CN110113411A - A kind of laser management system, method and electronic equipment - Google Patents
A kind of laser management system, method and electronic equipment Download PDFInfo
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- CN110113411A CN110113411A CN201910363523.5A CN201910363523A CN110113411A CN 110113411 A CN110113411 A CN 110113411A CN 201910363523 A CN201910363523 A CN 201910363523A CN 110113411 A CN110113411 A CN 110113411A
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- laser
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- parameter information
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06K—GRAPHICAL DATA READING; PRESENTATION OF DATA; RECORD CARRIERS; HANDLING RECORD CARRIERS
- G06K17/00—Methods or arrangements for effecting co-operative working between equipments covered by two or more of main groups G06K1/00 - G06K15/00, e.g. automatic card files incorporating conveying and reading operations
- G06K17/0022—Methods or arrangements for effecting co-operative working between equipments covered by two or more of main groups G06K1/00 - G06K15/00, e.g. automatic card files incorporating conveying and reading operations arrangements or provisious for transferring data to distant stations, e.g. from a sensing device
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L67/00—Network arrangements or protocols for supporting network services or applications
- H04L67/01—Protocols
- H04L67/10—Protocols in which an application is distributed across nodes in the network
Abstract
The present invention relates to field of laser device technology more particularly to a kind of laser management systems and method.The system includes: an at least laser;Network module, the network module connect an at least laser;Cloud management module, the cloud management module are used to obtain the parameter information of at least one laser by the network module, the state of the laser are managed according to the parameter information.Present embodiment can carry out intelligent management to the laser by cloud management module, network module, and this embodiment improves the intelligences of laser, provide convenience for management laser.
Description
[technical field]
The present invention relates to field of laser device technology more particularly to a kind of laser management systems, method and electronic equipment.
[background technique]
In networked information era, either industrial equipment or consumer electronics, all starts Development by Depending on Network and carry out centralization pipe
Reason, in terms of consumer electronics, for networked instruments than more developed, and in terms of industrial equipment, network management is not to send out very much relatively
It reaches.Laser is also a kind of novel industrial equipment, with the raising of laser quality and the decline of price, current many laser
Device also starts slowly to be applied to consumer field.Also to the management of laser, more stringent requirements are proposed for the extensive use of laser.
[summary of the invention]
The technical problem to be solved in the present invention is to provide a kind of laser management system, method and electronic equipments, solve mesh
Preceding laser manages not intelligent technical problem.
The one aspect of the embodiment of the present invention provides a kind of laser management system, the system comprises:
An at least laser;
Network module, the network module connect an at least laser;
Cloud management module, the cloud management module are used to obtain an at least laser by the network module
The parameter information of device manages the state of the laser according to the parameter information.
Optionally, the parameter information includes fault message, and the cloud management module is specifically used for:
The fault message that at least one laser is obtained by the network module, according to the fault message to institute
It states an at least laser and carries out remote diagnosis.
Optionally, the parameter information includes access right information and uses temporal information, and the cloud management module has
Body is used for:
The access right information of the laser is obtained by the network module and using temporal information, is made according to described
An at least laser is decrypted with authority information and the use temporal information, is encrypted.
Optionally, the cloud management module is also used to:
Control instruction is sent to an at least laser by the network module, so that an at least laser
Device emits laser according to the control instruction or closes laser, and is swashed according to control instruction adjustment described at least one
The operating right of light device.
Optionally, the laser includes information acquisition unit, control unit and data transceiving unit, and the control is single
Member connects the information acquisition unit and the data transceiving unit;
The information acquisition unit is used to acquire the parameter information of the laser, and the parameter information is sent to institute
State control unit;Described control unit controls described in the data transceiving unit forwarding for storing the parameter information
Parameter information;
The cloud management module is for receiving the ginseng that the data transceiving unit is sent by the network module
Number information.
Optionally, the laser further includes data processing unit, and the data processing unit is separately connected the control
Unit and the data transceiving unit;
The data processing unit is packaged for carrying out data parsing and data, and after carrying out the data parsing
Data are sent to described control unit, will carry out the data after the data packing and are sent to the data transceiving unit.
Optionally, the laser further includes command executing unit, and the command executing unit connects described control unit;
The command executing unit is used to execute the operational order of described control unit transmission, and the response cloud pipe
The remote control commands that reason module is sent to the laser.
Optionally, the laser further includes circuit drives and light path control unit,
The circuit drives and light path control unit are used to receive described control unit or the cloud management module
Control, to control the laser transmitting laser or close laser.
Optionally, the laser further includes two dimensional code,
The two dimensional code is for its corresponding laser and the cloud management module to be associated, so that the cloud
The use state of laser described in management module real-time management.
Optionally, the system also includes client modules, the client modules and the cloud management modules to establish
Communication connection;
The client modules are used to inquire the identity and operating status of the laser, and the cloud Xiang Suoshu management module is asked
Troublshooting is sought, and receives the presupposed information of the cloud management module push;
The client modules are also used to obtain the program version information of the laser, according to described program version information
The cloud management module is requested to carry out remote upgrade to the laser.
Optionally, the system also includes third party's interfaces to reserve module, and third party's interface reserves module and connects institute
Laser is stated,
Third party's interface reserves the personalized exploitation that module is used to support the laser.
Optionally, the system also includes local software model, the data transceiving unit connects equipped with first network
Mouthful, the local control software establishes communication connection by the first network interface and the laser;
The local software model is for controlling the laser transmitting laser or closing laser, and control institute
State laser handoff parameter;
It is described local software model be also used to monitor the laser fault alarm information and the laser
Operation conditions.
Optionally, the system also includes third-party application platform, the third-party application platform is separately connected the cloud
Management module and the client modules are held,
The third-party application platform is for converging the corresponding user of the client modules, so that the user converged
It is exchanged on the third-party application platform.
The other side of the embodiment of the present invention, provides a kind of laser management method, and the method is managed applied to cloud
Manage module, which comprises
Obtain the parameter information of at least one laser;
The state of the corresponding laser of the parameter information is managed according to the parameter information.
Optionally, the state for managing the corresponding laser of the parameter information according to the parameter information includes:
The state that its corresponding laser is diagnosed according to the parameter information judges whether the state of the laser is event
Barrier;
If so, issuing preset warning information to the corresponding user of the laser, and judge whether remotely to handle
The failure;
If the failure cannot be handled, control the laser and stop working, and sends process instruction to customer service terminal,
So that the corresponding contact staff of the customer service terminal goes failure described in in-situ processing.
Optionally, the state for managing the corresponding laser of the parameter information according to the parameter information includes:
The environmental information of its corresponding laser geographic location is obtained according to the parameter information;
The corresponding default board emm message of the environmental information is sent to the corresponding user of the laser.
Optionally, the state for managing the corresponding laser of the parameter information according to the parameter information includes:
User's use habit data, the use state data, work of its corresponding laser are obtained according to the parameter information
Make environmental data and historical failure data;
According to user's use habit data, the use state data, the work environment data and described go through
History fault data assesses the performance of the laser, and generates the improvement plan of the laser.
Optionally, the state for managing the corresponding laser of the parameter information according to the parameter information includes:
The access right information of its corresponding laser is obtained according to the parameter information and uses temporal information;
The laser is decrypted according to the access right information and the use temporal information, is encrypted.
The another aspect of the embodiment of the present invention, provides a kind of electronic equipment, comprising: at least one processor;And with
The memory of at least one processor communication connection;Wherein, the memory be stored with can by it is described at least one processing
The instruction that device executes, described instruction is executed by least one described processor, so that at least one described processor is able to carry out
Method as described above.
The embodiment of the invention provides a kind of laser management system and method, the system include an at least laser,
Network module and cloud management module, an at least laser, and will be described according to obtaining itself parameter information
Parameter information is sent to the cloud management module by the network module, and the cloud management module stores the failure letter
It ceases, and manages the state of the laser according to the parameter information.In the present embodiment, mould can be managed by cloud
Block, network module carry out intelligent management to the laser, and this embodiment improves the intelligences of laser, to manage laser
Device is provided convenience.
[Detailed description of the invention]
One or more embodiments are illustrated by the picture in corresponding attached drawing, these exemplary theorys
The bright restriction not constituted to embodiment, the element in attached drawing with same reference numbers label are expressed as similar element, remove
Non- to have special statement, composition does not limit the figure in attached drawing.
Fig. 1 is a kind of structural schematic diagram of laser management system provided in an embodiment of the present invention;
Fig. 2 is the structural schematic diagram of the laser provided in an embodiment of the present invention;
Fig. 3 is a kind of flow chart of laser management method provided in an embodiment of the present invention;
Fig. 4 is a kind of according to parameter information management institute in a kind of laser management method provided in an embodiment of the present invention
State the flow chart of the method for the state of the corresponding laser of parameter information;
Fig. 5 be in a kind of laser management method provided in an embodiment of the present invention another kind according to the parameter information management
The flow chart of the method for the state of the corresponding laser of the parameter information;
Fig. 6 is another in a kind of laser management method provided in an embodiment of the present invention according to the parameter information management
The flow chart of the method for the state of the corresponding laser of the parameter information;
Fig. 7 is the hardware configuration signal of the electronic equipment provided in an embodiment of the present invention for executing the laser management method
Figure.
[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 appreciated that described herein, specific examples are only used to explain the present invention, not
For limiting the present invention.
It should be noted that each feature in the embodiment of the present invention can be combined with each other, in this hair if do not conflicted
Within bright protection scope.In addition, though having carried out the division of functional module in schematic device, show in flow charts
Logical order, but in some cases, it can be with the sequence in the module division being different from schematic device or flow chart
Execute shown or described step.
Referring to Fig. 1, Fig. 1 is a kind of structural schematic diagram of laser management system provided in an embodiment of the present invention.Such as Fig. 1
Shown, which includes: laser 10, network module 20 and cloud management module 30.The laser 10 passes through described
Network module 20 connects the cloud management module 30.
Wherein, the laser 10 is used to acquire the parameter information of itself, and the parameter information is passed through the net
Network module 20 is sent to the cloud management module 30, and the cloud management module 30 swashs according to parameter information management is described
The state of light device.
In the present embodiment, the quantity of the laser 10 can be any number, for example the system 100 includes one
Laser 10 or five lasers 10 etc., the corresponding network module 20 of each laser 10, or per several lasers 10
A corresponding network module 20, whole lasers 10 are connected to the cloud management module 30 by network module 20.
Specifically, referring to Fig. 2, the laser 10 includes: information acquisition unit 101, fault processing unit 102, control
Unit 103 and data transceiving unit 104 processed.Described control unit 103 is separately connected the information acquisition unit 101, described
Fault processing unit 102 and the data transceiving unit 104, the information acquisition unit 101 connect the troubleshooting list
Member 102.
Wherein, the information acquisition unit 101 is used to acquire the parameter information of the laser 10, and by the parameter
Information is sent to the fault processing unit 102 and described control unit 103.The parameter information specifically includes the electricity of laser
Stream, voltage, temperature, humidity, laser runing time, the laser parameter that user uses, power, frequency, duration of opening the light use mould
Formula, the factory unique identifier of laser, the model of laser, the pumping source information of laser, cold water plate temperature, water flow, event
Hinder information (including historical failure information), access right information and uses temporal information, the geographical location of laser, laser institute
Environmental information etc. in geographical location.The information acquisition unit 101 specifically can be various sensors, such as temperature sensing
Device, humidity sensor etc., the information acquisition unit 101 can also be according to being built in processing core when acquiring the parameter information
The algorithm of on piece and the acquisition that the parameter information is carried out in conjunction with the hardware condition of setting.The information acquisition unit 101 exists
It can be the parameter information for periodically acquiring the laser when acquiring the parameter information, wherein the period can lead to
It is remotely located good in advance to cross the cloud management module 30.The information acquisition unit 101 can also be at the laser 10
When working condition, the parameter information is acquired.
When the parameter information of the information acquisition unit 101 acquisition does not include fault message, the laser 10 can be with
Judge the laser 10 with the presence or absence of event according to the running parameter in the parameter information by the fault processing unit 102
Barrier collects fault message and will be on the fault message when the laser 10 is there are the laser 10 when failure, is protected
Reach described control unit 103.Wherein, the running parameter refers to parameter involved when the laser 10 work,
For example the running parameter is operating current, operating voltage, temperature, working time etc..Wherein, the fault processing unit 102
The chip that specifically can be preset fault handling algorithm built-in.Wherein, the laser is judged according to the running parameter
10 specifically include with the presence or absence of failure, judge whether the numerical values recited of the running parameter meets the numerical value of preset running parameter
Magnitude range, when not meeting, determining the laser 10, there are failures, and otherwise failure is not present in the laser 10.Wherein,
When judging whether the numerical values recited of the running parameter meets the numerical values recited range of preset running parameter, it can be basis and obtain
Some running parameter in the running parameter got is judged, for example, being judged according to the operating power of laser 10
The laser 10 whether there is failure, when the operating power is not within the scope of preset normal power, determine described sharp
Light device 10 breaks down.Alternatively, being judged according to the electric current of the laser 10 or voltage or temperature or humidity described
Laser 10 whether there is failure, when the numerical value of any one parameter not in the normal range when, then determine the laser
Device 10 breaks down.In the present embodiment, when detecting that the laser 10 breaks down, laser is protected at the first time
10, loss caused by failure is reduced to minimum, wherein the laser 10 is protected specifically to can be by described control unit 103
It controls the power-off of laser 10 to stop working, can also be that controlling the laser 10 by the cloud management module 30 stops
Work.Certainly, in practical applications, the protection of the laser 10 can also be stored other than allowing it to stop working immediately
Its fault message, and laser 10 described in the corresponding user of the laser 10 is notified to break down.Wherein it is possible to be described
103 active of control unit prompts the laser 10 to break down to the user, is also possible to manage mould by the cloud
Block 30 controls described control unit 103, and to issue the laser 10 to the user, there are the prompt informations of failure.
It should be noted that above-mentioned fault processing unit 102 can be used as the laser 10 one is self-existent
Module is also desirably integrated into described control unit 103, executes the fault processing unit 102 by described control unit 103
Repertoire.
In addition, above-mentioned detect the laser 10 with the presence or absence of failure, when the laser 10 by fault processing unit 102
There are when failure, the failure can be handled by described control unit 103, i.e., the failure be handled in itself by laser 10.
The failure can also be handled by cloud management module 30, i.e., the described cloud management module 30 is obtained by the network module 20
The fault message of the laser 10 carries out remote diagnosis to the laser 10 according to the fault message.
Described control unit 103 specifically can be MCU (Microcontroller Unit, micro-control unit), be used for
Store the parameter information.Described control unit 103, can be according to the factory of the laser when storing the parameter information
Unique identifier carries out induction-arrangement storage to the parameter information.It is more in number of lasers, and the parameter information
When data volume is huger, it can first classify to the parameter information, then be packaged sorted parameter information
Compression, and store and be packaged compressed parameter information, it is of course also possible to which the compressed parameter information of packing is uploaded to institute
Cloud management module 30 is stated, management module 30 stores the parameter information beyond the clouds.Described control unit 103 is also used to according to institute
It states parameter information and parameter configuration is carried out to the laser 10, it is to be understood that the different types of laser 10 of different model
There is the configuration data of oneself, its configuration information is not also identical under different use conditions, and therefore, laser 10 must be supported
The flexible configuration of data.In the present embodiment, described control unit 103 carries out parameter to the laser 10 according to parameter information
Configuration, which is specifically included, carries out parameter configuration to the laser 10 according to parameters such as model, the types of the laser 10, to obtain
The configuration information of the laser 10 is taken, the configuration information has different permissions.The configuration information includes the laser
The Status Flag of each module of device, the Status Flag are used for when the laser 10 executes various instructions according to the state
Mark makes corresponding processing.It should be noted that described control unit 103 in addition to according to the parameter information to the laser
Device 10 carries out that the configuration information of the laser 10 can also be obtained from the cloud management module 30 except parameter configuration, and
And it can also be from the local configuration information for obtaining the laser 10.Described control unit 103 is also used to the ginseng that will be stored
Number information is sent to cloud management module 30 by the data transceiving unit 104.
The data transceiving unit 104 is that the laser 10 sends data and receives the external interface of data, the number
Has the interaction of the data under plurality of application scenes according to Transmit-Receive Unit 104, either in home environment or cable network environment
Or in wireless network environment, the laser 10 can be made to pass through the data transceiving unit 104 and communicating with external device.
Specifically, the data transceiving unit 104 includes at least two different network interfaces, the data transceiving unit is specifically used for
The corresponding network interface of the networked environment is determined according to the networked environment of the laser 10, so that communication link is established, and
And the parameter information and the fault message are sent according to the communication link.For example, the net of the data transceiving unit 104
Network interface includes GPRS interface, WLAN interface, USB interface, USART interface etc., can be used under home environment USB interface or
Person USART interface and local software establish communication link, to be communicated;WLAN interface can be used under cable network
Communication link is established with external device, to be communicated;GPRS interface can be used under wireless network or based on WIFI
Communication link is established with external device, to be communicated.
In some other embodiment, equally referring to Fig. 2, the laser 10 further includes data processing unit 105, institute
It states data processing unit 105 and is separately connected described control unit 103 and the data transceiving unit 104.The data processing list
First 105 are packaged for carrying out data parsing and data, and the data after progress data parsing are sent to described control unit
103, so that the data after 103 pairs of described control unit parsings are handled, for example, the data after the parsing are the cloud
The information collection instruction that management module 30 is sent controls the information after control unit 103 gets the information collection instruction
Acquisition unit 101 instructs according to the information collection and carries out information collection to the laser 10.The data processing unit 105
It is also used to carry out the data after the data packing and is sent to the data transceiving unit 104, so that the data transmit-receive list
Outwardly equipment sends the data after being packaged to member 104.Wherein, the data processing unit 105 is parsed and is packaged to data
When be to be carried out based on preset agreement.Further, the data processing unit 105 is after being packaged the data, can be with
Data packet is encrypted, certainly, data processing unit 105 can also solve encrypted data packet when parsing data
It is close.
In some other embodiment, equally referring to Fig. 2, the laser 10 further includes command executing unit 106, institute
It states command executing unit 106 and connects described control unit 103, the command executing unit 106 is for executing described control unit
103 operational orders sent, and the remote control commands that the response cloud management module 30 is sent to the laser 10.
Intelligent software inside laser 10 can execute various operational orders, and the every operation to laser is held to instruction
Row, therefore, the function that laser 10 is realized is more, and the instruction for needing to be arranged is also more, all by the every operation to laser
It is summarized as corresponding instruction, described instruction is executed by the command executing unit 106.Received by command executing unit 106
Instruction can be the operational order that control unit 103 issues in laser 10, is also possible to cloud management module 30 and passes through network
The instruction that module 20 is sent to laser 10, these instructions specifically can be, temperature detection instruction, fault detection instruction, control
Laser 10 starts to emit the instruction etc. of laser.
In some other embodiment, equally referring to Fig. 2, the laser 10 further includes circuit drives and light path control
Unit 107, the circuit drives and light path control unit 107 are specifically used for the laser of control laser 10, are final execution
It holds, the sequential control algorithm with circuit and optical path is equipped with inside the laser 10, when laser 10 has light demand out, just
The pumping source of control circuit driving and optical path can be removed according to certain timing according to the configuration information of the laser 10.In this implementation
In example, the circuit drives can be controlled by described control unit 103 and light path control unit 107 goes out light or closes light, it can also
To send out light instruction from the cloud management module 30 to described control unit 103 or close light instruction, thus again by described
Control unit 103 controls the circuit drives and light path control unit 107 goes out light or closes light.
In some other embodiment, equally referring to Fig. 2, the laser 10 further includes external interface unit 108, institute
It states external interface unit 108 and connects institute by the circuit drives and light path control unit 107, the command executing unit 106
State control unit 103.The external interface unit 108 is used to keep the laser 10 and external laser control board logical
News, for example, the external interface unit 108 can be the DB25 of low-power laser, are mainly used for receiving external board
Control signal.The external interface unit 108 includes electrical appliance part and software section, and the electrical appliance part is by optocoupler or mould
Analog quantity acquisition module composition, wherein the optocoupler is used to be isolated the hardware signal of external Control card and laser, the hardware
Software module solution of the signal after light-coupled isolation processing, into the processor of the laser 10, in the processor
Analyse specifying information expressed by the hardware signal.In addition, the external interface unit 108 is also used to keep the laser 10 logical
The status information that the external interface unit 108 sends laser 10 to external Control card is crossed, the status information includes swashing
Whether light device 10 is faulty, and whether laser 10 is working, etc..
In some other embodiment, the laser 10 further includes two dimensional code, and the two dimensional code can be set described
The outer surface of laser 10, the two dimensional code is for closing its corresponding laser 10 with the cloud management module 30
Connection, so that the use state of laser 10 described in 30 real-time management of cloud management module.Laser 10 is more gone back at present
It is to apply in industrial circle, after, the laser 10 for having more and more types is applied to civilian consumer field, in consumer field
It just will appear more applications for sharing economy, be more unmanned management in these application fields.It therefore, can be by sweeping
The modes such as two dimensional code are come using laser 10, and in this case, what is more relied on is the ability of self-management of laser 10,
Cloud management module 30 will real-time management laser 10 service condition.It should be noted that the side in addition to using two dimensional code
Except unmanned management of the formula to realize laser 10, other modes can also be used, for example substitute the two dimension with bar code
Code.
Above embodiments illustrate all modules inside laser 10, it is worth noting that, it can also be according to sharp
The function that light device 10 to be realized increases or deletes a certain module, and Fig. 2 is only merely a kind of knot of the present embodiment laser 10
Structure schematic diagram, and should not be taken as its restriction.
The network module 20 is used to the laser 10 and the cloud management module 30 establishing communication connection, has
Body is to establish to be connected to the network with the data transceiving unit 104 in the laser 10.The network module 20 specifically can be net
Close etc., the network connection established includes wide area Internet and local area network.Wherein, it when the network is local area network, can take
The networking management system of a set of laser is built, for example, all lasers 10 inside an integrated mill can form one
Laser network disposes the management software of laser 10 in the local area network of factory, so as to the interior all laser that direct a factory
Device 10.
The cloud management module 30 specifically can be a server, or the server consisted of several servers
Cluster or a cloud computing service center.In the present embodiment, the cloud management module 30 is for storing the laser
The parameter information that device 10 is sent, and manage according to the parameter information state of the laser 10.
Wherein, the parameter information includes fault message, and the cloud management module 30 can be according to the fault message
Remote diagnosis is carried out to the laser 10, i.e., the failure according to present in the laser 10 detected and causes to break down
The reason of to laser 10 carry out breakdown maintenance, the breakdown maintenance includes adjusting the size etc. of parameter in the parameter information.
Wherein, the parameter information includes access right and using temporal information, and the cloud management module 30 can be with
The laser is decrypted according to the access right and using temporal information, is encrypted.It is understood that due to laser
Device is expensive, it usually needs is set using permission and service life to individual lasers, generally passes through artificial encrypting and decrypting
Mode is realized, for example, manually encrypting to a certain access right of laser, is made using in the time to this as defined in it
Decrypted, allowed a user to using the permission with permission, reach it is described as defined in using the time after the access right is carried out again
Encryption, avoids user from continuing to use the permission.However this needs to pay time cost and substance cost, and whole process can give
User causes less friendly user experience.Therefore, the present embodiment remotely controls laser 10 by cloud management module 30, right
The access right information of laser 10 and encrypted, decrypted using temporal information, it is easy to operate, save manpower and material resources and
Also user experience will not be reduced while guaranteeing the interests of manufacturer.
Optionally, the cloud management module 30 is also used to divide the laser 10 according to the parameter information
Analysis, the result of the analysis are used to instruct the research and development of the laser.Wherein, the cloud management module 30 can count each
Then the parameter information of laser 10 analyzes the parameter information of statistics, will show that analysis result such as includes user using most
More laser parameters, the average duration that laser uses, the common failure of laser, so as to according to these analysis result guidances
The Research Emphasis of next step is researched and developed, and finds the weak link of existing laser 10, existing laser 10 is changed
It is good etc..
It optionally, include being controlled according to the parameter information according to the state that the parameter information manages the laser 10
10 upload information of laser, the information of the upload include the identity information of laser, location information, operating status letter
Breath, runing time information etc.;The information of the upload further includes the remote control commands sent to the laser 10, described remote
Process control instruction includes the control instruction to laser, i.e., emits laser according to the control instruction or close laser, described remote
Process control instruction further includes laser permission change directive etc.;The information of the upload further includes statisticalling analyze the laser 10
Job information and fault message.
In the present embodiment, laser 10, network module 20 and cloud management module 30 form a laser network, at this
In laser network, remote diagnosis is carried out to laser 10 by cloud management module 30, so as to grasp laser 10 immediately
Safe condition can protect laser 10 in first time, loss caused by failure is narrowed down at least as far as possible.In addition,
Cloud management module 30 is managed also according to state of the parameter information to the laser 10, is compared to traditional laser
Management system, it is more intelligent and conveniently.
It should be noted that laser 10 and network module 20 are existed as independent individual in above-described embodiment,
In practical applications, the network module 20 is also used as a module loading into the laser 10, with laser 10
Form an organic whole.
In some other embodiment, equally referring to Fig. 1, the system 100 further includes client modules 40, third party
Interface reserves module 50, local software model 60 and third-party application platform 70.
Wherein, the client modules 40 are separately connected the cloud management module 30 and the third-party application platform
70, third party's interface reserves module 50 and the local software model 60 is separately connected the laser 10.
The client modules 40 are used to inquire the identity and operating status of the laser 10, and the cloud Xiang Suoshu manages mould
Block 30 requests troublshooting, and receives the presupposed information that the cloud management module 30 pushes.The client modules 40 have
Body can be the website APP WEB or wechat public platform etc., can be applied to various mobile terminals, such as intelligent hand
Machine, tablet computer, laptop, Intelligent bracelet etc..The client modules 40 are usually by the corresponding use of the laser 10
Family accesses.User can inquire the identity information of the laser 10 by the client modules 40, for example user can be with
It is inquired according to No. SN (machine serial number) in client modules 40 major parameter and the date of manufacture of laser 10, device model,
Deng.User can inquire the operating status of the laser 10 by the client modules 40, for example family can be according to No. SN
The operation data of laser 10, including runing time, historical failure information etc. are inquired in client modules 40.Wherein, client
Module 40 is specifically that the identity and operating status of the laser 10 are obtained from the cloud management module 30.Client modules 40
Troublshooting, such as user can also be requested to report laser for repairment to cloud management module 30 according to No. SN to cloud management module 30
10, after cloud management module 30 gets the repairing information of user, according to the relevant parameter of the corresponding laser of the repairing information
Information makes pre-judgments, and judges whether the laser is faulty, and analysis is there are the maximum reason of failure, then cloud management module
30 can send maintenance direction, such as update software, depot repair etc. to after-sales staff based on the analysis results.
In addition, the client modules 40 can also receive the presupposed information that the cloud management module 30 pushes, for example,
After user, which logs in client modules 40 using client, to register, cloud management module 30 gets the registration information of user
Afterwards, maintenance such as relevant to the laser that the user uses is pushed to the user according to the registration information of the user to know
Knowledge and points for attention etc..The presupposed information can also be the advertising information etc. of other products relevant to laser 10.
In addition, the client modules 40 are also used to receive the information inquiry of user, for example, user can be in client mould
Block 40 inquires the program version of laser, while can inquire whether have more new version, and the function point of more new version, if
User needs updated function, and the client modules 40 obtain the journey of the laser 10 from the cloud management module 30
Sequence version information requests the cloud management module 30 remotely to rise the laser 10 according to described program version information
Grade.Wherein, before program update, cloud management module 30 can read the operating status of laser 10, judge that laser 10 is worked as
It is preceding whether to go out light, if going out light, postpone to upgrade, to user's use after laser 10 is upgraded again.
Thereby, it is possible to realize the remote upgrade of laser 10.
Third party's interface is reserved module 50 and is connect with the laser 10, can be an independent module,
It can be the module loaded on the laser 10.In order to facilitate user in the existing some functions of laser 10 again
New exploitation is made, the stickiness of user and product are enhanced, therefore third party's interface is set and reserves module 50.The third party
Interface, which reserves module 50, specifically can be API open interface, be used to support the personalized exploitation of the laser 10, described a
Property melt hair and refer to carrying out newly the laser 10 in conjunction with the handling characteristics of user oneself or the factors such as interest of user
Function exploitation.
The local software model 60 connects the laser 10, is specifically the first net with the laser 10
Network interface connection, wherein the first network interface is set on the data transceiving unit 104.The first network interface
It refers to specifically can be USB interface or USART for the interface for being communicatively coupled laser 10 and local software
Interface etc..In the present embodiment, the local software model 60 is a kind of localization control tool of laser 10, than
Such as, in no network communication, the not no application of movable signal, the local software model 60 can be used serial ports with
Laser 10 is communicated, and the local software model 60 can be localized pipe to the laser 10 as a result,
Reason, wherein the localization management goes out light and Guan Guang, switched laser device 10 particular by transmission instruction control laser 10
Parameter, and monitor the fault alarm information of laser 10, the operation conditions etc. of laser 10.In the present embodiment, described
Local software model 60 is a kind of Added Management means of laser network management, in the use process of client, if swashed
Light device 10 breaks down, when not can determine that is laser 10 the problem of either the Control card of laser 10 the problem of when, can
To use the local software model 60 in the form of instruction, is communicated with laser 10, do not depend on laser 10
Control card operates laser 10, and user can thus be helped to monitor whether laser 10 has event.In addition, working as some users only
The light that needs simply to open the light/close operation, without complicated high speed laser operations when, so that it may it is soft using the local control
Part module 60 carries out laser operations, and command adapted thereto also can be used, communicated with laser 10.
The third-party application platform 70 converges so that described for converging the corresponding user of the client modules 40
User exchanges on the third-party application platform 70.Its essence is a users, and exchange is discussed for the third-party application platform
Community can be applied to various mobile terminals in the form of APP or website etc..The corresponding user of the client modules 40
It is the user for having registered to use the laser 10, these users can carry out technology on the third-party application platform 70
Exchange, and other unregistered ordinary users also accessible third-party application platform 70.The third-party application platform
70 are also connected with the cloud management module 30, and cloud management module 30 carries out back-stage management to the third-party application platform 70,
It can filter, store and analyze the exchange of information of user, thus the product quality of improving laser device 10.
The embodiment of the invention provides a kind of laser management system, which includes laser, network module and cloud
Management module is held, the laser includes information acquisition unit, fault processing unit, control unit and data transceiving unit,
Wherein, the parameter information of the laser of acquisition is sent to fault processing unit and control unit by the information acquisition unit, therefore
Barrier processing unit judge that the laser whether there is failure according to the parameter information, in the laser there are when failure,
Protection is carried out to the laser and the fault message of collection is sent to control unit, described control unit passes through the number
The parameter information and the fault message are sent to the cloud management module according to Transmit-Receive Unit and the network module,
The cloud management module stores the fault message and the parameter information, and according to the parameter information and the failure
Information carries out remote diagnosis to the laser.Wherein, described in the cloud management module is also used to be managed according to parameter information
The state of laser.In the present embodiment, intelligent pipe can be carried out to the laser by cloud management module, network module
Reason, and cloud management module can be to there are the lasers of failure to carry out remote diagnosis, and this embodiment improves lasers
Intelligence, provide convenience for the maintenance of laser.In addition, the system can also include client modules, third party's interface
Reserved module, local software model and third-party application platform, further improve the system by these modules
The intelligence of system facilitates the management of laser, improves the usage experience of laser user.
Referring to Fig. 3, Fig. 3 is a kind of flow chart of laser management method provided in an embodiment of the present invention, this method is answered
For above-mentioned cloud management module 30, this method comprises:
S201, the parameter information for obtaining at least one laser;
Wherein, the parameter information specifically includes the electric current of laser, voltage, temperature, humidity, laser runing time,
The laser parameter that user uses, power, frequency, duration of opening the light, use pattern, the factory unique identifier of laser, laser
Model, the pumping source information of laser, cold water plate temperature, water flow, fault message (including historical failure information), access right
Information and use temporal information, the geographical location of laser, the environmental information of laser geographic location etc..
In the present embodiment, the parameter information of an available laser, or the ginseng of multi-station laser is obtained simultaneously
Number information.When obtaining the parameter information of multi-station laser, the production for the laser that acquired parameter information can be corresponding
Product sequence number association, consequently facilitating the parameter information of management multi-station laser.
S202, the state that the corresponding laser of the parameter information is managed according to the parameter information.
In the present embodiment, include: according to the state that the parameter information manages the corresponding laser of the parameter information
The state that its corresponding laser is diagnosed according to the parameter information judges whether the state of the laser is failure;If so,
To the laser, corresponding user issues preset warning information, and judges whether remotely handle the failure;If no
The failure can be handled, the laser is controlled and stops working, and sends process instruction to customer service terminal, so that the customer service
The corresponding contact staff of terminal goes failure described in in-situ processing.
Wherein, judge that the laser is specifically included with the presence or absence of failure according to the parameter information, judge the parameter
Whether information meets preset parameter information range, when not meeting, determine the laser there are failure, the otherwise laser
Failure is not present in device.Wherein, it when judging whether the parameter information meets preset parameter information range, can be according to acquisition
To parameter information in some parameter information judged, for example, being judged according to the operating power of laser described
Laser determines that the laser goes out when the operating power is not within the scope of preset normal power with the presence or absence of failure
Existing failure.Alternatively, whether judging the laser according to the electric current of the laser or voltage or temperature or humidity
There are failure, when the numerical value of any one parameter not in the normal range when, then determine that the laser 10 breaks down.
It should be noted that whether the state that the laser can also be judged by other methods is failure, and not only
It is limited to aforesaid way.
Wherein, cloud management module, can be according to laser after determining that specifically which platform or which platform break down
The unique identifier of device searches its corresponding user information, then passes through short message, mail or phone according to the user information
Mode issue the user with preset warning information.It is reported in addition, the cloud management module can also directly be sent to laser
Alert instruction, the laser receives the alarm command, preset warning information is issued the user on the laser, described
Warning information specifically can be the report sent out in the way of sound or light or vibration or sound, light, vibration combination
Alert information.
Cloud management module analyzes its failure original after receiving the warning information of laser, according to the parameter information
Cause determines whether the failure that can remotely handle laser according to failure cause.
Wherein, the process instruction sent to customer service terminal include the identity information of laser, laser failure cause,
Time of making the product of laser, laser history logging, etc..
Wherein, if the failure can be handled, the failure of the laser is remotely handled by cloud management module.
Above-described embodiment can give the troubleshooting of first time to the laser of failure, by the damage of laser
It is reduced to minimum, improves the reliability and user experience of laser.
In some other embodiment, referring to Fig. 4, described corresponding according to the parameter information management parameter information
The state of laser include:
S2021, the environmental information that its corresponding laser geographic location is obtained according to the parameter information;
Global positioning system can be installed on laser, to obtain the geographical location of the laser.It can also be
It, can be with according to the geographical location of laser described in the acquisition of information such as the IP address of the laser after laser networking
The geographical location of the laser is obtained by other methods.
The environmental information mainly includes the corresponding climatic information in the geographical location, for example, weather condition, air humidity,
Temperature etc..
The corresponding user of S2022, Xiang Suoshu laser sends the corresponding default board emm message of the environmental information.
The corresponding board maintenance of the climatic information is obtained according to the climatic information in the above-mentioned geographical location got
Information can prevent as a result, so that the board emm message is sent to the corresponding user of the laser because of weather in advance
Reason and be likely to result in laser damage generation.
Wherein, the preset board emm message includes, for example, paying attention to carrying out warming measure to machine, paying attention to radix saposhnikoviae
Etc..
Above-described embodiment can send board emm message to laser in conjunction with the environmental information of laser position,
So as to reduce the probability of happening of laser failure.
In some other embodiment, referring to Fig. 5, described corresponding according to the parameter information management parameter information
The state of laser include:
S2023, user's use habit data that its corresponding laser is obtained according to the parameter information, use state number
According to, work environment data and historical failure data;
Wherein, user's use habit data refer to some Common Parameters of the user when operating laser, such as
The working time etc. of laser.The use state data include the use duration of laser, use pattern etc..The building ring
Border data refer to the environmental information, such as air humidity, temperature etc. of the laser position.The historical failure data
The i.e. described laser causes the entire reason data of failure when breaking down in history.
S2024, according to user's use habit data, the use state data, the work environment data and
The historical failure data performance current to the laser is assessed, and generates the improvement plan of the laser.
Wherein, the improvement plan is used to improve the performance of the laser.The improvement plan specifically can be based on use
Family use habit data, the use state data, the work environment data and the historical failure data go to determine, than
Such as, some bad operating habits of user cause the reduced performance of laser, then to can be user correct for the improvement plan
Operate the operation manual of laser.
User's use habit data, the use state data, work environment data that above-described embodiment passes through analysis laser
And historical failure data, the performance of laser is assessed, and provide the scheme for extending laser performance, the implementation
Mode extends the use time of laser, improves the reliability and stability of laser.
In some other embodiment, referring to Fig. 6, described corresponding according to the parameter information management parameter information
The state of laser include:
S2025, the access right information that its corresponding laser is obtained according to the parameter information and use temporal information;
S2026, the laser is decrypted according to the access right information and the use temporal information, is added
It is close.
It is understood that since laser is expensive, it usually needs be set using permission to individual lasers and make
It with the time limit, is generally realized by way of artificial encrypting and decrypting, for example, manually adding to a certain access right of laser
It is close, the access right is decrypted using in the time as defined in it, is allowed a user to using the permission, it is described defined reaching
Using encrypting to the access right after the time again, user is avoided to continue to use the permission.However this needs to pay generation time
Valence and substance cost, and whole process can cause less friendly user experience to user.Therefore, the present embodiment passes through cloud
Management module remotely controls laser, access right information to laser and is encrypted, is decrypted using temporal information, operates
It is convenient, it saves manpower and material resources but also user experience will not be reduced while guaranteeing the interests of manufacturer.
Optionally, the cloud management module be also based on the various data of the laser obtained in above-described embodiment into
According to statistics, which includes the use habit of user to line number, and the use parameter of laser, user's uses time, the event of laser
Hindering type, somewhere, what is where used is most, and what is where used is fewer for laser distribution, etc..According to the data of statistics
New product development and new product is instructed to improve, cloud control module has collected a large amount of user using data, and to various data
It is counted, will obtain the most commonly used laser parameter of user, the average duration that laser uses, the general failure feelings of laser
Condition, these data can instruct the Research Emphasis of research and development next step, and find the weak link of product, in research and development from now on
Cheng Zhong, Research Emphasis important in inhibiting of these data to guidance research and development.
Optionally, two dimensional code can also be set on laser, by laser application to unmanned management field, Yong Huke
Come using laser in a manner of by scanning the two-dimensional code, at this point, cloud management module will laser described in real-time management
Service condition.
Referring to Fig. 7, Fig. 7 is the hard of the electronic equipment of light device management method described in execution provided in an embodiment of the present invention
Part structural schematic diagram, as shown in fig. 7, the electronic equipment 300 includes:
One or more processors 301 and memory 302, in Fig. 7 by taking a processor 301 as an example.
Processor 301 can be connected with memory 302 by bus or other modes, to be connected by bus in Fig. 7
For.
Memory 302 is used as a kind of non-volatile computer readable storage medium storing program for executing, can be used for storing non-volatile software journey
Sequence, non-volatile computer executable program and module, such as the corresponding journey of laser management method in the embodiment of the present invention
Sequence instruction/module.Non-volatile software program, instruction and mould of the processor 301 by operation storage in the memory 302
Block realizes the laser management of above method embodiment thereby executing the various function application and data processing of server
Method.
One or more of modules are stored in the memory 302, when by one or more of processors
When 301 execution, the laser management method in above-mentioned any means embodiment is executed, for example, executing in Fig. 3 described above
Method and step S2023 in method and step S2021 to step S2022 in method and step S201 to step S202, Fig. 4, Fig. 5 is extremely
Method and step S2025 to step S2026 in step S2024, Fig. 6.
Method provided by the embodiment of the present invention can be performed in the said goods, has the corresponding functional module of execution method and has
Beneficial effect.The not technical detail of detailed description in the present embodiment, reference can be made to method provided by the embodiment of the present invention.
The electronic equipment of the embodiment of the present invention exists in a variety of forms, including but not limited to server, other is waited to have number
According to the electronic device of interactive function.
The embodiment of the invention provides a kind of non-volatile computer readable storage medium storing program for executing, and the non-volatile computer can
It reads storage medium and is stored with computer executable instructions, which executes above-mentioned any means by electronic equipment
Laser management method in embodiment, for example, executing the method and step S201 to step S202, Fig. 4 in Fig. 3 described above
In method and step S2021 to step S2022, the method and step in the method and step S2023 to step S2024 in Fig. 5, Fig. 6
S2025 to step S2026.
The embodiment of the invention provides a kind of computer program products, including are stored in non-volatile computer readable storage
Calculation procedure on medium, the computer program include program instruction, are computer-executed constantly, make when described program instructs
The computer executes the laser management method in above-mentioned any means embodiment, for example, executing in Fig. 3 described above
Method and step S2023 in method and step S2021 to step S2022 in method and step S201 to step S202, Fig. 4, Fig. 5 is extremely
Method and step S2025 to step S2026 in step S2024, Fig. 6.
The apparatus embodiments described above are merely exemplary, wherein described, unit can as illustrated by the separation member
It is physically separated with being or may not be, component shown as a unit may or may not be physics list
Member, it can it is in one place, or may be distributed over multiple network units.It can be selected according to the actual needs
In some or all of the modules achieve the purpose of the solution of this embodiment.
Through the above description of the embodiments, those of ordinary skill in the art can be understood that each embodiment
The mode of general hardware platform can be added to realize by software, naturally it is also possible to realize by hardware.Ordinary skill
Personnel are understood that realize that all or part of the process in above-described embodiment method is can to instruct phase by computer program
The hardware of pass is completed, and the program can be stored in a computer-readable storage medium, which when being executed, can wrap
Include the process of the embodiment such as above-mentioned each method.Wherein, the storage medium can be magnetic disk, CD, read-only memory
(Read-Only Memory, ROM) or random access memory (Random Access Memory, RAM) etc..
Finally, it should be noted that the above embodiments are merely illustrative of the technical solutions of the present invention, rather than its limitations;At this
It under the thinking of invention, can also be combined between the technical characteristic in above embodiments or different embodiment, step can be with
It is realized with random order, and there are many other variations of different aspect present invention as described above, for simplicity, they do not have
Have and is provided in details;Although the present invention is described in detail referring to the foregoing embodiments, the ordinary skill people of this field
Member is it is understood that it is still possible to modify the technical solutions described in the foregoing embodiments, or to part of skill
Art feature is equivalently replaced;And these are modified or replaceed, each reality of the present invention that it does not separate the essence of the corresponding technical solution
Apply the range of a technical solution.
Claims (19)
1. a kind of laser management system, which is characterized in that the system comprises:
An at least laser;
Network module, the network module connect an at least laser;
Cloud management module, the cloud management module are used to obtain at least laser by the network module
Parameter information manages the state of the laser according to the parameter information.
2. system according to claim 1, which is characterized in that the parameter information includes fault message, the cloud pipe
Reason module is specifically used for:
The fault message that at least one laser is obtained by the network module, according to the fault message to it is described extremely
A few laser carries out remote diagnosis.
3. system according to claim 1, which is characterized in that when the parameter information includes access right information and uses
Between information, the cloud management module is specifically used for:
The access right information of the laser is obtained by the network module and uses temporal information, according to the right to use
Limit information and the use temporal information are decrypted an at least laser, encrypt.
4. system according to claim 1, which is characterized in that the cloud management module is also used to:
Control instruction is sent to an at least laser by the network module, so that an at least laser root
Emit laser according to the control instruction or close laser, and an at least laser is adjusted according to the control instruction
Operating right.
5. system according to any one of claims 1 to 4, which is characterized in that the laser include information acquisition unit,
Control unit and data transceiving unit, described control unit connect the information acquisition unit and the data transceiving unit;
The information acquisition unit is used to acquire the parameter information of the laser, and the parameter information is sent to the control
Unit processed;Described control unit controls the data transceiving unit and forwards the parameter for storing the parameter information
Information;
The cloud management module is used to receive the data transceiving unit and is believed by the parameter that the network module is sent
Breath.
6. system according to claim 5, which is characterized in that the laser further includes data processing unit, the number
Described control unit and the data transceiving unit are separately connected according to processing unit;
The data processing unit is packaged for carrying out data parsing and data, and will carry out the data after the data parsing
It is sent to described control unit, the data after the data packing will be carried out and be sent to the data transceiving unit.
7. system according to claim 5, which is characterized in that the laser further includes command executing unit, the life
Execution unit is enabled to connect described control unit;
The command executing unit is used to execute the operational order of described control unit transmission, and the response cloud manages mould
The remote control commands that block is sent to the laser.
8. system according to claim 7, which is characterized in that the laser further includes circuit drives and light path control list
Member,
The circuit drives and light path control unit are used to receive the control of described control unit or the cloud management module,
To control the laser transmitting laser or close laser.
9. system according to claim 5, which is characterized in that the laser further includes two dimensional code,
The two dimensional code is for its corresponding laser and the cloud management module to be associated, so that the cloud manages
The use state of laser described in module real-time management.
10. system according to claim 5, which is characterized in that the system also includes client modules, the client
Module and the cloud management module establish communication connection;
The client modules are used to inquire the identity and operating status of the laser, the request event of the cloud Xiang Suoshu management module
Barrier reports for repairment, and receives the presupposed information of the cloud management module push;
The client modules are also used to obtain the program version information of the laser, are requested according to described program version information
The cloud management module carries out remote upgrade to the laser.
11. system according to claim 10, which is characterized in that the system also includes third party's interfaces to reserve module,
Third party's interface reserves module and connects the laser,
Third party's interface reserves the personalized exploitation that module is used to support the laser.
12. system according to claim 11, which is characterized in that the system also includes local software model, institutes
Data transceiving unit is stated equipped with first network interface, the local control software passes through the first network interface and the laser
Device establishes communication connection;
The local software model emits laser or closing laser for controlling the laser, and controls described sharp
Light device handoff parameter;
The local software model is also used to monitor the fortune of the fault alarm information and the laser of the laser
Row situation.
13. system according to claim 10, which is characterized in that described the system also includes third-party application platform
Third-party application platform is separately connected the cloud management module and the client modules,
The third-party application platform is for converging the corresponding user of the client modules, so that the user converged is in institute
It states and is exchanged on third-party application platform.
14. a kind of laser management method is applied to cloud management module, which is characterized in that the described method includes:
Obtain the parameter information of at least one laser;
The state of the corresponding laser of the parameter information is managed according to the parameter information.
15. according to the method for claim 14, which is characterized in that described to manage the parameter letter according to the parameter information
The state for ceasing corresponding laser includes:
The state that its corresponding laser is diagnosed according to the parameter information judges whether the state of the laser is failure;
If so, issuing preset warning information to the corresponding user of the laser, and judge whether remotely to handle described
Failure;
If the failure cannot be handled, control the laser and stop working, and sends process instruction to customer service terminal, so that
The corresponding contact staff of the customer service terminal goes failure described in in-situ processing.
16. according to the method for claim 14, which is characterized in that described to manage the parameter letter according to the parameter information
The state for ceasing corresponding laser includes:
The environmental information of its corresponding laser geographic location is obtained according to the parameter information;
The corresponding default board emm message of the environmental information is sent to the corresponding user of the laser.
17. according to the method for claim 14, which is characterized in that described to manage the parameter letter according to the parameter information
The state for ceasing corresponding laser includes:
User's use habit data, the use state data, building ring of its corresponding laser are obtained according to the parameter information
Border data and historical failure data;
According to user's use habit data, the use state data, the work environment data and history event
Barrier data assess the performance of the laser, and generate the improvement plan of the laser.
18. wanting 14 to 17 described in any item methods according to right, which is characterized in that described to manage institute according to the parameter information
The state for stating the corresponding laser of parameter information includes:
The access right information of its corresponding laser is obtained according to the parameter information and uses temporal information;
The laser is decrypted according to the access right information and the use temporal information, is encrypted.
19. a kind of electronic equipment characterized by comprising
At least one processor;And
The memory being connect at least one described processor communication;Wherein,
The memory is stored with the instruction that can be executed by least one described processor, and described instruction is by described at least one
It manages device to execute, so that at least one described processor is able to carry out the described in any item methods of claim 14 to 18.
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