer，30-blood fat instrument，31-spirometer.

Below in conjunction with the drawings and specific embodiments, this utility model is further described.

Detailed description of the invention

Embodiment 1 of the present utility model, as shown in Figure 1: a kind of intelligent medical system based on cloud platform, including the root cloud node 1 being sequentially connected with, sub-cloud node 2 and integrated machine terminal 3；Described cloud node 1 is connected to one or more sub-cloud node 2；Described sub-cloud node 2 is connected to one or more integrated machine terminal 3.

Embodiment 2 of the present utility model, as shown in figures 1 to 6: a kind of intelligent medical system based on cloud platform, including the root cloud node 1 being sequentially connected with, sub-cloud node 2 and integrated machine terminal 3；Described cloud node 1 is connected to one or more sub-cloud node 2；Described sub-cloud node 2 is connected to one or more integrated machine terminal 3.Described cloud node 1 includes: first processor module the 4, first data transmit-receive module 5 and the first memory module 6；Described first processor module 4 electrically connects described first data transmit-receive module 5 and the first memory module 6；Described sub-cloud node 2 includes: the second processor module the 7, second data transmit-receive module 8 and the second memory module 9；Described second processor module 7 electrically connects described second data transmit-receive module 8 and the second memory module 9；Described integrated machine terminal 3 includes: healthy control system the 10, the 3rd data transmit-receive module 11 and data collecting system 12；Described healthy control system 10 electrically connects described 3rd data transmit-receive module 11 and data collecting system 12；Described first data transmit-receive module 5 connects described second data transmit-receive module 8；Described second data transmit-receive module 8 is also connected with the 3rd data transmit-receive module 11.Described integrated machine terminal 3 also includes: health education screen 13；Described health education screen 13 electrically connects with described healthy control system 10；Described healthy control system 10 includes contact action unit 14；Described health education screen 13 is located at above contact action unit 14.Described healthy control system 10 includes microprocessor module 15 and memory element 16；Described microprocessor module 15 electrically connects with described health education screen 13, contact action unit 14, memory element the 16, the 3rd data transmit-receive module 11 and data collecting system 12.Described integrated machine terminal 3 also includes: identity recognizing unit 17, and described identity recognizing unit 17 electrically connects described micro treatment module 15, and described identity recognizing unit 17 is located at below described contact action unit 14.Described data collecting system 12 includes: photographic head 18, survey meter of blood pressure 19, glucometer 20, blood oxygen measuring device 21, height and weight measuring instrument 22, body temperature rifle 23, electrocardiogram equipment 24, squeeze dynamometer 29, blood fat instrument 30 and spirometer 31；Described photographic head 18, survey meter of blood pressure 19, glucometer 20, blood oxygen measuring device 21, height and weight measuring instrument 22, body temperature rifle 23, electrocardiogram equipment 24, squeeze dynamometer 29, blood fat instrument 30 and spirometer 31 are connected with described microprocessor module 15；Described photographic head 18 is located at above described contact action unit 14 outer rim；Described glucometer 20 and blood oxygen measuring device 21 are located at below described contact action unit 14；Either side in described contact action unit 14 outer rim is located at by described body temperature rifle 23, electrocardiogram equipment 24, squeeze dynamometer 29, blood fat instrument 30 and spirometer 31；Described height and weight measuring instrument 22 and survey meter of blood pressure 19 are respectively arranged on described contact action unit 14 left and right sides.Also include printer 25；Described printer 25 is located at below described survey meter of blood pressure 19, and described printer 25 electrically connects with described microprocessor module 15.Also include component storage district 26；Described component storage district 26 is located at below described contact action unit 14.Described cloud node 1 also includes the first alarm module 27；Described first alarm module 27 electrically connects with described first processor module 4.Described sub-cloud node 2 also includes the second alarm module 28；Described second alarm module 28 electrically connects with described second processor module 7.

Embodiment 3 of the present utility model, as shown in figures 1 to 6: a kind of intelligent medical system based on cloud platform, including the root cloud node 1 being sequentially connected with, sub-cloud node 2 and integrated machine terminal 3；Described cloud node 1 is connected to one or more sub-cloud node 2；Described sub-cloud node 2 is connected to one or more integrated machine terminal 3.Described cloud node 1 includes: first processor module the 4, first data transmit-receive module 5 and the first memory module 6；Described first processor module 4 electrically connects described first data transmit-receive module 5 and the first memory module 6；Described sub-cloud node 2 includes: the second processor module the 7, second data transmit-receive module 8 and the second memory module 9；Described second processor module 7 electrically connects described second data transmit-receive module 8 and the second memory module 9；Described integrated machine terminal 3 includes: healthy control system the 10, the 3rd data transmit-receive module 11 and data collecting system 12；Described healthy control system 10 electrically connects described 3rd data transmit-receive module 11 and data collecting system 12；Described first data transmit-receive module 5 connects described second data transmit-receive module 8；Described second data transmit-receive module 8 is also connected with the 3rd data transmit-receive module 11.

Embodiment 4 of the present utility model, as shown in figures 1 to 6: a kind of intelligent medical system based on cloud platform, including the root cloud node 1 being sequentially connected with, sub-cloud node 2 and integrated machine terminal 3；Described cloud node 1 is connected to one or more sub-cloud node 2；Described sub-cloud node 2 is connected to one or more integrated machine terminal 3.Described cloud node 1 includes: first processor module the 4, first data transmit-receive module 5 and the first memory module 6；Described first processor module 4 electrically connects described first data transmit-receive module 5 and the first memory module 6；Described sub-cloud node 2 includes: the second processor module the 7, second data transmit-receive module 8 and the second memory module 9；Described second processor module 7 electrically connects described second data transmit-receive module 8 and the second memory module 9；Described integrated machine terminal 3 includes: healthy control system the 10, the 3rd data transmit-receive module 11 and data collecting system 12；Described healthy control system 10 electrically connects described 3rd data transmit-receive module 11 and data collecting system 12；Described first data transmit-receive module 5 connects described second data transmit-receive module 8；Described second data transmit-receive module 8 is also connected with the 3rd data transmit-receive module 11.Described integrated machine terminal 3 also includes: health education screen 13；Described health education screen 13 electrically connects with described healthy control system 10；Described healthy control system 10 includes contact action unit 14；Described health education screen 13 is located at above contact action unit 14.

Embodiment 5 of the present utility model, as shown in figures 1 to 6: a kind of intelligent medical system based on cloud platform, including the root cloud node 1 being sequentially connected with, sub-cloud node 2 and integrated machine terminal 3；Described cloud node 1 is connected to one or more sub-cloud node 2；Described sub-cloud node 2 is connected to one or more integrated machine terminal 3.Described cloud node 1 includes: first processor module the 4, first data transmit-receive module 5 and the first memory module 6；Described first processor module 4 electrically connects described first data transmit-receive module 5 and the first memory module 6；Described sub-cloud node 2 includes: the second processor module the 7, second data transmit-receive module 8 and the second memory module 9；Described second processor module 7 electrically connects described second data transmit-receive module 8 and the second memory module 9；Described integrated machine terminal 3 includes: healthy control system the 10, the 3rd data transmit-receive module 11 and data collecting system 12；Described healthy control system 10 electrically connects described 3rd data transmit-receive module 11 and data collecting system 12；Described first data transmit-receive module 5 connects described second data transmit-receive module 8；Described second data transmit-receive module 8 is also connected with the 3rd data transmit-receive module 11.Described integrated machine terminal 3 also includes: health education screen 13；Described health education screen 13 electrically connects with described healthy control system 10；Described healthy control system 10 includes contact action unit 14；Described health education screen 13 is located at above contact action unit 14.Described healthy control system 10 includes microprocessor module 15 and memory element 16；Described microprocessor module 15 electrically connects with described health education screen 13, contact action unit 14, memory element the 16, the 3rd data transmit-receive module 11 and data collecting system 12.Described integrated machine terminal 3 also includes: identity recognizing unit 17, and described identity recognizing unit 17 electrically connects described micro treatment module 15, and described identity recognizing unit 17 is located at below described contact action unit 14.

Embodiment 6 of the present utility model, as shown in figures 1 to 6: a kind of intelligent medical system based on cloud platform, including the root cloud node 1 being sequentially connected with, sub-cloud node 2 and integrated machine terminal 3；Described cloud node 1 is connected to one or more sub-cloud node 2；Described sub-cloud node 2 is connected to one or more integrated machine terminal 3.Described cloud node 1 includes: first processor module the 4, first data transmit-receive module 5 and the first memory module 6；Described first processor module 4 electrically connects described first data transmit-receive module 5 and the first memory module 6；Described sub-cloud node 2 includes: the second processor module the 7, second data transmit-receive module 8 and the second memory module 9；Described second processor module 7 electrically connects described second data transmit-receive module 8 and the second memory module 9；Described integrated machine terminal 3 includes: healthy control system the 10, the 3rd data transmit-receive module 11 and data collecting system 12；Described healthy control system 10 electrically connects described 3rd data transmit-receive module 11 and data collecting system 12；Described first data transmit-receive module 5 connects described second data transmit-receive module 8；Described second data transmit-receive module 8 is also connected with the 3rd data transmit-receive module 11.Described integrated machine terminal 3 also includes: health education screen 13；Described health education screen 13 electrically connects with described healthy control system 10；Described healthy control system 10 includes contact action unit 14；Described health education screen 13 is located at above contact action unit 14.Described healthy control system 10 includes microprocessor module 15 and memory element 16；Described microprocessor module 15 electrically connects with described health education screen 13, contact action unit 14, memory element the 16, the 3rd data transmit-receive module 11 and data collecting system 12.Described data collecting system 12 includes: photographic head 18, survey meter of blood pressure 19, glucometer 20, blood oxygen measuring device 21, height and weight measuring instrument 22, body temperature rifle 23, electrocardiogram equipment 24, squeeze dynamometer 29, blood fat instrument 30 and spirometer 31；Described photographic head 18, survey meter of blood pressure 19, glucometer 20, blood oxygen measuring device 21, height and weight measuring instrument 22, body temperature rifle 23, electrocardiogram equipment 24, squeeze dynamometer 29, blood fat instrument 30 and spirometer 31 are connected with described microprocessor module 15；Described photographic head 18 is located at above described contact action unit 14 outer rim；Described glucometer 20 and blood oxygen measuring device 21 are located at below described contact action unit 14；Either side in described contact action unit 14 outer rim is located at by described body temperature rifle 23, electrocardiogram equipment 24, squeeze dynamometer 29, blood fat instrument 30 and spirometer 31；Described height and weight measuring instrument 22 and survey meter of blood pressure 19 are respectively arranged on described contact action unit 14 left and right sides.

Embodiment 7 of the present utility model, as shown in figures 1 to 6: a kind of intelligent medical system based on cloud platform, including the root cloud node 1 being sequentially connected with, sub-cloud node 2 and integrated machine terminal 3；Described cloud node 1 is connected to one or more sub-cloud node 2；Described sub-cloud node 2 is connected to one or more integrated machine terminal 3.Described cloud node 1 includes: first processor module the 4, first data transmit-receive module 5 and the first memory module 6；Described first processor module 4 electrically connects described first data transmit-receive module 5 and the first memory module 6；Described sub-cloud node 2 includes: the second processor module the 7, second data transmit-receive module 8 and the second memory module 9；Described second processor module 7 electrically connects described second data transmit-receive module 8 and the second memory module 9；Described integrated machine terminal 3 includes: healthy control system the 10, the 3rd data transmit-receive module 11 and data collecting system 12；Described healthy control system 10 electrically connects described 3rd data transmit-receive module 11 and data collecting system 12；Described first data transmit-receive module 5 connects described second data transmit-receive module 8；Described second data transmit-receive module 8 is also connected with the 3rd data transmit-receive module 11.Described integrated machine terminal 3 also includes: health education screen 13；Described health education screen 13 electrically connects with described healthy control system 10；Described healthy control system 10 includes contact action unit 14；Described health education screen 13 is located at above contact action unit 14.Described healthy control system 10 includes microprocessor module 15 and memory element 16；Described microprocessor module 15 electrically connects with described health education screen 13, contact action unit 14, memory element the 16, the 3rd data transmit-receive module 11 and data collecting system 12.Described data collecting system 12 includes: photographic head 18, survey meter of blood pressure 19, glucometer 20, blood oxygen measuring device 21, height and weight measuring instrument 22, body temperature rifle 23, electrocardiogram equipment 24, squeeze dynamometer 29, blood fat instrument 30 and spirometer 31；Described photographic head 18, survey meter of blood pressure 19, glucometer 20, blood oxygen measuring device 21, height and weight measuring instrument 22, body temperature rifle 23, electrocardiogram equipment 24, squeeze dynamometer 29, blood fat instrument 30 and spirometer 31 are connected with described microprocessor module 15；Described photographic head 18 is located at above described contact action unit 14 outer rim；Described glucometer 20 and blood oxygen measuring device 21 are located at below described contact action unit 14；Either side in described contact action unit 14 outer rim is located at by described body temperature rifle 23, electrocardiogram equipment 24, squeeze dynamometer 29, blood fat instrument 30 and spirometer 31；Described height and weight measuring instrument 22 and survey meter of blood pressure 19 are respectively arranged on described contact action unit 14 left and right sides.Also include printer 25；Described printer 25 is located at below described survey meter of blood pressure 19, and described printer 25 electrically connects with described microprocessor module 15.

Embodiment 8 of the present utility model, as shown in figures 1 to 6: a kind of intelligent medical system based on cloud platform, including the root cloud node 1 being sequentially connected with, sub-cloud node 2 and integrated machine terminal 3；Described cloud node 1 is connected to one or more sub-cloud node 2；Described sub-cloud node 2 is connected to one or more integrated machine terminal 3.Described cloud node 1 includes: first processor module the 4, first data transmit-receive module 5 and the first memory module 6；Described first processor module 4 electrically connects described first data transmit-receive module 5 and the first memory module 6；Described sub-cloud node 2 includes: the second processor module the 7, second data transmit-receive module 8 and the second memory module 9；Described second processor module 7 electrically connects described second data transmit-receive module 8 and the second memory module 9；Described integrated machine terminal 3 includes: healthy control system the 10, the 3rd data transmit-receive module 11 and data collecting system 12；Described healthy control system 10 electrically connects described 3rd data transmit-receive module 11 and data collecting system 12；Described first data transmit-receive module 5 connects described second data transmit-receive module 8；Described second data transmit-receive module 8 is also connected with the 3rd data transmit-receive module 11.Described integrated machine terminal 3 also includes: health education screen 13；Described health education screen 13 electrically connects with described healthy control system 10；Described healthy control system 10 includes contact action unit 14；Described health education screen 13 is located at above contact action unit 14.Described healthy control system 10 includes microprocessor module 15 and memory element 16；Described microprocessor module 15 electrically connects with described health education screen 13, contact action unit 14, memory element the 16, the 3rd data transmit-receive module 11 and data collecting system 12.Described data collecting system 12 includes: photographic head 18, survey meter of blood pressure 19, glucometer 20, blood oxygen measuring device 21, height and weight measuring instrument 22, body temperature rifle 23, electrocardiogram equipment 24, squeeze dynamometer 29, blood fat instrument 30 and spirometer 31；Described photographic head 18, survey meter of blood pressure 19, glucometer 20, blood oxygen measuring device 21, height and weight measuring instrument 22, body temperature rifle 23, electrocardiogram equipment 24, squeeze dynamometer 29, blood fat instrument 30 and spirometer 31 are connected with described microprocessor module 15；Described photographic head 18 is located at above described contact action unit 14 outer rim；Described glucometer 20 and blood oxygen measuring device 21 are located at below described contact action unit 14；Either side in described contact action unit 14 outer rim is located at by described body temperature rifle 23, electrocardiogram equipment 24, squeeze dynamometer 29, blood fat instrument 30 and spirometer 31；Described height and weight measuring instrument 22 and survey meter of blood pressure 19 are respectively arranged on described contact action unit 14 left and right sides.Also include component storage district 26；Described component storage district 26 is located at below described contact action unit 14.

Embodiment 9 of the present utility model, as shown in figures 1 to 6: a kind of intelligent medical system based on cloud platform, including the root cloud node 1 being sequentially connected with, sub-cloud node 2 and integrated machine terminal 3；Described cloud node 1 is connected to one or more sub-cloud node 2；Described sub-cloud node 2 is connected to one or more integrated machine terminal 3.Described cloud node 1 includes: first processor module the 4, first data transmit-receive module 5 and the first memory module 6；Described first processor module 4 electrically connects described first data transmit-receive module 5 and the first memory module 6；Described sub-cloud node 2 includes: the second processor module the 7, second data transmit-receive module 8 and the second memory module 9；Described second processor module 7 electrically connects described second data transmit-receive module 8 and the second memory module 9；Described integrated machine terminal 3 includes: healthy control system the 10, the 3rd data transmit-receive module 11 and data collecting system 12；Described healthy control system 10 electrically connects described 3rd data transmit-receive module 11 and data collecting system 12；Described first data transmit-receive module 5 connects described second data transmit-receive module 8；Described second data transmit-receive module 8 is also connected with the 3rd data transmit-receive module 11.Described cloud node 1 also includes the first alarm module 27；Described first alarm module 27 electrically connects with described first processor module 4.

Embodiment 10 of the present utility model, as shown in figures 1 to 6: a kind of intelligent medical system based on cloud platform, including the root cloud node 1 being sequentially connected with, sub-cloud node 2 and integrated machine terminal 3；Described cloud node 1 is connected to one or more sub-cloud node 2；Described sub-cloud node 2 is connected to one or more integrated machine terminal 3.Described cloud node 1 includes: first processor module the 4, first data transmit-receive module 5 and the first memory module 6；Described first processor module 4 electrically connects described first data transmit-receive module 5 and the first memory module 6；Described sub-cloud node 2 includes: the second processor module the 7, second data transmit-receive module 8 and the second memory module 9；Described second processor module 7 electrically connects described second data transmit-receive module 8 and the second memory module 9；Described integrated machine terminal 3 includes: healthy control system the 10, the 3rd data transmit-receive module 11 and data collecting system 12；Described healthy control system 10 electrically connects described 3rd data transmit-receive module 11 and data collecting system 12；Described first data transmit-receive module 5 connects described second data transmit-receive module 8；Described second data transmit-receive module 8 is also connected with the 3rd data transmit-receive module 11.Described sub-cloud node 2 also includes the second alarm module 28；Described second alarm module 28 electrically connects with described second processor module 7.

The operation principle of a kind of embodiment of the present utility model: root cloud node 1 connects one or more sub-cloud nodes 2；Meanwhile, a sub-cloud node 2 also connects one or more integrated machine terminals 3.When user uses, user is operated on contact action unit 14.Microprocessor module 15 identifies this operation, and one or more activation in the detection unit needed for completing this detection project in data collecting system 12 carry out data acquisition.Detection unit in data collecting system 12 includes photographic head 18, survey meter of blood pressure 19, glucometer 20, blood oxygen measuring device 21, height and weight measuring instrument 22, body temperature rifle 23, electrocardiogram equipment 24, squeeze dynamometer 29, blood fat instrument 30 and spirometer 31.Meanwhile microprocessor module 15 plays the health detection video of corresponding operating by the health education screen 13 in healthy control system 10, guides user's detection.After user completes operation, user profile that this testing result and identity recognizing unit 17 are identified by the 3rd data transmit-receive module 11 in integrated machine terminal 3 sends the second data transmit-receive module 8 to sub-cloud node 2, by the process of the second processing module 7 and be stored in the second memory module 9；Further, testing result and user profile are sent the first data transmit-receive module 5 to root cloud node 1 by the second data transmit-receive module 8 timing, by the process of the first processing module 4 and be stored in the first memory module 6.User can pass through printer 25 after completing detection and can the Monitoring Data in the memory element 16 that be stored in this locality be printed in real time, conveniently understands own situation.User can pass through component storage district 26 and place middle measurement refuse.When integrated machine terminal 3 breaks down, self id and fault message are uploaded to the sub-cloud node 2 of higher level by this integrated machine terminal 3, and the second alarm module 28 in sub-cloud node 2 receives this fault message, just starts warning, and warning can adopt audible alarm or illumination to report to the police；Or, further, this id and fault message are uploaded to root cloud node 1 by sub-cloud node 2, and the first alarm module 27 in root cloud node 1 receives this fault message, also starts warning.

Claims (10)

1. the intelligent medical system based on cloud platform, it is characterised in that include root cloud node (1), sub-cloud node (2) and the integrated machine terminal (3) that are sequentially connected with；Described cloud node (1) is connected to one or more sub-cloud node (2)；Described sub-cloud node (2) is connected to one or more integrated machine terminal (3).

2. the intelligent medical system based on cloud platform according to claim 1, it is characterized in that, described cloud node (1) including: first processor module (4), the first data transmit-receive module (5) and the first memory module (6)；Described first processor module (4) electrically connects described first data transmit-receive module (5) and the first memory module (6)；Described sub-cloud node (2) including: the second processor module (7), the second data transmit-receive module (8) and the second memory module (9)；Described second processor module (7) electrically connects described second data transmit-receive module (8) and the second memory module (9)；Described integrated machine terminal (3) including: healthy control system (10), the 3rd data transmit-receive module (11) and data collecting system (12)；Described healthy control system (10) electrically connects described 3rd data transmit-receive module (11) and data collecting system (12)；Described first data transmit-receive module (5) connects described second data transmit-receive module (8)；Described second data transmit-receive module (8) is also connected with the 3rd data transmit-receive module (11).

3. the intelligent medical system based on cloud platform according to claim 2, it is characterised in that described integrated machine terminal (3) also includes: health education screen (13)；Described health education screen (13) electrically connects with described healthy control system (10)；Described healthy control system (10) includes contact action unit (14)；Described health education screen (13) is located at contact action unit (14) top.

4. the intelligent medical system based on cloud platform according to claim 3, it is characterised in that described healthy control system (10) includes microprocessor module (15) and memory element (16)；Described microprocessor module (15) electrically connects with described health education screen (13), contact action unit (14), memory element (16), the 3rd data transmit-receive module (11) and data collecting system (12).

5. the intelligent medical system based on cloud platform according to claim 4, it is characterized in that, described integrated machine terminal (3) also includes: identity recognizing unit (17), described identity recognizing unit (17) electrically connects described micro treatment module (15), and described identity recognizing unit (17) is located at described contact action unit (14) lower section.

6. the intelligent medical system based on cloud platform according to claim 4, it is characterized in that, described data collecting system (12) including: photographic head (18), survey meter of blood pressure (19), glucometer (20), blood oxygen measuring device (21), height and weight measuring instrument (22), body temperature rifle (23), electrocardiogram equipment (24), squeeze dynamometer (29), blood fat instrument (30) and spirometer (31)；Described photographic head (18), survey meter of blood pressure (19), glucometer (20), blood oxygen measuring device (21), height and weight measuring instrument (22), body temperature rifle (23), electrocardiogram equipment (24), squeeze dynamometer (29), blood fat instrument (30) and spirometer (31) are connected with described microprocessor module (15)；Described photographic head (18) is located at above described contact action unit (14) outer rim；Described glucometer (20) and blood oxygen measuring device (21) are located at described contact action unit (14) lower section；Either side in described contact action unit (14) outer rim is located at by described body temperature rifle (23), electrocardiogram equipment (24), squeeze dynamometer (29), blood fat instrument (30) and spirometer (31)；Described height and weight measuring instrument (22) and survey meter of blood pressure (19) are respectively arranged on described contact action unit (14) left and right sides.

7. the intelligent medical system based on cloud platform according to claim 6, it is characterised in that also include printer (25)；Described survey meter of blood pressure (19) lower section is located at by described printer (25), and described printer (25) electrically connects with described microprocessor module (15).

8. the intelligent medical system based on cloud platform according to claim 6, it is characterised in that also include component storage district (26)；Described component storage district (26) is located at described contact action unit (14) lower section.

9. the intelligent medical system based on cloud platform according to any one of claim 2-8, it is characterised in that described cloud node (1) also includes the first alarm module (27)；Described first alarm module (27) electrically connects with described first processor module (4).

10. the intelligent medical system based on cloud platform according to any one of claim 2-8, it is characterised in that described sub-cloud node (2) also includes the second alarm module (28)；Described second alarm module (28) electrically connects with described second processor module (7).