CN107125888A - Intelligent luggage carrier and its control method - Google Patents

Abstract

The present invention provides a kind of Intelligent luggage carrier and its control method, and wherein Intelligent luggage carrier includes：Based on cellular arrowband Internet of Things NB IoT communication modules, control module and lock body module；The NB IoT communication modules are connected with the control module, for receiving the unlocking instruction of user equipment transmission, and the unlocking instruction are sent into control module；The control module is connected with the lock body module, for according to the unlocking instruction, controlling the lock body module to open.Intelligent luggage carrier and its control method that the present invention is provided, the unlocking instruction that user equipment is sent is received by NB IoT communication modules, and the unlocking instruction is sent to control module, the control module is according to the unlocking instruction, the lock body module is controlled to open, NB IoT communication modules are greatly decreased compared to the power consumption of traditional gsm communication module, can effectively save power consumption, reduce use cost.

Description

Intelligent luggage carrier and its control method

Technical field

The present invention relates to the communication technology, more particularly to a kind of Intelligent luggage carrier and its control method.

Background technology

Luggage case is that the chest to place luggage is carried when people go out, and is a kind of conventional household goods.With section Skill is continued to develop, and the living standard of people is gradually lifted, for the requirement also more and more higher, therefore emerge more next of luggage case More Intelligent luggage carriers.

In the prior art, conventional Intelligent luggage carrier generally comprises lock body module, physics unlocking module and whole world movement and led to Letter system (Global System for Mobile Communication, GSM) communication module, physics unlocking module and lock body Module is connected, and user can open lock body module by pressing physics unlocking module, take or place so as to open luggage case Luggage.Gsm communication module can realize radio communication with the mobile phone of user so that user can pass through Mobile phone control lock module It is turned on and off, so as to realize the function of remote control luggage case opening and closing.

It is in place of the deficiencies in the prior art, the function that mobile phone control luggage case is opened and closed, work(is realized by gsm communication module Consumption is larger, and use cost is higher.

The content of the invention

The present invention provides a kind of Intelligent luggage carrier and its control method, the work(to solve Intelligent luggage carrier in the prior art The larger technical problem of consumption.

The present invention provides a kind of Intelligent luggage carrier, including：Based on cellular arrowband Internet of Things NB-IoT communication modules, control Module and lock body module；

The NB-IoT communication modules are connected with the control module, the unlocking instruction for receiving user equipment transmission, And the unlocking instruction is sent to control module；

The control module is connected with the lock body module, for according to the unlocking instruction, controlling the lock body module Open.

Further, the Intelligent luggage carrier also includes：Reset module；

The replacement module is connected with the control module, for producing activation instruction in the case where user operates；

The control module is additionally operable to according to the activation instruction, and up MO industry is initiated to the NB-IoT communication modules Business, activates the NB-IoT communication modules.

Further, the Intelligent luggage carrier also includes：Locating module；

The locating module is connected with the control module；

The NB-IoT communication modules are additionally operable to：The timing location information that user equipment is sent is received, and by the timing Location information is sent to control module, and the timing location information includes the time of reservation positioning；

The control module is additionally operable to：

Receive and store the timing location information, control the NB-IoT communication modules application default TAU cycles；

After the TAU cycles of the NB-IoT communication modules expire, according to the time of the reservation positioning and current time Time difference, be again the NB-IoT communication modules application TAU cycles, until reach it is described reservation positioning time；

After the time of the reservation positioning is reached, the locating module is controlled to proceed by positioning and by the ground got Reason positional information is sent to user equipment by NB-IoT communication modules.

Further, the Intelligent luggage carrier also includes：Locating module；

The locating module is connected with the control module；

The NB-IoT communication modules are additionally operable to：The fixed point location information that user equipment is sent is received, and by the fixed point Location information is sent to control module, and the fixed point location information includes the regional information for needing to be positioned；

The control module is additionally operable to：

Receive and store the fixed point location information；

After the TAU cycles of each NB-IoT communication modules expire, the locating module is controlled to obtain current ground Manage positional information；

If the geographical location information belongs to the regional information that the needs are positioned, the locating module is controlled to open Beginning is positioned and the geographical location information got is sent into user equipment by NB-IoT communication modules.

Further, the Intelligent luggage carrier also includes：Physics unlocking module and locating module；

The physics unlocking module is connected with the lock body module, for opening the lock body mould under the operation of user Block；

The control module is additionally operable to：

Receive the physics unlocking instruction that the lock body module is sent after being opened by user by physics unlocking module；

According to the physics unlocking instruction, the NB-IoT communication modules are activated, the geographical position letter of user equipment is obtained Breath, and the current geographical location information of luggage case is obtained by the locating module；

If the distance between the geographical location information of the user equipment and the current geographical location information of the luggage case More than position threshold, then information warning is sent to user equipment by the NB-IoT communication modules.

Further, the control module is additionally operable to：

The Flight Information of user is obtained, the Flight Information includes the departure time and landing time of aircraft；

Before the departure time of the aircraft, the NB-IoT communication modules application one is controlled to exceed the flight time The TAU cycles, make the NB-IoT communication modules in aircraft flight in a dormant state；

After the landing time of the aircraft, MO business is initiated to the NB-IoT communication modules, by the NB-IoT Communication module wakes up.

The present invention also provides a kind of control method of Intelligent luggage carrier, including：

The unlocking instruction that user equipment is sent is received by NB-IoT communication modules；

According to the unlocking instruction, control lock body module is opened.

Further, methods described also includes：

Obtain and reset the activation instruction that module is produced in the case where user operates；

According to the activation instruction, MO business is initiated to the NB-IoT communication modules, the NB-IoT communications mould is activated Block.

Further, methods described also includes：

The timing location information that user equipment is sent, the timing location information are received by the NB-IoT communication modules Include the time of reservation positioning；

According to the timing location information, the NB-IoT communication modules application default TAU cycles are controlled；

After the TAU cycles of the NB-IoT communication modules expire, according to the time of the reservation positioning and current time Time difference, be again the NB-IoT communication modules application TAU cycles, until reach it is described reservation positioning time；

After the time of the reservation positioning is reached, the locating module is controlled to proceed by positioning and by the ground got Reason positional information is sent to user equipment by NB-IoT communication modules.

Further, methods described also includes：

The fixed point location information that user equipment is sent, the fixed point location information are received by the NB-IoT communication modules Including the regional information for needing to be positioned；

After the TAU cycles of each NB-IoT communication modules expire, the locating module is controlled to obtain current ground Manage positional information；

If the geographical location information belongs to the regional information that the needs are positioned, the locating module is controlled to open Beginning is positioned and the geographical location information got is sent into user equipment by NB-IoT communication modules.

Intelligent luggage carrier and its control method that the present invention is provided, including NB-IoT communication modules, control module and lock body Module, wherein the NB-IoT communication modules are connected with the control module, the unlocking instruction for receiving user equipment transmission, And the unlocking instruction is sent to control module, the control module is connected with the lock body module, for being opened according to Lock instruction, controls the lock body module to open, and NB-IoT communication modules significantly subtract compared to the power consumption of traditional gsm communication module It is few, power consumption can be effectively saved, use cost is reduced.

Brief description of the drawings

Fig. 1 is the structured flowchart for the Intelligent luggage carrier that the embodiment of the present invention one is provided；

Fig. 2 is the structured flowchart for the Intelligent luggage carrier that the embodiment of the present invention two is provided；

Fig. 3 is the structured flowchart for the Intelligent luggage carrier that the embodiment of the present invention three is provided；

Fig. 4 is the flow chart of the control method for the Intelligent luggage carrier that the embodiment of the present invention four is provided.

Reference：

1-NB-IoT communication module 2- control module 3- lock body module 4- locating modules

5- physics unlocking modules

Embodiment

To make the purpose, technical scheme and advantage of the embodiment of the present invention clearer, below in conjunction with the embodiment of the present invention In accompanying drawing, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is A part of embodiment of the present invention, rather than whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art The every other embodiment obtained under the premise of creative work is not made, belongs to the scope of protection of the invention.

The term used in the embodiment of the present application is the purpose only merely for description specific embodiment, and is not intended to be limiting The present invention." one kind ", " described " and "the" of used singulative are also intended to including many number forms in the embodiment of the present application Formula, unless context clearly shows that other implications.

It should be appreciated that term "and/or" used herein is only a kind of incidence relation for describing affiliated partner, represent There may be three kinds of relations, for example, A and/or B, can be represented：Individualism A, while there is A and B, individualism B these three Situation.In addition, character "/" herein, it is a kind of relation of "or" to typically represent forward-backward correlation object.

Depending on linguistic context, word as used in this " if ", " if " can be construed to " ... when " or " when ... " or " in response to determining " or " in response to detection ".Similarly, depending on linguistic context, phrase " if it is determined that " or " such as Fruit detection (condition or event of statement) " can be construed to " when it is determined that when " or " in response to determine " or " when detection (statement Condition or event) when " or " in response to detection (condition or event of statement) ".

It should also be noted that, term " comprising ", "comprising" or its any other variant are intended to nonexcludability Comprising, so that commodity or system including a series of key elements not only include those key elements, but also including without clear and definite Other key elements listed, or also include for this commodity or the intrinsic key element of system.In the feelings of not more limitations Under condition, the key element limited by sentence "including a ...", it is not excluded that in the commodity or system including the key element also There is other identical element.

Embodiment one

The embodiment of the present invention one provides a kind of Intelligent luggage carrier.Fig. 1 is the Intelligent luggage carrier that the embodiment of the present invention one is provided Structured flowchart.As shown in figure 1, the Intelligent luggage carrier in the present embodiment, can include：Based on cellular arrowband Internet of Things (Narrow Band Internet of Things, NB-IoT) NB-IoT communication modules 1, control module 2 and lock body module 3；

The NB-IoT communication modules 1 are connected with the control module 2, and the unlocking for receiving user equipment transmission refers to Order, and the unlocking instruction is sent to control module 2；

The control module 2 is connected with the lock body module 3, for according to the unlocking instruction, controlling the lock body mould Block 3 is opened.

NB-IoT is an important branch of Internet of Things, is directed towards a more low complex degree and new designed by poor throughput Wireless access system, to solve cellular Internet of Things (Cellular IoT) demand, makes frequency spectrum have higher service efficiency, and Substantial amounts of equipment is allowed using there is provided wider array of coverage, to improve the utilization benefit of frequency spectrum simultaneously at same honeycomb networking, And reduce the complexity of element.

Can be by based on cellular protenchyma between the NB-IoT communication modules 1 and user equipment of the Intelligent luggage carrier Communication is realized in networking.Two equipment rooms belong to prior art, this reality by the method communicated based on cellular arrowband Internet of Things Apply in example and repeat no more.

Equipment such as smart mobile phone, notebook, tablet device etc. that the user equipment can use for user.User can be with Unlocking instruction is sent to the NB-IoT communication modules 1 of the Intelligent luggage carrier by the user equipment.The NB-IoT communications Module 1 is received after the unlocking instruction, the instruction can be sent into control module 2, be opened by control module 2 according to described The lock instruction control lock body module 3 is opened, so as to realize the unlatching of Intelligent luggage carrier.

Further, when the casing of the Intelligent luggage carrier is in closure state, the NB-IoT communication modules 1 can be with Out code is received from the user equipment, and the out code is sent to the control module 2, the control module 2 The lock body module 3 can be closed according to the out code, so as to realize locking for Intelligent luggage carrier.

Further, NB-IoT communication modules 1 can enter battery saving mode (Power Saving after idle certain time Mode, PSM) state.When NB-IoT communication modules 1 are in PSM states, paging is not listening to, and stop all Access Layer (AS Layer) activity.

To support PSM states, NB-IoT communication modules 1 should be supported in attachment and tracing section updating (Tracking Area Update, TAU) during, consult activationary time with mobile management nodes (Mobility Management Entity, MME) (Active Time), upon entering the idle state, activates Active Time, when Active Time are overtime, into PSM shapes State.When NB-IoT communication modules 1 need to send data either TAU timer expiries, PSM states are left.

PSM can minimize the consumption of electric power as a kind of special SOT state of termination, it is considered that compare idle pulley More power saving under (Idle Mode), terminal is under PSM states, in that case it can be decided that time deactivation transmission that be how long or reception data, Terminal is just without maintaining open state, and the electricity usage equivalent to the pattern of dormancy, therefore terminal is just significantly reduced.

If NB-IoT communication modules 1 support PSM, in Attach or TAU program, it can be counted to one startup of network application When device (Active Timer), this timer determines that NB-IoT communication modules 1 will keep how long going to monitor notifying from a phone call (Paging) signal, when the time more than timer, NB-IoT communication modules 1 will enter battery saving mode, during this period no longer Monitored call signal, is similar to the state of shutdown, but NB-IoT communication modules 1 are still registered in networking, therefore need not weigh The new line for connecting or setting up data packet networking (Packet Data Network, PDN), until NB-IoT communication modules 1 will Data is externally transmitted again, or TAU cycle arrives, and can just be returned to the state of line, if the TAU cycles are 1 hour, and 1 Week sends a data, and two 2A batteries can be used more than 136 months, equivalent to 11 years or so.

In the present embodiment, the Intelligent luggage carrier is except including NB-IoT communication modules 1, control module 2 and lock body module 3 In addition, the legacy devices such as casing and roller can also be included, article and mobile function are accommodated so as to realize.

The Intelligent luggage carrier that the present embodiment is provided, including NB-IoT communication modules 1, control module 2 and lock body module 3, its Described in NB-IoT communication modules 1 be connected with the control module 2, for receive user equipment transmission unlocking instruction, and will The unlocking instruction is sent to control module 2, and the control module 2 is connected with the lock body module 3, for being unlocked according to described Instruction, controls the lock body module 3 to open, NB-IoT communication modules 1 significantly subtract compared to the power consumption of traditional gsm communication module It is few, power consumption can be effectively saved, use cost is reduced.

Further, the Intelligent luggage carrier can also include resetting module.The replacement module can be arranged on casing Outside, the replacement module is connected with the control module 2, for producing activation instruction in the case where user operates.

Specifically, the replacement module arbitrarily can be available for user to operate for switch, button, keyboard, knob, display screen etc. Equipment, the activation instruction can be for packet, level skip signal etc..For example, the replacement module can be button, use After family is pushed button, level saltus step is produced, so that the control module 2 being connected with button gets the level saltus step.

The control module 2 can initiate MO (Mobile according to the activation instruction to the NB-IoT communication modules 1 Original, up) business, so as to activate the NB-IoT communication modules 1.

Because when institute's NB-IoT communication modules 1 are in PSM states, it is impossible to receive the information of user equipment transmission, only The active of control module 2 is just understood the of short duration wake-up NB-IoT when being expired to its initiation MO business or TAU renewal times and communicated Module 1.Wherein, the MO business can the NB-IoT communication modules 1 is actively sent data service or geography Positional information such as reports at the business.

In actual applications, when user equipment is to the NB-IoT communication modules 1 transmission information, if the NB-IoT communicates Module 1 be in PSM states, then network can not paging arrive the NB-IoT communication modules 1, network can notify user go operation weigh Module is put to activate the NB-IoT communication modules 1, so that the NB-IoT communication modules 1 receive information.Or, user The notice of network can also be ignored, because when the NB-IoT communication modules 1 are in PSM states, the TAU cycles can also be passed through Expire and complete automatic activation, such case lower network can temporarily preserve the information of user's transmission, and the NB- is waited until always Information is handed down to the NB-IoT communication modules 1 by IoT communication modules 1 again when activating.

Embodiment two

The embodiment of the present invention two provides a kind of Intelligent luggage carrier.Fig. 2 is the Intelligent luggage carrier that the embodiment of the present invention two is provided Structured flowchart.As shown in Fig. 2 the Intelligent luggage carrier in the present embodiment, can include：NB-IoT communication modules 1, control module 2nd, lock body module 3, locating module 4；

The NB-IoT communication modules 1 are connected with the control module 2, and the unlocking for receiving user equipment transmission refers to Order, and the unlocking instruction is sent to control module 2；

The control module 2 is connected with the lock body module 3, for according to the unlocking instruction, controlling the lock body mould Block 3 is opened；

The locating module 4 is connected with the control module 2, and the geographical position for obtaining the Intelligent luggage carrier is believed Breath.

The locating module 4 can be global positioning system (Global Positioning System, GPS) positioning mould Block or the locating module based on other satellite positioning tech (such as Big Dipper).The locating module 4 is only in the instruction of control module 4 It is lower just to open positioning, i.e., positioning will not be opened when usually leaving unused, to reach the effect of economize on electricity.

The NB-IoT communication modules 1 open the specific of the lock body module 3 with the control module 2 by unlocking instruction Realization principle is similar with embodiment one, and here is omitted.

On this basis, it can also realize that timing is positioned by NB-IoT communication modules 1, control module 2 and locating module 4 Function.

Accordingly, the NB-IoT communication modules 1 can be also used for：The timing location information that user equipment is sent is received, And the timing location information is sent to control module 2, the timing location information includes the time of reservation positioning.

The control module 2 is additionally operable to：Receive and store the timing location information, control the NB-IoT communication modules 1 application default TAU cycles；After the TAU cycles of the NB-IoT communication modules 1 expire, according to it is described reservation positioning when Between time difference with current time, be the NB-IoT communication modules 1 application TAU cycles again, until reaching the pre- agreement The time of position；After reach the time of the reservation positioning, the locating module 4 is controlled to proceed by positioning and will get Geographical location information is sent to user equipment by NB-IoT communication modules 1.

Specifically, user can be with self-defined opening timing positioning function, and such as user can be defeated by the application of user equipment Enter the travel information of oneself, the travel information can be airplane flight information, train Bus Schedules etc., and user equipment can root According to the travel information, it is determined that the time of positioning is preengage, for example, starting after aircraft landing or train arrive at a station to intelligent luggage Case is positioned, or, user can directly input it is described reservation positioning time for example input afternoon 15 on April 18th, 2017: 00。

User equipment can send timing to the NB-IoT communication modules 1 of Intelligent luggage carrier by 2G/3G/4G networks and position Information.The NB-IoT communication modules 1 are received after the timing location information, can be sent to the timing location information Control module 2.

Control module 2 can control the NB-IoT communication modules 1 to apply for corresponding TAU according to the timing location information Cycle, the TAU cycles can be current time and the time difference of reservation positioning time, and such as current time is at 4 points in afternoon, in advance About positioning time is at 6 points in afternoon, then the TAU cycles can be 2 hours or so.After the TAU cycles expire, NB-IoT communications Module 1 is activated, and the control module 2 opens the locating module 4, and the locating module 4 proceeds by positioning.

If preengaging the time of positioning in the maximum TAU cycles for long after, having exceeded NB-IoT communication modules 1, then may be used Repeatedly to apply for the TAU cycles.First, the control module 2 controls the NB-IoT communication modules 1 to apply for the default TAU cycles. Then, after the TAU cycles of the NB-IoT communication modules 1 expire, according to the time of the reservation positioning and current time Time difference, apply for the TAU cycles again for the NB-IoT communication modules 1, until reaching the time of the reservation positioning.Finally, After the time of the reservation positioning is reached, the locating module 4 is controlled to proceed by positioning.

After positioning is proceeded by, the geographical location information got can be sent to control mould by the locating module 4 Block 2, user equipment is sent to by control module 2 by the geographical location information by the NB-IoT communication modules 1.Or, The locating module 4 can be connected with the NB-IoT communication modules 1, and the locating module 4 directly can believe geographical position Cease and be sent to NB-IoT communication modules 1, and the geographical location information is sent to user by the NB-IoT communication modules 1 and set It is standby.

Not timed out when the reservation positioning time that user is set, NB-IoT communication modules 1 do not initiate business actively, so as to Enter Idle state faster, and to network application TAU cycle times one longer, so as to farthest enter PSM shapes State and the purpose for reaching power saving.

TAU cycle time can be to network application, i.e., to core net application T3412 during attach or TAU Time, if the positioning time apart from user preset is more long, apply as far as possible a larger TAU cycle, it is maximum small up to 310 When, NB-IoT communication modules 1 can all be activated once after each TAU cycles expire, and according to the time after each wake up and can be determined The distance of position time applies for a TAU cycle again, so as to become closer to the positioning time of user preset.

Illustrate：User opens positioning function after setting 5 hours 3 days.NB-IoT communication modules 1 can then apply 1 day One time TAU updates, when close to reservation positioning time, for example, also having 5 hours apart from reservation positioning time, then when can be by TAU Between set smaller, such as 1 time per hour, so as to guarantee to receive any positioning that is subject to variation from user equipment faster The information of time.

When the positioning time of user preset reaches, NB-IoT communication modules 1 obtain the geographical position that locating module 4 is detected Information, the real-time upload of geographical location information is carried out according to the frequency of user preset.

Further, the positioning end time can also be included in the timing location information, the positioning of user preset is reached After end time, the control locating module 4 of control module 2 is closed, and NB-IoT communication modules 1 stop sending geographical location information, and The TAU cycles are readjusted, enable the long period is maintained at resting state, so as to more economize on electricity.

Further, fixed point location work(can also be realized by NB-IoT communication modules 1, control module 2 and locating module 4 Energy.

Accordingly, the NB-IoT communication modules 1 can be also used for：The fixed point location information that user equipment is sent is received, And the fixed point location information is sent to control module 2, the fixed point location information includes the area letter for needing to be positioned Breath.

The control module 2 can be also used for：Receive and store the fixed point location information；Lead in each NB-IoT After the TAU cycles of letter module 1 expire, the locating module 4 is controlled to obtain current geographical location information；If the geographical position Information belongs to the regional information that the needs are positioned, then the control control locating module 4, which is proceeded by, positions and will obtain The geographical location information got is sent to user equipment by NB-IoT communication modules 1.

Fixed point location function and timing positioning function are substantially similar, and simply TAU period modulations are according to geographical location information Depending on.

User can preset several pieces of safety zones, and such as family neutralizes Office Area, and every area beyond this scope is all desirable The area positioned.Fixed point location information is sent to control by NB-IoT communication modules 1 after fixed point location information is received Module 2.Generally, NB-IoT communication modules 1 are in PSM states, and only each TAU can be activated when updating, and NB-IoT leads to After believing that module 1 is activated, locating module 4 obtains geographical location information and is simultaneously sent to control module 2, and then control module 2 is by geography Positional information is compared with the regional information positioned the need for storage, if current geographical position belongs to what needs were positioned Area, then carry out positioning service according to the frequency of user preset, for example, led to geographical location information by NB-IoT every 5 minutes Letter module 1 is sent to user equipment.

Intelligent luggage carrier, including locating module 4 are present embodiments provided, locating module 4 can obtain geographical location information, And coordinate with NB-IoT communication modules 1 and control module 2, timing positioning function and fixed point location function are realized, is provided the user Facility.

Further, the Intelligent luggage carrier can also include：Power module.The power module is used to lead to for NB-IoT The power supply such as module 1, control module 2, locating module 4, and the control of controlled module 2 are believed, being decided whether by control module 2 Or terminate to power for modules.For example, control module 2 can control power module to stop powering for locating module 4, so as to reach To the purpose of economize on electricity.When needing to use locating module 4, control module 2 can control power module to start to supply for locating module 4 Electricity, so as to open the locating module 4.

Embodiment three

The embodiment of the present invention three provides a kind of Intelligent luggage carrier.Fig. 3 is the Intelligent luggage carrier that the embodiment of the present invention three is provided Structured flowchart.As shown in figure 3, the Intelligent luggage carrier in the present embodiment, can include：NB-IoT communication modules 1, control module 2nd, lock body module 3, locating module 4, physics unlocking module 5；

The NB-IoT communication modules 1 are connected with the control module 2, and the unlocking for receiving user equipment transmission refers to Order, and the unlocking instruction is sent to control module 2；

The control module 2 is connected with the lock body module 3, for according to the unlocking instruction, controlling the lock body mould Block 3 is opened；

The locating module 4 is connected with the control module 2, and the geographical position for obtaining the Intelligent luggage carrier is believed Breath；

The physics unlocking module 5 is connected with the lock body module 3, for opening the lock body mould under the operation of user Block 3.

Wherein, the NB-IoT communication modules 1 open the lock body module 3 with the control module 2 by unlocking instruction Implement that principle is similar with embodiment one, here is omitted.

The physics unlocking module 5 can be physical button or switch etc., and user can be by pushing button or dialling The modes such as switch are moved to open the lock body module 3.

The lock body module 3 can be sent after being opened by user by the physics unlocking module 5 to control module 2 Physics unlocking instruction.Specifically, sensor can be provided with the lock body module 3, for detecting the physics unlocking module 5 State, such as whether described physics unlocking module 5 be pressed or be struck.Sensing the shape of physics unlocking module 5 After state changes, the lock body module 3 sends physics unlocking instruction to the control module 2.

Accordingly, the control module 2 can be also used for：The lock body module 3 is received to unlock by physics by user The physics unlocking instruction that module 5 is sent after opening；According to the physics unlocking instruction, the NB-IoT communication modules 1 are activated, and Information warning is sent to user equipment by the NB-IoT communication modules 1.

Specifically, if the lock body module 3 of Intelligent luggage carrier is to sense that the state of physics unlocking module 5 there occurs change Unlocking operation is completed, rather than the unlocking instruction assigned by control module 2 completes unlocking operation, can be to control module 2 Physics unlocking instruction is sent, notifies the someone of control module 2 to be unlocked using physics unlocking module 5.

Control module 2 is received after the physics unlocking instruction, can directly be activated NB-IoT communication modules 1, be passed through NB- IoT communication modules 1 send information warning to background server, and the information warning can be pushed to user by the background server Equipment.

Further, control module 2 is received after the physics unlocking instruction, can also open locating module 4, by fixed Position module 4 obtains the current geographical location information of luggage case and is simultaneously sent to background server, by background server by geographical row The current geographical location information of Lee's case and information warning are sent to user equipment simultaneously, point out user just to be used in someone in somewhere Physics unlocking module 5 opens luggage case.

Preferably, the control module 2 activates the NB-IoT communication modules 1 according to the physics unlocking instruction, and Information warning is sent to user equipment by the NB-IoT communication modules 1, can be included：

According to the physics unlocking instruction, the NB-IoT communication modules 1 are activated, the geographical position letter of user equipment is obtained Breath, and the current geographical location information of luggage case is obtained by the locating module 4；

If the distance between the geographical location information of the user equipment and the current geographical location information of the luggage case More than position threshold, then information warning is sent to user equipment by the NB-IoT communication modules 1.

Specifically, after physics unlocking instruction is received, the control module 2 can activate NB-IoT communication modules 1, and The geographical location information of user equipment is obtained by the NB-IoT communication modules 1, while the geographical position current with luggage case Information is contrasted, if relatively, illustrating to be likely to user oneself in unlocking, then not sending information warning and give user's hand Machine；If geographical position is differed farther out, possible luggage case is stolen, and someone is attempting to unlock, then alerts user at once, and open in real time Open luggage case positioning function.

Further, the Intelligent luggage carrier can also include alarm module.User can be autonomous according to the information warning Choose whether to open the alarm module on luggage case, if it is desired, can then send and open to Intelligent luggage carrier by user equipment Alarm command is opened, control module 2 can control the alarm module to be alarmed according to the unlatching alarm command.For example, institute It can be loudspeaker to state alarm module, and the control module 2 can control the loudspeaker to send the lasting sound to realize report Alert function, deters burglar.

The Intelligent luggage carrier that the present embodiment is provided, including locating module 4 and physics unlocking module 5, pass through physics unlocking mold Block 5 can quickly and easily open luggage case, provide the user facility, when luggage case is opened by physics unlocking module 5 Afterwards, the geographical location information for the luggage case that can be got according to the geographical location information and locating module 4 of user equipment, certainly It is fixed whether to send information warning to user equipment, user someone can be notified to unlock in time, the safety of Intelligent luggage carrier is improved.

On the basis of the technical scheme that the various embodiments described above are provided, it is preferred that the control module 2 can also be used In：The Flight Information of user is obtained, the Flight Information includes the departure time and landing time of aircraft；In rising for the aircraft Before the time of flying, control the NB-IoT communication modules 1 to apply for a TAU cycle for exceeding the flight time, make the NB-IoT Communication module 1 in aircraft flight in a dormant state；It is logical to the NB-IoT after the landing time of the aircraft Believe that module 1 initiates MO business, the NB-IoT communication modules 1 are waken up.

Because Intelligent luggage carrier carries NB-IoT communication modules 1, need to consider aviation safety in actual applications. Take off in landing and flight course, the cellular network signals of Intelligent luggage carrier may interfere the accurate electronic instrument of aircraft, Although the influence of these secondary electric waves is very faint, the super high sensitivity of airborne communication apparatus is faced, it is likely that cause safe thing Therefore.When aboard, passenger is often required closing hand phone, but for the intelligent luggage with NB-IoT communication modules 1 For case, it is likely that passing into silence or have been placed in delivery region can not manual-lock its NB-IoT communication module 1.In NB- After the popularization of IoT internet of things equipment, it may appear that the substantial amounts of Intelligent luggage carrier based on NB-IoT communication modules 1, in order to avoid frequent Effect of signals is sent in flight course to aviation safety, NB-IoT communication modules 1 can be automatically controlled by control module 2 Dormancy and wake-up.

First, control module 2 can obtain the Flight Information of user, the Flight Information include aircraft the departure time and The landing time.Flight Information can be manually entered into user equipment by user, and be sent to Intelligent luggage carrier by user equipment, Or, user can also input the flight number of oneself, periodically be confirmed accurately with airline according to flight number by background server Flight Information, changed to prevent Flight Information.

Then, before the departure time of aircraft, control module 2 controls the NB-IoT communication modules 1 to apply for that one surpasses The TAU cycles of flight time are spent, the NB-IoT communication modules 1 is in a dormant state in aircraft flight PSM states.For example, control module 2 can be before take-off 5 minutes until aircraft land after 5 minute this period in protect Demonstrate,prove the NB-IoT communication modules 1 in a dormant state.

Specifically, before the departure time arrives, control module 2 closes locating module 4, and commands NB-IoT communication modules 1 The TAU cycles that application one exceedes the flight time.If network receives this TAU cycles, it can ensure that Intelligent luggage carrier will not fly It is automatic in row way to activate and send any information to interfere with aviation safety.If network disagrees this TAU for some reason Cycle, then the control of control module 2 NB-IoT communication modules 1 be introduced into idle mode state according to the TAU cycles of net definitions, Subsequently into PSM states, and self-defined dormancy time, refusal is initiated TAU when expiring in the TAU cycles of net definitions and updated, from Without influencing whether aviation safety.

Finally, after the landing time of the aircraft, control module 2 can be according to internal timer, actively to institute State NB-IoT communication modules 1 initiate MO business (such as geographical location information reporting service), by the NB-IoT communication modules 1 from PSM states wake up.

Further, user's desired positioning time can also be included in the Flight Information that control module 2 is obtained, it is contemplated that User may wish to follow the trail of the track checked luggage and find luggage case, and the time of user's expected location is generally aircraft and fallen In half an hour behind ground.After aircraft landing, the control module 2 can open follow-up desired positioning time according to user Positioning service, meets the requirement for following the trail of luggage case after user gets off the plane in time.

Example IV

The embodiment of the present invention four provides a kind of control method of Intelligent luggage carrier.Fig. 4 is what the embodiment of the present invention four was provided The flow chart of the control method of Intelligent luggage carrier., can be with as shown in figure 4, the control method of the Intelligent luggage carrier in the present embodiment Including：

Step 101, the unlocking instruction sent by NB-IoT communication modules reception user equipment；

Step 102, according to the unlocking instruction, control lock body module is opened.

Method in the present embodiment, can be realized based on the Intelligent luggage carrier of any of the above-described embodiment offer, method Executive agent can be control module.The principle that implements of methods described is referred to previous embodiment, and here is omitted.

The control method for the Intelligent luggage carrier that the present embodiment is provided, receives user equipment by NB-IoT communication modules and sends Unlocking instruction, and according to the unlocking instruction, control lock body module is opened, and NB-IoT communication modules are compared to traditional GSM The power consumption of communication module is greatly decreased, and can effectively save power consumption, reduces use cost.

Further, methods described can also include：

Obtain and reset the activation instruction that module is produced in the case where user operates；

According to the activation instruction, MO business is initiated to the NB-IoT communication modules, the NB-IoT communications mould is activated Block.

Further, methods described can also include：

The timing location information that user equipment is sent, the timing location information are received by the NB-IoT communication modules Include the time of reservation positioning；

According to the timing location information, the NB-IoT communication modules application default TAU cycles are controlled；

After the TAU cycles of the NB-IoT communication modules expire, according to the time of the reservation positioning and current time Time difference, be again the NB-IoT communication modules application TAU cycles, until reach it is described reservation positioning time；

After the time of the reservation positioning is reached, the locating module is controlled to proceed by positioning and by the ground got Reason positional information is sent to user equipment by NB-IoT communication modules.

Further, methods described can also include：

The fixed point location information that user equipment is sent, the fixed point location information are received by the NB-IoT communication modules Including the regional information for needing to be positioned；

After the TAU cycles of each NB-IoT communication modules expire, the locating module is controlled to obtain current ground Manage positional information；

If the geographical location information belongs to the regional information that the needs are positioned, the locating module is controlled to open Beginning is positioned and the geographical location information got is sent into user equipment by NB-IoT communication modules.

Finally it should be noted that：Various embodiments above is merely illustrative of the technical solution of the present invention, rather than its limitations；To the greatest extent The present invention is described in detail with reference to foregoing embodiments for pipe, it will be understood by those within the art that：Its according to The technical scheme described in foregoing embodiments can so be modified, or which part or all technical characteristic are entered Row equivalent substitution；And these modifications or replacement, the essence of appropriate technical solution is departed from various embodiments of the present invention technology The scope of scheme.

Claims (10)

1. a kind of Intelligent luggage carrier, it is characterised in that including：Based on cellular arrowband Internet of Things NB-IoT communication modules, control Module and lock body module；

The NB-IoT communication modules are connected with the control module, the unlocking instruction for receiving user equipment transmission, and will The unlocking instruction is sent to control module；

The control module is connected with the lock body module, for according to the unlocking instruction, controlling the lock body module to open.

2. Intelligent luggage carrier according to claim 1, it is characterised in that also include：Reset module；

The replacement module is connected with the control module, for producing activation instruction in the case where user operates；

The control module is additionally operable to according to the activation instruction, and up MO business is initiated to the NB-IoT communication modules, is swashed The NB-IoT communication modules living.

3. Intelligent luggage carrier according to claim 1, it is characterised in that also include：Locating module；

The locating module is connected with the control module；

The NB-IoT communication modules are additionally operable to：The timing location information that user equipment is sent is received, and the timing is positioned Information is sent to control module, and the timing location information includes the time of reservation positioning；

The control module is additionally operable to：

Receive and store the timing location information, control the NB-IoT communication modules application default TAU cycles；

After the TAU cycles of the NB-IoT communication modules expire, according to it is described reservation positioning time and current time when Between it is poor, be again the NB-IoT communication modules application TAU cycles, until reach it is described reservation positioning time；

After the time of the reservation positioning is reached, the locating module is controlled to proceed by positioning and by the geographical position got Confidence breath is sent to user equipment by NB-IoT communication modules.

4. Intelligent luggage carrier according to claim 1, it is characterised in that also include：Locating module；

The locating module is connected with the control module；

The NB-IoT communication modules are additionally operable to：The fixed point location information that user equipment is sent is received, and by the fixed point location Information is sent to control module, and the fixed point location information includes the regional information for needing to be positioned；

The control module is additionally operable to：

Receive and store the fixed point location information；

After the TAU cycles of each NB-IoT communication modules expire, the locating module is controlled to obtain current geographical position Confidence ceases；

If the geographical location information belongs to the regional information that the needs are positioned, control the locating module start into Row positions and the geographical location information got is sent into user equipment by NB-IoT communication modules.

5. Intelligent luggage carrier according to claim 1, it is characterised in that also include：Physics unlocking module and locating module；

The physics unlocking module is connected with the lock body module, for opening the lock body module under the operation of user；

The control module is additionally operable to：

Receive the physics unlocking instruction that the lock body module is sent after being opened by user by physics unlocking module；

According to the physics unlocking instruction, the NB-IoT communication modules are activated, the geographical location information of user equipment is obtained, and The current geographical location information of luggage case is obtained by the locating module；

If the distance between the geographical location information of user equipment geographical location information current with the luggage case is more than Position threshold, then send information warning by the NB-IoT communication modules to user equipment.

6. the Intelligent luggage carrier according to claim any one of 1-5, it is characterised in that the control module is additionally operable to：

The Flight Information of user is obtained, the Flight Information includes the departure time and landing time of aircraft；

Before the departure time of the aircraft, the TAU for controlling the NB-IoT communication modules application one to exceed the flight time Cycle, make the NB-IoT communication modules in aircraft flight in a dormant state；

After the landing time of the aircraft, MO business is initiated to the NB-IoT communication modules, the NB-IoT is communicated Data bits.

7. a kind of control method of Intelligent luggage carrier, it is characterised in that including：

The unlocking instruction that user equipment is sent is received by NB-IoT communication modules；

According to the unlocking instruction, control lock body module is opened.

8. control method according to claim 7, it is characterised in that also include：

Obtain and reset the activation instruction that module is produced in the case where user operates；

According to the activation instruction, MO business is initiated to the NB-IoT communication modules, the NB-IoT communication modules are activated.

9. the control method according to claim 7 or 8, it is characterised in that also include：

The timing location information that user equipment is sent is received by the NB-IoT communication modules, the timing location information includes Preengage the time of positioning；

According to the timing location information, the NB-IoT communication modules application default TAU cycles are controlled；

After the TAU cycles of the NB-IoT communication modules expire, according to it is described reservation positioning time and current time when Between it is poor, be again the NB-IoT communication modules application TAU cycles, until reach it is described reservation positioning time；

After the time of the reservation positioning is reached, the locating module is controlled to proceed by positioning and by the geographical position got Confidence breath is sent to user equipment by NB-IoT communication modules.

10. the control method according to claim 7 or 8, it is characterised in that also include：

The fixed point location information that user equipment is sent is received by the NB-IoT communication modules, the fixed point location information includes Need the regional information positioned；

After the TAU cycles of each NB-IoT communication modules expire, the locating module is controlled to obtain current geographical position Confidence ceases；

If the geographical location information belongs to the regional information that the needs are positioned, control the locating module start into Row positions and the geographical location information got is sent into user equipment by NB-IoT communication modules.