CN109166617A - A kind of management system of defibrillation device, method and device - Google Patents

Abstract

The present invention is suitable for internet of things field, provides management system, the method and device of a kind of defibrillation device, comprising: defibrillation device, server and subscriber terminal equipment；The defibrillation device includes selftest module and Internet of Things module, and the selftest module is used to carry out self-test to the defibrillation device every the first preset time, and self-detection result is sent to the server by the Internet of Things module；The server is used to receive the self-detection result that the defibrillation device is sent, and the self-test information obtained based on the self-detection result is sent to the subscriber terminal equipment.Above system can carry out integrated management to defibrillation device convenient for staff.

Description

A kind of management system of defibrillation device, method and device

Technical field

The invention belongs to internet of things field more particularly to a kind of management systems of defibrillation device, method and device.

Background technique

Defibrillator is a kind of first-aid apparatus for being treated to sudden cardiac arrest patient, generally comprises defibrillation, pace-making, prison The functions such as shield.Under normal conditions, defibrillator is placed in the public places such as airport, station, street or school.

Since defibrillator can rescue patient vitals when necessary, it is therefore necessary to ensure the defibrillator moment, which is in, to be had Operating status is imitated, strives for enough rescue times for patient.

Although most defibrillator all has self-checking function currently on the market, staff is for the comprehensive of defibrillator Close management still to have any problem, be embodied in: the defibrillator for being in non-networking state needs staff to go instrument live The self-test situation of these defibrillators is checked, causes staff that can not find the fault condition of defibrillator in time；And For being in the defibrillator of networking state, although staff can learn the failure feelings of defibrillator in time to a certain extent Condition, still, allowing defibrillator to be in the technology of networking state is all short-range communication technique, such as WIFI or 3G, 4G technology, For short-range communication technique, needs staff to carry out complicated network configuration, make troubles to staff, and for 3G, 4G technology, then Expenses Cost is higher, is mainly reflected in power consumption and post and telecommunication tariff, it is also desirable to which administrative staff carry out rate side The maintenance in face.

Summary of the invention

In view of this, the embodiment of the invention provides a kind of management system of defibrillation device, method and device, it is existing to solve There is the problem of defibrillator integrated management difficulty in technology.

The first aspect of the embodiment of the present invention provides a kind of management system of defibrillation device, comprising:

Defibrillation device, server and subscriber terminal equipment；Defibrillation device includes selftest module and Internet of Things module, self-test mould Block is used to carry out self-test to defibrillation device every the first preset time, and self-detection result is sent to service by Internet of Things module Device；Internet of Things module is that NBIOT module, that is, protenchyma networking module or EMTC module enhance machine type communication module or Lora Module；Server is used to receive the self-detection result of defibrillation device transmission, and the self-test information obtained based on self-detection result is sent To subscriber terminal equipment.

The second aspect of the embodiment of the present invention provides a kind of management method of defibrillation device, is applied to server, comprising: The self-detection result of the defibrillation device sent by the Internet of Things module of defibrillation device is obtained every the first preset time；Based on self-test As a result, generating the self-test information of defibrillation device, and self-test information is sent to the user terminal equipment.

The third aspect of the embodiment of the present invention provides a kind of managing device of defibrillation device, comprising:

Module is obtained, is set for being obtained every the first preset time by the defibrillation that the Internet of Things module of defibrillation device is sent Standby self-detection result；Sending module generates the self-test information of defibrillation device, and self-test information is sent out for being based on self-detection result It send to subscriber terminal equipment.

The fourth aspect of the embodiment of the present invention provides a kind of equipment, including memory, processor and is stored in storage In device and the computer program that can run on a processor, processor realize the side of second aspect as above when executing computer program The step of method.

Existing beneficial effect is the embodiment of the present invention compared with prior art:

The embodiment of the invention provides a kind of management system of defibrillation device, method and device, defibrillation device includes self-test Module and Internet of Things module, selftest module are used to carry out self-test to defibrillation device every the first preset time, and by self-detection result Server is sent to by Internet of Things module；Server is used to receive the self-detection result of defibrillation device transmission, and will be based on self-test As a result the self-test information obtained is sent to the user terminal equipment.As it can be seen that due to defibrillation device inclusion networking module, so defibrillation Self-detection result can be sent to server by the Internet of Things module by equipment, so that server is sent certainly to subscriber terminal equipment Information is examined, views the self-test information of defibrillation device in time convenient for staff；Secondly as defibrillation device is using Internet of Things The transmission for the self-detection result that net module carries out, compared to short-range communication module, Internet of Things module does not need staff's progress Many and diverse netconfig job, and since Internet of Things module can be directly connected to base station, it does not need staff and carries out networking, give Staff brings certain convenience；Finally, compared to mobile communication module, as 3G module or 4G module, Internet of Things are not deposited In rate problem, so the maintenance in terms of carrying out too many rate there is no need to staff, and using Internet of Things module relative to 3G module or 4G module power consumption are lower, so also avoiding staff frequently replaces battery.

Detailed description of the invention

It to describe the technical solutions in the embodiments of the present invention more clearly, below will be to embodiment or description of the prior art Needed in attached drawing be briefly described, it should be apparent that, the accompanying drawings in the following description is only of the invention some Embodiment for those of ordinary skill in the art without creative efforts, can also be attached according to these Figure obtains other attached drawings.

Fig. 1 shows the composition schematic diagram of the management system of the defibrillation device of the offer of the embodiment of the present invention one；

Fig. 2 shows the implementation process schematic diagrames of the management method of defibrillation device provided by Embodiment 2 of the present invention；

Fig. 3 shows the composition schematic diagram of the managing device of defibrillation device provided in an embodiment of the present invention；

Fig. 4 shows the schematic diagram of equipment provided in an embodiment of the present invention；

Fig. 5 shows the composition schematic diagram that defibrillation device of the invention uses NBIOT module；

Fig. 6 shows the composition schematic diagram that defibrillation device of the invention uses eMTC module；

Fig. 7 shows the composition schematic diagram that defibrillation device of the invention uses Lora module；

Fig. 8 shows the composition schematic diagram that management system of the invention uses Lora module.

Specific embodiment

In order to make the objectives, technical solutions, and advantages of the present invention clearer, with reference to the accompanying drawings and embodiments, right The present invention is further elaborated.It should be understood that specific embodiment described herein is only used to explain this hair It is bright, it is not intended to limit the present invention.

Embodiment one

Fig. 1 shows a kind of management system 100 of defibrillation device of the offer of the embodiment of the present invention one, comprising:

Defibrillation device 110, server 120 and subscriber terminal equipment 130；

The defibrillation device includes selftest module 111 and Internet of Things module 112, and the selftest module 111 is used for every the One preset time carries out self-test to the defibrillation device 110, and self-detection result is sent to institute by the Internet of Things module 112 State server 120；

Internet of Things module 112 is that NBIOT module, that is, protenchyma networking module or EMTC module enhance machine type communication mould Block or Lora module；

The server 120 is used to receive the self-detection result that the defibrillation device 110 is sent, and will be based on described in certainly The self-test information that inspection result obtains is sent to the subscriber terminal equipment 130.

Above system, the defibrillation device include selftest module and Internet of Things module, and the selftest module is used for every the One preset time carries out self-test to the defibrillation device, and self-detection result is sent to the service by the Internet of Things module Device；The server is used to receive the self-detection result that the defibrillation device is sent, and will be obtained based on the self-detection result Self-test information be sent to the user terminal equipment.As it can be seen that due to defibrillation device inclusion networking module, so defibrillation device can be with Self-detection result is sent to server by the Internet of Things module, so that server sends self-test information to subscriber terminal equipment, View the self-test information of defibrillation device in time convenient for staff；Secondly as defibrillation device is using Internet of Things module The transmission of the self-detection result of progress, compared to short-range communication module, Internet of Things module do not need staff carry out it is many and diverse Netconfig job, and since Internet of Things module can be directly connected to base station, it does not need staff and carries out networking, give work people Member brings certain convenience；Finally, such as 3G module or 4G module, rate are not present in Internet of Things compared to mobile communication module Problem, so the maintenance in terms of carrying out too many rate there is no need to staff, and using Internet of Things module relative to 3G module Or 4G module power consumption is lower, so also avoiding staff frequently replaces battery.

The defibrillation device 110, also known as defibrillation equipment, mainly by defibrillation charge/discharge circuit, electrocardiosignal amplification/ The composition such as display circuit, control circuit, elecrocardiogram recorder, power supply and defibrillation electrode plate, is clinically to be widely used at present One of the crash equipment of sudden cardiac arrest patient.It acts on heart with pulse current, implements peb treatment, eliminates heart rate and loses Often, heart is made to restore sinus rhythm, it has, and curative effect is high, effect is fast, it is easy to operate and compared with drug it is safer etc. excellent Point.

The server 120 is high-performance computer or high-performance computer cluster.

The subscriber terminal equipment 130, to may include with the computer equipment for checking the self-test informational function but It is not limited to mobile phone, tablet computer, laptop and desktop computer, the subscriber terminal equipment 130 can also be intelligent hand Table.

The Internet of Things module can include but is not limited at least one of following: narrowband Internet of Things (Narrow Band Internet of Things, NB-IOT) module, enhance machine type communication (Enhanced Machine Type of Communication, eMTC) module, Lora module and Sigfox module.

NB-IOT focuses on the wide covering networked marketplace of low-power consumption, and NB-IOT is implemented in cellular network, only consumes about The bandwidth of 180KHz can be deployed directly into GSM network, UMTS network or LTE network, to reduce lower deployment cost, realize smooth rise Grade.

EMTC uses authorization frequency spectrum as NB-IOT, coverage enhancement (15dB), support high-speed mobile reliability and Congestion control supports location-independent.For NB-IOT, eMTC has greater advantage in time delay and handling capacity.

Lora is the low-power consumption wide area network wireless communication technique researched and developed by Semtech company, Lora industrial chain maturation ratio NB- IOT is early, business demand and technology sky window phase for Internet of Things fast development, and part operator selects deployment Lora as honeycomb The supplement of Internet of Things.

Sigfox rises in the Sigfox company of France, with ultra-narrow band (Ultra Narrow Band, UNB) technology building The dedicated wireless network of internet of things equipment.Sigfox by it is self-built and with each side's approach to cooperation on-premise network such as operator, Xiang Yong Family provides object networking, api interface, cloud computing Web service, and user can pass through the about 1 dollar of packing valence purchase every year of every equipment Service, it is at low cost.

As a kind of optional embodiment of the present invention, first preset time, the placement based on the defibrillation device 110 Position is configured.For example, if the defibrillation device 110 is placed in this flow of the people in airport or long-distance station biggishly Side, then can set first preset time to 6 hours；For another example, if the defibrillation device 110 is placed in highway clothes This relatively small place of the stream of people in business station, then can set first preset time to 1 day.

As a kind of optional embodiment of the present invention, first preset time is configured based on the period.For example, Flow of the people due to airport in 5:00-10:00 is larger, so it is small by first preset time to set 0.5 in the period When；Flow of the people due to airport in 10:00-22:00 is general, so setting 1 for first preset time in the period Hour；Flow of the people due to airport in 22:00-5:00 is also larger, so first preset time is arranged in the period It is 0.5 hour.Before stating mode in realization, the flow of the people to airport each period is needed to count, in statistics First preset time is configured afterwards.

In embodiments of the present invention, the type of the self-detection result includes reflecting what the defibrillation device 110 operated normally The self test failure result that self-test good result and the reflection defibrillation device 110 do not operate normally.

In embodiments of the present invention, the content of the self-detection result, including self-test conclusion and/or self-inspection data.It is described from Examine conclusion are as follows: self-test is good or self test failure；The self-inspection data, the data including specifically reflecting self-test situation, for example, Self-inspection data is electrocardiosignal amplification/display circuit short circuit of the defibrillation device 110.

Further, the self-test conclusion is made of number and/or character.For example, self-test conclusion is OK, represents defibrillation and set Standby 110 operate normally；Self-test conclusion is ERROR, represents the failure of defibrillation device 110；Or self-test conclusion is TO0, is represented Defibrillation device 110 operates normally；Self-test conclusion is TO1, represents the failure of defibrillation device 110.

In embodiments of the present invention, server 120 is after receiving the self-detection result that the defibrillation device 110 is sent, Self-test information is generated based on the self-detection result.

For example, if the self-detection result that defibrillation device 110 is sent are as follows: OK, then the self-test information generated are as follows: defibrillation device is normal Operation；For another example, if the self-detection result that defibrillation device 110 is sent are as follows: ERROR and the electrocardiosignal of defibrillation device 110 amplification/display Short circuit, then the self-test information generated include defect content and/or prompt information, i.e. the electrocardiosignal of defibrillation device 110 is put Greatly/display circuit short circuit, and/or, defibrillation device 110 breaks down, and please carries out fault detection work immediately.

As a kind of optional embodiment of the present invention, server 120 is by way of sending mail to the user terminal Equipment 130 sends self-test information.

Herein, since mailbox has biggish memory space, so the data of more more details can be sent, so that Staff clearly knows the guilty culprit of defibrillation device 110 after seeing these data, and takes processing to arrange in time It applies.

As a kind of optional embodiment of the present invention, server 120 is by way of sending short message to the user terminal Equipment 130 sends self-test information.

Herein, compared to mailbox, short message has stronger informing function, is embodied in, staff needs to enter Mailbox can just check mail, and short message can directly by arriving staff, so, using short message, more can timely lead to Know user.

As a kind of optional embodiment of the present invention, server 120 is fed back certainly to the APP of the subscriber terminal equipment 130 Examine information.

It is provided with APP on subscriber terminal equipment 130, by the APP, matching for defibrillation device 110 is can be set in staff Confidence breath, the self-test information for receiving the transmission of server 120, switching on and shutting down time that defibrillation device 110 is set etc..

By to the APP of the subscriber terminal equipment 130 feed back self-test information, can more convenient staff to defibrillation Equipment 110 is managed, and increases staff to the viscosity of the APP.

As a kind of optional embodiment of the present invention, the server 120 is also used to:

Based on the self-detection result, to the defibrillation device 110 there are the problem of count, if the statistics of same problem Number is more than preset value, then sends feedback information to the subscriber terminal equipment 130.

Herein, since same problem has been counted repeatedly, illustrate that the problem often occurs in a certain defibrillation device 110, this When need to reflect such case to subscriber terminal equipment 130 so that the staff of subscriber terminal equipment 130 is to defibrillation device The problem is fed back by 110 production firm, improves the quality of the defibrillation device 110 of production firm's production.

In embodiments of the present invention, the defibrillation device 110, further includes:

Locating module, for positioning the defibrillation device 110 every the second preset time；

The defibrillation device 110 is also used to after detecting that the position of the defibrillation device 110 changes, will be anti- The change in location information for reflecting 110 change in location of defibrillation device is sent to the server by the Internet of Things module 112 120, so that the change in location information is sent to the subscriber terminal equipment 130 by the server 120.

As a kind of optional embodiment of the present invention, the expression way of the evolution information are as follows: flag bit-position, Wherein, flag bit is for reflecting whether the position of defibrillation device 110 changes.For example, if evolution information are as follows: the airport 0- 1, then it is assumed that there is no variations for the position of defibrillation device 110；If evolution information are as follows: the airport 1- 2, then it is assumed that defibrillation device 110 position is changed, and the latest position of defibrillation device 110 is airport 2.

As a kind of optional embodiment of the present invention, the expression way of the evolution information are as follows: the position position 1- 2. For example, if evolution information are as follows: the airport airport 1- 1, then it is assumed that there is no variations for the position of defibrillation device 110；If position Information converting are as follows: the airport airport 1- 2, then it is assumed that the position of defibrillation device 110 has changed to airport 2 by airport 1.

In embodiments of the present invention, since defibrillation device 110 has mobility, staff may move defibrillation and set Standby position, so, locating module is set in defibrillation device 110, after being changed with the position in defibrillation device 110, To the location information of the newest defibrillation device 110 of server feedback, so that staff knows the position of defibrillation device 110 in time Information, the normal maintenance work for carrying out defibrillation device 110, if changing and defibrillation device in the position of defibrillation device 110 After 110 break down, staff does not learn the latest position of defibrillation device 110 but, and staff is caused to go to defibrillation Fault detection work is carried out in the original position of equipment 110, greatly wastes the time of staff.

In embodiments of the present invention, the subscriber terminal equipment 130, the equipment for being also used to obtain the defibrillation device 110 Configuration information, and the device configuration information is sent to the server 120；

Correspondingly, the server 120, it is also used to receive the device configuration information, and by the device configuration information It is sent to the defibrillation device 110, so that the defibrillation device 110 is based on the device configuration information and carries out device configuration.

Herein, staff can carry out device configuration, work to the defibrillation device in subscriber terminal equipment at any time Personnel greatly facilitate staff without going to defibrillation device position.

In embodiments of the present invention, the defibrillation device 110 is also used to send system upgrade to the server 120 and look into Ask instruction；

Correspondingly, the server 120, is also used to receive the system upgrade inquiry instruction, and be based on the system liter Whether grade inquiry instruction, the system for inquiring the defibrillation device 110 need to upgrade；If the system of the defibrillation device 110 needs Upgrading, then be sent to the defibrillation device 110 for system upgrade packet corresponding with the defibrillation device 110, so that the defibrillation Equipment 110 upgrades the system of the defibrillation device 110 after receiving the system upgrade packet.

As a kind of optional embodiment of the present invention, server can the system-level periodically to defibrillation device 110 examine It surveys.Server 120 is after receiving the system upgrade inquiry instruction, if detecting, the system-level of defibrillation device 110 has more Newly, for example, the system-level of defibrillation device 110 is updated by 1.0 to 2.0, then it is assumed that the system of defibrillation device 110 needs to rise Grade, is sent to the defibrillation device 110 for system upgrade packet corresponding with the defibrillation device 110；If detecting defibrillation device 110 system-level does not update, then sends the feedback information that reflection system-level does not update to the defibrillation device 110.

As a kind of optional embodiment of the present invention, server 120 is after receiving the system upgrade inquiry instruction, inspection Whether have upgrade information, the upgrade information is sent to the service by the subscriber terminal equipment 130 by staff if surveying Device 120.If having detected upgrade information, then it is assumed that the system of the defibrillation device 110 needs to upgrade, and is getting system liter After grade packet, the system upgrade packet is sent to the defibrillation device 110；If not detecting upgrade information, to described Defibrillation device 110 sends feedback information of the reflection system without upgrading.

Herein, defibrillation device can realize the automatic liter of defibrillation device by asking for system upgrade packet to server Grade.

In embodiments of the present invention, the server 120 sets 120 defibrillation of server in every third preset time Standby 110 states are detected, and will reflect that the server 120 and the connection status of 110 connection status of defibrillation device are believed Breath is sent to the subscriber terminal equipment 130.

The connection state information reflects the server 120 and 110 connection status of defibrillation device.

The type of the connection status, including middle connection breaking and normal connection.

Specifically, if being not received by the connection confirmation message of the transmission of defibrillation device 110 within a preset time, then it is assumed that clothes Business device 120 and 110 disconnecting of defibrillation device, determine connection state information are as follows: middle connection breaking；If receiving within a preset time The connection confirmation message that defibrillation device 110 is sent, then it is assumed that server 120 is connect normally with defibrillation device 110, and determination connects Status information are as follows: normal connection.

The connection state information can be indicated with number/and/or character and/or letter.

For example, if the connection state information are as follows: 1, then it is assumed that server 120 is normally connect with defibrillation device 110；If institute Stating connection state information is 0, then it is assumed that connection breaking in server 120 and defibrillation device 110.

Herein, the connection status of itself and defibrillation device will be judged every preset time due to server, and will reflection The connection state information of connection status is sent to the subscriber terminal equipment, obtains so that the staff of subscriber terminal equipment is timely Know the connection status of server and defibrillation device, and takes processing in time when connection breaking in awareness server and defibrillation device Measure.

Embodiment two

Fig. 2 shows a kind of implementation process schematic diagrames of the management method of defibrillation device provided by Embodiment 2 of the present invention. The executing subject of the management method of defibrillation device in the present embodiment is server.Details are as follows:

S101, the self-test that the defibrillation device sent by the Internet of Things module of defibrillation device is obtained every the first preset time As a result.

S102, it is based on the self-detection result, generates the self-test information of the defibrillation device, and the self-test information is sent To subscriber terminal equipment.

Above scheme, due to defibrillation device inclusion networking module, so defibrillation device can pass through the Internet of Things module Self-detection result is sent to server, so that server sends self-test information to subscriber terminal equipment, it is timely convenient for staff View the self-test information of defibrillation device；Secondly as the self-detection result that defibrillation device is carried out using Internet of Things module It sends, compared to short-range communication module, Internet of Things module does not need staff and carries out many and diverse netconfig job, and by Can be directly connected to base station in Internet of Things module, do not need staff carry out networking, to staff bring it is certain just Benefit；Finally, compared to mobile communication module: 3G module or 4G module, rate problem is not present in Internet of Things, so there is no need to works As personnel carry out too many rate in terms of maintenance, and using Internet of Things module it is lower relative to 3G module or 4G module power consumption, institute Battery is frequently replaced to also avoid staff.

In embodiments of the present invention, the management method, further includes:

The change in location information sent by the Internet of Things module of defibrillation device is obtained every the second preset time；

The change in location information is sent to the subscriber terminal equipment；Defibrillation described in the evolution message reflection The position of equipment changes.

In embodiments of the present invention, it is based on the self-detection result in step S102, generates the self-test letter of the defibrillation device Breath, and the self-test information is sent to the user terminal after equipment, further includes:

Obtain the device configuration information that the subscriber terminal equipment is sent；

The device configuration information is sent to the defibrillation device, so that the defibrillation device is based on the device configuration Information carries out device configuration.

In embodiments of the present invention, the management method, further includes:

Receive the system upgrade inquiry instruction that the defibrillation device is sent；

Based on the system upgrade inquiry instruction, whether the system for inquiring the defibrillation device needs to upgrade；

If the system of the defibrillation device needs to upgrade, system upgrade packet corresponding with the defibrillation device is sent to The defibrillation device, so that the defibrillation device, after receiving the system upgrade packet, upgrade the defibrillation device is System.

In embodiments of the present invention, the management method, further includes:

The server and the connection status of the defibrillation device are detected every third preset time；

It is whole that the connection state information for reflecting the server and the defibrillation device connection status is sent to the user End equipment.

It should be noted that the management method for the defibrillation device that the embodiment of the present invention two proposes is mentioned with the embodiment of the present invention one The management system of defibrillation device out is based on identical inventive concept, in the relevant art in embodiment of the method and system embodiment Appearance can be applicable in mutually, and and will not be described here in detail.

Embodiment three

Fig. 3 shows the managing device 100 of the defibrillation device of the offer of the embodiment of the present invention three, comprising:

Module 110 is obtained, is removed for being obtained every the first preset time by what the Internet of Things module of defibrillation device was sent The self-detection result for equipment of quivering；

Sending module 120 generates the self-test information of the defibrillation device, and will be described for being based on the self-detection result Self-test information is sent to the user terminal equipment.

Above-mentioned apparatus, due to defibrillation device inclusion networking module, so defibrillation device can pass through the Internet of Things module Self-detection result is sent to server, so that server sends self-test information to subscriber terminal equipment, it is timely convenient for staff View the self-test information of defibrillation device；Secondly as the self-detection result that defibrillation device is carried out using Internet of Things module It sends, compared to short-range communication module, Internet of Things module does not need staff and carries out many and diverse netconfig job, and by Can be directly connected to base station in Internet of Things module, do not need staff carry out networking, to staff bring it is certain just Benefit；Finally, compared to mobile communication module: 3G module or 4G module, rate problem is not present in Internet of Things, so there is no need to works As personnel carry out too many rate in terms of maintenance, and using Internet of Things module it is lower relative to 3G module or 4G module power consumption, institute Battery is frequently replaced to also avoid staff.

In embodiments of the present invention, described device 100, further includes:

Position information acquisition module is sent for obtaining every the second preset time by the Internet of Things module of defibrillation device Change in location information；

Location information sending module, for the change in location information to be sent to the subscriber terminal equipment；Institute's rheme It sets information converting and reflects that the position of the defibrillation device changes.

In embodiments of the present invention, described device 100, further includes:

Configuration information obtains module, for being based on the self-detection result in the sending module 120, generates the defibrillation and sets Standby self-test information, and after the self-test information is sent to the user terminal equipment, it obtains the subscriber terminal equipment and sends Device configuration information；

Configuration information sending module, for the device configuration information to be sent to the defibrillation device, so that described remove Equipment of quivering is based on the device configuration information and carries out device configuration.

In embodiments of the present invention, described device 100, further includes:

Inquiry instruction receiving module, the system upgrade inquiry instruction sent for receiving the defibrillation device；

Upgrade enquiry module, for be based on the system upgrade inquiry instruction, inquire the defibrillation device system whether It needs to upgrade；

System upgrade packet sending module will be set if the system for the defibrillation device needs to upgrade with the defibrillation Standby corresponding system upgrade packet is sent to the defibrillation device so that the defibrillation device receive the system upgrade packet it Afterwards, upgrade the system of the defibrillation device.

It should be noted that the managing device for the defibrillation device that the embodiment of the present invention three proposes is mentioned with the embodiment of the present invention two The management method of defibrillation device out is based on identical inventive concept, in the relevant art in Installation practice and embodiment of the method Appearance can be applicable in mutually, and and will not be described here in detail.

Example IV

Fig. 4 is the schematic diagram for the equipment that yet another embodiment of the invention provides.Equipment in the present embodiment as shown in Figure 4 200 may include: processor 210, memory 220 and be stored in the meter that can be run in memory 220 and on processor 210 Calculation machine program 230.Processor 210 is realized in the management method embodiment of above-mentioned defibrillation device when executing computer program 230 Step.For memory 220 for storing computer program, the computer program includes program instruction.Processor 210 is for executing The program instruction that memory 220 stores.Wherein, processor 210 is configured for that described program instruction execution or less is called to operate:

Processor 210 is used to obtain every the first preset time and be set by the defibrillation that the Internet of Things module of defibrillation device is sent Standby self-detection result；

Processor 210 is also used to generate the self-test information of the defibrillation device, and by described in certainly based on the self-detection result Inspection information is sent to the user terminal equipment.

Above equipment, due to defibrillation device inclusion networking module, so defibrillation device can pass through the Internet of Things module Self-detection result is sent to server, so that server sends self-test information to subscriber terminal equipment, it is timely convenient for staff View the self-test information of defibrillation device；Secondly as the self-detection result that defibrillation device is carried out using Internet of Things module It sends, compared to short-range communication module, Internet of Things module does not need staff and carries out many and diverse netconfig job, and by Can be directly connected to base station in Internet of Things module, do not need staff carry out networking, to staff bring it is certain just Benefit；Finally, compared to mobile communication module: 3G module or 4G module, rate problem is not present in Internet of Things, so there is no need to works As personnel carry out too many rate in terms of maintenance, and using Internet of Things module it is lower relative to 3G module or 4G module power consumption, institute Battery is frequently replaced to also avoid staff.

Further, processor 210 is also used to:

The change in location information sent by the Internet of Things module of defibrillation device is obtained every the second preset time；

The change in location information is sent to the subscriber terminal equipment；Defibrillation described in the evolution message reflection The position of equipment changes.

Further, processor 210 is also used to:

It is based on the self-detection result described, generates the self-test information of the defibrillation device, and the self-test information is sent out It send to subscriber terminal equipment, obtains the device configuration information that the subscriber terminal equipment is sent；

The device configuration information is sent to the defibrillation device, so that the defibrillation device is based on the device configuration Information carries out device configuration.

Further, processor 210 is also used to:

Receive the system upgrade inquiry instruction that the defibrillation device is sent；

Based on the system upgrade inquiry instruction, whether the system for inquiring the defibrillation device needs to upgrade；

If the system of the defibrillation device needs to upgrade, system upgrade packet corresponding with the defibrillation device is sent to The defibrillation device, so that the defibrillation device, after receiving the system upgrade packet, upgrade the defibrillation device is System.

Further, processor 210 is also used to:

The server and the connection status of the defibrillation device are detected every third preset time；

It is whole that the connection state information for reflecting the server and the defibrillation device connection status is sent to the user End equipment.

It should be appreciated that in embodiments of the present invention, alleged processor 210 can be central processing unit (Central Processing Unit, CPU), which can also be other general processors, digital signal processor (Digital Signal Processor, DSP), specific integrated circuit (Application Specific Integrated Circuit, ASIC), ready-made programmable gate array (Field-Programmable Gate Array, FPGA) or other programmable logic Device, discrete gate or transistor logic, discrete hardware components etc..General processor can be microprocessor or this at Reason device is also possible to any conventional processor etc..

The memory 220 may include read-only memory and random access memory, and to processor 210 provide instruction and Data.The a part of of memory 220 can also include nonvolatile RAM.For example, memory 220 can also be deposited Store up the information of device type.

It should be noted that the defibrillation device that equipment and the embodiment of the present invention two that the embodiment of the present invention four proposes propose Management method is based on identical inventive concept, and apparatus embodiments can be applicable in mutually with the relevant art content in embodiment of the method, And will not be described here in detail.

Internet of Things module in aforementioned four embodiment can use following technology:

As shown in figure 5, Internet of Things module uses NBIOT technology, then the defibrillation device further includes main control module, UI mould Block, RTC block, power module, defibrillation module, the Internet of Things module are NBIOT module, and the main control module includes self-test mould Block, wherein RTC block is timing module, is connect with power module, power module is connect with main control module, main control module and defibrillation Module, NBIOT module, the connection of UI module, UI module is display screen, and relevant information can be shown to user.

By taking System self-test as an example, under defibrillation device off-mode, RTC block can be according to the first preset time, timing Wake up defibrillation device 110.After RTC block issues wake-up command, power module is controlled to be powered on to defibrillation device 110, main control module After powering on, first pass through selftest module and carry out self-test, then management system according to the present invention setting to defibrillation module, main control module, Power module etc. carries out self-test.After self-test, self-detection result is stored in the machine by main control module, and simultaneously leads to self-detection result It crosses NBIOT module and is sent to server 120, after server 120 receives, reply to NBIOT module, show to have received self-test knot Fruit.The return information of server 120 is supplied to main control module by NBIOT module, main control module then control defibrillation device again into Enter off-mode.

The abnormal conditions of Internet of Things Network Communication occur in order to prevent, if NBIOT module is within the set time, do not receive server 120 return informations then show to occur abnormal.Defibrillation device issues alarm signal, and subsequent main control module control defibrillation device carries out Off-mode；If server 120 is more than setting time, the self-detection result that the NBIOT module of certain defibrillation device is sent is not received, Then server 120 can also regard as defibrillation device failure, provide corresponding alarm signal.

As shown in fig. 6, Internet of Things module use eMTC technology, then the defibrillation device further include main control module, UI module, RTC block, power module, defibrillation module, the Internet of Things module are eMTC module, and the main control module includes selftest module, Wherein RTC block is timing module, is connect with power module, and power module is connect with main control module, main control module and defibrillation mould Block, eMTC module, the connection of UI module, UI module is display screen, and relevant information can be shown to user.

By taking system upgrade as an example, under defibrillation device off-mode, RTC block can be according to the first preset time, timing Wake up defibrillation device.After RTC block issues wake-up command, power module is controlled to be powered on to defibrillation device 110, and main control module powers on Afterwards, it first passes through selftest module and carries out self-test, then management system setting according to the present invention is to defibrillation module, main control module, power supply Module etc. carries out self-test.After self-test, self-detection result is stored in the machine, and simultaneously sends out self-detection result by eMTC module Give server 120.While sending self-detection result, self-detection result includes the machine product ID, software version number etc. Information, server 120 can be according to these information, and whether retrieval needs to upgrade this equipment.If desired, server 120 Feedback information can be replied to this equipment, informing is upgraded.Main control module can make corresponding behaviour according to the order received Make, for example, device configuration " automatic remote upgrading " be open, self-test state is ok, and battery capacity greater than some numerical value (such as 50%), then can be by eMTC module tell the server 120, can be with remote upgrade, server 120 is then by system upgrade packet It is sent to the defibrillation device.

After the defibrillation device receives upgrade package, defibrillation device software is upgraded.After the completion of defibrillation device upgrading, defibrillation Upgrading is completed in the eMTC module tell the server of equipment, and defibrillation device reenters off-mode.

As shown in fig. 7, Internet of Things module uses Lora technology, then the defibrillation device further includes the first main control module, UI Module, the first RTC block, power module, defibrillation module, the Internet of Things module are the first Lora module, first master control Module includes selftest module, wherein the first RTC block is timing module, is connect with power module, power module and the first master control Module connection, the first main control module are connect with defibrillation module, the first Lora module, UI module, and UI module is display screen, can be shown Relevant information is to user.Meanwhile management system of the invention further includes server 120 (i.e. Cloud Server in Fig. 7), Lora base It stands, mobile communication base station, the base station Lora includes the second main control module, the second RTC block, power module and the 2nd Lora module, Wherein power module gives other module for power supply, and the second main control module and the second RTC block, the 2nd Lora module are electrically connected, 2nd Lora module of the base station Lora is connect with the first Lora module of multiple defibrillation devices by signal, the base station Lora and movement Communication base station is connected by mobile communications network (5G/4G etc.) signal, and server is connect with mobile communication base station.

Under defibrillation device off-mode, the first RTC block can be set according to the first preset time, timing wake-up defibrillation It is standby.After first RTC block issues wake-up command, power module is controlled to be powered on to defibrillation device 110, and the first main control module powers on Afterwards, first pass through selftest module and carry out self-test, then management system according to the present invention setting to defibrillation module, the first main control module, Power module etc. carries out self-test.After self-test, the self-test information including self-detection result is stored in the machine, and simultaneously by self-test Information is sent to the base station Lora by the first Lora module, and the base station Lora passes through mobile communications network (5G/4G etc.) again and sends shifting Dynamic communication base station, and then send Cloud Server.

Usually in a dormant state, defibrillation device sends data packet to the 2nd Lora by the first Lora module for the base station Lora Module, data packet includes the first wakeup packet and the first communication data packet, wherein the first wakeup packet includes wake-up signal And the packet time for clock synchronization stabs, the first communication data packet may include self-detection result in aforementioned four embodiment, The time that change in location information, device configuration information, upgrade information, connection confirmation message and data packet return.When reaching the 4th preset time of two RTC blocks setting or the packet transmission requests for receiving the first Lora module from defibrillation device Afterwards, the base station Lora is waken up by the wake-up signal of wakeup packet by dormant state, and receives multiple defibrillations in management system The data packet of first Lora module of equipment is transmitted.After second RTC block of the base station Lora receives communication data packet, then pass through Communication data packet is sent to Cloud Server by mobile communications network (5G/4G etc.) or cable network.

After the base station Lora has received the data packet of defibrillation device, the second main control module is by the packet time of clock synchronization stamp and the Four preset times compare, and are the 4th new preset time with interval few time, return to new data packet and remove to corresponding It quivers equipment, new data packet includes the second wakeup packet and the second communication data packet, and wakeup packet includes the new 4th pre- If the time, when the second communication data packet may include the switching on and shutting down of the defibrillation device of the user setting in aforementioned four embodiment Between, device configuration information, system upgrade packet, feedback information.First Lora module of defibrillation device receives new the of feedback Four preset times, the first preset time that the first main control module sets the first RTC block are set as the 4th new preset time, the After one main control module works according to the particular content of the second communication data packet, the first main control module control defibrillation device is reentered Shutdown mode；After the base station Lora has received the data packet for all defibrillation devices administered and has been sent to Cloud Server, Lora base Dormant state will also be entered by standing；It, will be different if the base station Lora does not receive the data of certain defibrillation device in the 4th preset time Normal information is sent to Cloud Server, and after the base station Lora is sent completely, the base station Lora reenters dormant state；If Cloud Server exists The data packet of the base station Lora is not received in stipulated time, the base station Lora is identified as failure occurred, and Cloud Server can provide phase Answer alarm signal.

Internet of Things module uses Lora technology, by setting the first preset time, the 4th preset time, the data packet of clock synchronization The time of multiple defibrillation devices and the detection information of the base station Lora, transmission information is adjusted to unanimously by timestamp, convenient to defibrillation Equipment is managed collectively, and can detect and find in time failure；In addition, the energy consumption of defibrillation device can also be reduced, make multiple remove Equipment of quivering can take turns alternately suspend mode and work in the cycle.

Those of ordinary skill in the art may be aware that list described in conjunction with the examples disclosed in the embodiments of the present disclosure Member and algorithm steps, can be realized with electronic hardware, computer software, or a combination of the two, in order to clearly demonstrate hardware With the interchangeability of software, each exemplary composition and step are generally described according to function in the above description.This A little functions are implemented in hardware or software actually, the specific application and design constraint depending on technical solution.Specially Industry technical staff can use different methods to achieve the described function each specific application, but this realization is not It is considered as beyond the scope of this invention.

It is apparent to those skilled in the art that for convenience of description and succinctly, foregoing description is set Standby and unit specific work process, can refer to corresponding processes in the foregoing method embodiment, details are not described herein.

In several embodiments provided herein, it should be understood that disclosed device and method can pass through it Its mode is realized.For example, apparatus embodiments described above are merely indicative, for example, the division of the unit, only Only a kind of logical function partition, there may be another division manner in actual implementation, such as multiple units or components can be tied Another system is closed or is desirably integrated into, or some features can be ignored or not executed.In addition, shown or discussed phase Coupling, direct-coupling or communication connection between mutually can be through some interfaces, the INDIRECT COUPLING or communication of equipment or unit Connection is also possible to electricity, mechanical or other form connections.

The unit as illustrated by the separation member may or may not be physically separated, aobvious as unit The component shown may or may not be physical unit, it can and it is in one place, or may be distributed over multiple In network unit.Some or all of unit therein can be selected to realize the embodiment of the present invention according to the actual needs Purpose.

It, can also be in addition, the functional units in various embodiments of the present invention may be integrated into one processing unit It is that each unit physically exists alone, is also possible to two or more units and is integrated in one unit.It is above-mentioned integrated Unit both can take the form of hardware realization, can also realize in the form of software functional units.

If the integrated unit is realized in the form of SFU software functional unit and sells or use as independent product When, it can store in a computer readable storage medium.Based on this understanding, technical solution of the present invention is substantially The all or part of the part that contributes to existing technology or the technical solution can be in the form of software products in other words It embodies, which is stored in a storage medium, including some instructions are used so that a computer Equipment (can be personal computer, server or the network equipment etc.) executes the complete of each embodiment the method for the present invention Portion or part steps.And storage medium above-mentioned include: USB flash disk, mobile hard disk, read-only memory (Read-Only Memory, ROM), random access memory (Random Access Memory, RAM), magnetic or disk etc. are various can store program The medium of code.

The above description is merely a specific embodiment, but scope of protection of the present invention is not limited thereto, any Those familiar with the art in the technical scope disclosed by the present invention, can readily occur in various equivalent modifications or replace It changes, these modifications or substitutions should be covered by the protection scope of the present invention.Therefore, protection scope of the present invention should be with right It is required that protection scope subject to.

Claims (10)

1. a kind of management system of defibrillation device characterized by comprising

Defibrillation device, server and subscriber terminal equipment；

The defibrillation device includes selftest module and Internet of Things module, and the selftest module is used for every the first preset time to institute It states defibrillation device and carries out self-test, and self-detection result is sent to the server by the Internet of Things module；

The server is used to receive the self-detection result that the defibrillation device is sent, and will be obtained based on the self-detection result Self-test information be sent to the subscriber terminal equipment.

2. management system as described in claim 1, which is characterized in that the defibrillation device, further includes:

Locating module, for positioning the defibrillation device every the second preset time；

The defibrillation device is also used to after detecting that the position of the defibrillation device changes, will reflect the defibrillation The change in location information of device location variation is sent to the server by the Internet of Things module, so that the server will The change in location information is sent to the subscriber terminal equipment.

3. management system as described in claim 1, which is characterized in that the subscriber terminal equipment is also used to obtain described remove The device configuration information for equipment of quivering, and the device configuration information is sent to the server；

The server is also used to receive the device configuration information, and the device configuration information is sent to the defibrillation Equipment, so that the defibrillation device is based on the device configuration information and carries out device configuration.

4. management system as described in claim 1, which is characterized in that the defibrillation device is also used to send out to the server Send system upgrade inquiry instruction；

The server is also used to receive the system upgrade inquiry instruction, and is based on the system upgrade inquiry instruction, inquiry Whether the system of the defibrillation device, which needs, upgrades；If the system of the defibrillation device needs to upgrade, will be set with the defibrillation Standby corresponding system upgrade packet is sent to the defibrillation device so that the defibrillation device receive the system upgrade packet it Afterwards, upgrade the system of the defibrillation device.

5. such as the described in any item management systems of Claims 1 to 4, which is characterized in that the server is also used to every third Preset time detects the server and the connection status of the defibrillation device, and will reflect the server with it is described The connection state information of defibrillation device connection status is sent to the subscriber terminal equipment.

6. a kind of management method of defibrillation device is applied to server characterized by comprising

The self-detection result of the defibrillation device sent by the Internet of Things module of defibrillation device is obtained every the first preset time；

Based on the self-detection result, the self-test information of the defibrillation device is generated, and the self-test information is sent to user's end End equipment.

7. management method as claimed in claim 6, which is characterized in that further include:

Obtain the change in location information sent by the Internet of Things module of defibrillation device every the second preset time, and by institute's rheme It sets change information and is sent to the subscriber terminal equipment；The position of defibrillation device described in the evolution message reflection becomes Change.

8. management method as claimed in claim 6, which is characterized in that be based on the self-detection result described, removed described in generation The self-test information for equipment of quivering, and the self-test information is sent to the user terminal after equipment, further includes:

The device configuration information that the subscriber terminal equipment is sent is obtained, and the device configuration information is sent to the defibrillation Equipment, so that the defibrillation device is based on the device configuration information and carries out device configuration.

9. a kind of managing device of defibrillation device characterized by comprising

Module is obtained, for obtaining the defibrillation device sent by the Internet of Things module of defibrillation device every the first preset time Self-detection result；

Sending module generates the self-test information of the defibrillation device for being based on the self-detection result, and by the self-test information It is sent to the user terminal equipment.

10. a kind of equipment, including memory, processor and storage can be run in the memory and on the processor Computer program, which is characterized in that the processor is realized when executing the computer program as claim 6 to 8 is any The step of item the method.