CN103217654A - Touch screen remote monitoring fault diagnosis system and method thereof - Google Patents

Abstract

The invention provides a touch screen remote monitoring fault diagnosis system, and particularly relates to a touch screen monitoring system. The touch screen remote monitoring fault diagnosis system comprises a touch screen main body. The touch screen main body comprises a touch screen control module, wherein the touch screen control module is connected with a communication interface, and the touch screen main body is connected with a server used for remote monitoring through the communication interface of the touch screen control module. The touch screen control module is also connected with a lamp tube detection module. The lamp tube detection module tests state parameters of an emitting lamp tube and a receiving lamp tube of the touch screen main body and transmits the tested state parameters to the touch screen control module. By means of the touch screen remote monitoring fault diagnosis system, the remote monitoring of a touch screen is realized, a user can learn about abnormal working conditions of the touch screen in time with the help of the touch screen remote monitoring fault diagnosis system, and the occurrence of a failure can be warned in advance. Meanwhile, a solution is provided, a failure diagnosis is conducted on the touch screen at low cost, and the after-sale service efficiency is improved.

Description

Touch-screen remote monitoring fault diagnosis system and method

Technical field

The present invention relates to the touch screen technology field, be specifically related to a kind of touch panel monitor system system.

Background technology

Infrared touch panel is widely used in every field as a branch of touch-screen gradually owing to its a series of advantage, has also brought the difficult problem of follow-up maintenance and fault diagnosis along with extensive, the large-scale application of infrared touch panel.Existing infrared touch panel in use, the user can't discern its unusual performance state, thereby can't carry out early warning to the fault of infrared touch panel, to some important use occasions, carry out fault diagnosis after breaking down and maintenance has influenced normal application, after touch-screen breaks down simultaneously, the technical support personnel needs at the scene the touch-screen that breaks down to be carried out a series of tests, the reason that breaks down with judgement, also need to invite the collaborative failure judgement reason of a plurality of experienced technical specialists in the time of necessary and propose solution, these all are unfavorable for the raising of after-sales service efficient, increase the workout cost of fault, strengthened the application cost of infrared touch panel.

Summary of the invention

The object of the present invention is to provide a kind of touch-screen remote monitoring fault diagnosis system, solve above technical matters.

The present invention also aims to provide a kind of touch-screen remote monitoring method for diagnosing faults, solve above technical matters.

Technical matters solved by the invention can realize by the following technical solutions:

Touch-screen remote monitoring fault diagnosis system, comprise a touch-screen main body, described touch-screen main body comprises a touch screen control module, it is characterized in that, described touch screen control module connects a communication interface, and described touch-screen main body is used for the server end of remote monitoring by the communication interface connection one of described touch screen control module;

Described touch screen control module also connects a fluorescent tube detection module, described fluorescent tube detection module is tested the emission fluorescent tube of described touch-screen main body and is received the state parameter of fluorescent tube, and with the test state parameter be sent to described touch screen control module, by described touch screen control module described state parameter is sent to server end.

Described fluorescent tube detection module comprises a light intensity pick-up unit, and described fluorescent tube detection module is tested the emission fluorescent tube of described touch-screen main body and received the light intensity parameter of fluorescent tube, and the light intensity parameter of test is sent to described touch screen control module.

Described touch screen control module comprises a microprocessor system, described microprocessor system is provided with emission fluorescent tube that is used for senses touch screen main body and the fluorescent tube self-check program that receives the fluorescent tube performance state, described fluorescent tube self-check program is provided with a decision rule, described decision rule is divided into reasonable working range according to the state parameter of described fluorescent tube detection module test with described emission fluorescent tube and the performance state that receives fluorescent tube, critical working range, unreasonable working range, described microprocessor system judges the emission fluorescent tube and receives fluorescent tube according to described decision rule and is in reasonable working range, critical working range, during unreasonable working range, the state parameter of test is sent to described server end by described touch screen control module.

Described microprocessor system judges the emission fluorescent tube and receives fluorescent tube according to described decision rule when being in critical working range and unreasonable working range, by described touch screen control module the state parameter of test is sent to described server end.Realized the remote monitoring of touch-screen main body, can in time help the user to find the abnormal information of touch-screen main body, so that in time carry out relevant emergent preparation.

Described server end is provided with the fault diagnosis database, the solution database that described fault diagnosis database is provided with failure information database and is complementary with described failure message, described server end mates the state parameter of described touch screen control module transmission and the fault data performance of described failure information database, and with corresponding solution be sent to the long-range client terminal display that is connected of described server end on, be used to point out next step the maintenance and the fault exclusion program of user of touch-screen main body.Described client terminal display can be to be positioned at on-the-spot computing machine, the display terminal of portable set.

Described fault diagnosis database is a static database, and described fault diagnosis database storing has a fault data of setting the touch-screen main body of quantity to show and corresponding solution.

Described fault diagnosis database is a dynamic data base, and described fault diagnosis database shows the failure information database that writes down and deposit in described fault diagnosis database to fault data, and the solution that storage simultaneously is complementary is to the solution database.Described dynamic data base is in use expanded, and constitutes a dynamic data base with autonomous learning pattern.

Described touch screen control module also connects a geographical location information module, described geographical location information module is a GPS locating module, described GPS locating module sends to described server end with the positional information of described touch-screen main body, is convenient to the position judgment of server end to the touch-screen main body that breaks down.

Touch-screen remote monitoring method for diagnosing faults, comprise a touch-screen main body, described touch-screen main body comprises a touch screen control module, described touch screen control module connects a communication interface, the communication interface of described touch-screen main body by described touch screen control module connects a server end that is used for remote monitoring, it is characterized in that: may further comprise the steps:

The first step: described touch screen control module starts described touch-screen main body;

Second step: described touch screen control module comprises the emission fluorescent tube of senses touch screen main body and receives the fluorescent tube self-check program of the performance state of fluorescent tube that described touch-screen main body is moved described fluorescent tube self-check program;

The 3rd step: described touch screen control module sends to the described server end that is used for remote monitoring with the test data of described fluorescent tube self-check program by communication interface;

The 4th step: described server end is judged the fault data performance of described touch-screen main body, and with corresponding solution be sent to the long-range client terminal display that is connected of server end on.

Also can send a signal to described touch screen control module in the described first step, start described touch-screen main body by described touch screen control module by described server end.Realize the selection monitoring of server end to specific touch screen main body.

Described touch screen control module also connects a fluorescent tube detection module, and described fluorescent tube detection module is tested the emission fluorescent tube of described touch-screen main body and received the state parameter of fluorescent tube, and the state parameter of test is sent to described touch screen control module.

Described fluorescent tube detection module comprises a light intensity pick-up unit, and described fluorescent tube detection module is tested the emission fluorescent tube of described touch-screen main body and received the light intensity parameter of fluorescent tube, and the light intensity parameter of test is sent to described touch screen control module.

Described touch screen control module comprises a microprocessor system, described microprocessor system is provided with described fluorescent tube self-check program, described fluorescent tube self-check program is provided with a decision rule, described decision rule is divided into reasonable working range according to the state parameter of described fluorescent tube detection module test with described emission fluorescent tube and the performance state that receives fluorescent tube, critical working range, unreasonable working range, described microprocessor system judges the emission fluorescent tube and receives fluorescent tube according to described decision rule and is in reasonable working range, critical working range, during unreasonable working range, the state parameter of test is sent to described server end by described touch screen control module.

When the performance state that described microprocessor system judges the emission fluorescent tube according to described decision rule and receives fluorescent tube is in critical working range and unreasonable working range, the state parameter of test is sent to described server end by described touch screen control module.Realized the remote monitoring of touch-screen main body, can in time help the user to find the abnormal information of touch-screen main body, so that in time carry out relevant emergent preparation.

Described fluorescent tube self-check program may further comprise the steps:

The first step: revise described touch-screen main body the emission fluorescent tube from the number of axle, gather the light intensity parameter of the corresponding reception fluorescent tube of described emission fluorescent tube by described fluorescent tube detection module, the light intensity parameter and the described decision rule of described reception fluorescent tube are compared, determine whether the performance state of described emission fluorescent tube is being on the geometrical axis within the rational working range;

Second the step: revise described touch-screen main body the reception fluorescent tube from the number of axle, the light intensity parameter of gathering described reception fluorescent tube by described fluorescent tube detection module, the light intensity parameter and the described decision rule of described reception fluorescent tube are compared, determine whether the performance state of described reception fluorescent tube is being on the geometrical axis within the rational working range;

The 3rd step: the light intensity parameter of preserving described emission fluorescent tube, reception fluorescent tube;

The 4th step: the light intensity parameter under the number of axle is carried out the digital filtering analysis of time shaft to described emission fluorescent tube and described reception fluorescent tube respectively, judges according to the state parameter after the digital filtering analysis whether its performance on time shaft is in rational duty.

Described server end is provided with the fault diagnosis database, the solution database that described fault diagnosis database is provided with failure information database and is complementary with described failure message, described server end mates the test data of described touch screen control module transmission and the fault data performance of described failure information database, and corresponding solution is sent on the client terminal display.

Beneficial effect: owing to adopt above technical scheme, the present invention has realized the remote monitoring of touch-screen, helps the user in time to understand unusual touch-screen duty, and the fault that gives warning in advance takes place; Simultaneously can provide solution in real time, cheaply touch-screen be carried out fault judgement; Improve after sale service efficient.

Embodiment

For technological means, creation characteristic that the present invention is realized, reach purpose and effect is easy to understand, below further set forth the present invention.

Touch-screen remote monitoring fault diagnosis system, comprise a touch-screen main body, the touch-screen main body comprises a touch screen control module, and touch screen control module connects a communication interface, and the touch-screen main body is used for the server end of remote monitoring by the communication interface connection one of touch screen control module.Touch screen control module also connects a fluorescent tube detection module, the emission fluorescent tube of fluorescent tube detection module test touch screen main body and the state parameter of reception fluorescent tube, and with the test state parameter be sent to touch screen control module, by described touch screen control module described state parameter is sent to server end.

The fluorescent tube detection module comprises a light intensity pick-up unit, and fluorescent tube detection module test touch is shielded the emission fluorescent tube of main body and received the light intensity parameter of fluorescent tube, and the light intensity parameter of test is sent to touch screen control module.

Touch screen control module comprises a microprocessor system, the microprocessor system is provided with emission fluorescent tube that is used for senses touch screen main body and the fluorescent tube self-check program that receives the fluorescent tube performance state, the fluorescent tube self-check program is provided with a decision rule, the performance state that decision rule will be launched fluorescent tube and reception fluorescent tube according to the state parameter of fluorescent tube detection module test is divided into reasonable working range, critical working range, unreasonable working range, the microprocessor system judges that according to decision rule emission fluorescent tube and reception fluorescent tube are in reasonable working range, critical working range, during unreasonable working range, the state parameter of test is sent to server end by touch screen control module.Realized the remote monitoring of touch-screen main body, can in time help the user to find the abnormal information of touch-screen main body, so that in time carry out relevant emergent preparation.

The microprocessor system judges the emission fluorescent tube and receives fluorescent tube when being in critical working range and unreasonable working range according to decision rule, by touch screen control module the state parameter of testing is sent to server end.

Server end is provided with the fault diagnosis database, the solution database that the fault diagnosis database is provided with failure information database and is complementary with failure message, server end mates the state parameter of touch screen control module transmission and the fault data performance of failure information database, and with corresponding solution be sent to the long-range client terminal display that is connected of server end on, be used to point out next step the maintenance and the fault exclusion program of user of touch-screen main body.Client terminal display can be to be positioned at on-the-spot computing machine, the display terminal of portable set.

The fault diagnosis database is a static database, and the fault diagnosis database storing has a fault data of setting the touch-screen main body of quantity to show and corresponding solution.The fault diagnosis database is preferably a dynamic data base, and the fault diagnosis database shows the failure information database that writes down and deposit in the fault diagnosis database to fault data, and the solution that storage simultaneously is complementary is to the solution database.Dynamic data base is in use expanded, and constitutes a dynamic data base with autonomous learning pattern.

Touch screen control module also connects a geographical location information module, the geographical location information module is a GPS locating module, the GPS locating module sends to server end with the positional information of touch-screen main body, is convenient to the position judgment of server end to the touch-screen main body that breaks down.

Touch-screen remote monitoring method for diagnosing faults, comprise a touch-screen main body, the touch-screen main body comprises a touch screen control module, touch screen control module connects a communication interface, the communication interface of touch-screen main body by touch screen control module connects a server end that is used for remote monitoring, it is characterized in that: may further comprise the steps:

The first step: touch screen control module starts the touch-screen main body;

Second step: touch screen control module comprises the emission fluorescent tube of senses touch screen main body and receives the fluorescent tube self-check program of the performance state of fluorescent tube, touch-screen main body operation fluorescent tube self-check program;

The 3rd step: touch screen control module sends to the server end that is used for remote monitoring with the test data of fluorescent tube self-check program by communication interface;

The 4th step: server end is judged the fault data performance of touch-screen main body, and with corresponding solution be sent to the long-range client terminal display that is connected of server end on.

Also can send a signal to touch screen control module in the first step, start the touch-screen main body by touch screen control module by server end.Realize the selection monitoring of server end to specific touch screen main body.

Touch screen control module also connects a fluorescent tube detection module, and fluorescent tube detection module test touch is shielded the emission fluorescent tube of main body and received the state parameter of fluorescent tube, and the state parameter of test is sent to touch screen control module.The fluorescent tube detection module comprises a light intensity pick-up unit, and fluorescent tube detection module test touch is shielded the emission fluorescent tube of main body and received the light intensity parameter of fluorescent tube, and the light intensity parameter of test is sent to touch screen control module.

Touch screen control module comprises a microprocessor system, the microprocessor system is provided with the fluorescent tube self-check program, the fluorescent tube self-check program is provided with a decision rule, the performance state that decision rule will be launched fluorescent tube and reception fluorescent tube according to the state parameter of fluorescent tube detection module test is divided into reasonable working range, critical working range, unreasonable working range, the microprocessor system judges that according to decision rule emission fluorescent tube and reception fluorescent tube are in reasonable working range, critical working range, during unreasonable working range, the state parameter of test is sent to server end by touch screen control module.Realized the remote monitoring of touch-screen main body, can in time help the user to find the abnormal information of touch-screen main body, so that in time carry out relevant emergent preparation.In the time of performance state that the microprocessor system judges the emission fluorescent tube according to decision rule and receive fluorescent tube also can be set be in critical working range and unreasonable working range, the state parameter of test is sent to server end by touch screen control module.

The fluorescent tube self-check program may further comprise the steps:

The first step: revise the touch-screen main body the emission fluorescent tube from the number of axle, light intensity parameter by the corresponding reception fluorescent tube of fluorescent tube detection module collection emission fluorescent tube, the light intensity parameter and the decision rule that receive fluorescent tube are compared, determine whether the performance state of emission fluorescent tube is being on the geometrical axis within the rational working range;

Second step: revise the touch-screen main body the reception fluorescent tube from the number of axle, receive the light intensity parameter of fluorescent tube by the collection of fluorescent tube detection module, the light intensity parameter and the decision rule that receive fluorescent tube are compared, determine whether the performance state that receives fluorescent tube is being on the geometrical axis within the rational working range;

The 3rd step: the light intensity parameter of preserving emission fluorescent tube, reception fluorescent tube;

The 4th step: the light intensity parameter under the number of axle is carried out the digital filtering analysis of time shaft to emission fluorescent tube and reception fluorescent tube respectively, judges according to the state parameter after the digital filtering analysis whether its performance on time shaft is in rational duty.

Server end is provided with the fault diagnosis database, the solution database that the fault diagnosis database is provided with failure information database and is complementary with failure message, server end mates the test data of touch screen control module transmission and the fault data performance of failure information database, and corresponding solution is sent on the client terminal display.

For example: fault data shows as the luminous intensity of emission fluorescent tube when being lower than a setting threshold, and the performance degradation of fault diagnosis database prompting emission fluorescent tube informs that the position of the emission fluorescent tube that breaks down and prompting change.

When fault data showed as and receives fluorescent tube and do not have signal output, the prompting of fault diagnosis database received the fluorescent tube fault, informed that the position of the reception fluorescent tube that breaks down and prompting change.

Fault data shows as when wherein one section emission fluorescent tube does not have signal to export with the reception fluorescent tube, and fluorescent tube and reception circuit board damage that fluorescent tube was connected or connecting line disengagement are launched in the prompting of fault diagnosis database prompting fault analysis database, need change.

Fault data shows as server end and touch-screen main body can't communication the time, and fault diagnosis database prompting master control borad damages, and needs to change master control borad.

Fault data shows as computing machine can relate to the touch-screen main body, but data are unreasonable for a long time, fault diagnosis database prompting master control borad damages, or Petting Area or be that non-Petting Area has unknown object to be detained for a long time, reminds the client to check whether Petting Area has foreign matter to exist.

More than show and described ultimate principle of the present invention and principal character and advantage of the present invention.The technician of the industry should understand; the present invention is not restricted to the described embodiments; that describes in the foregoing description and the instructions just illustrates principle of the present invention; without departing from the spirit and scope of the present invention; the present invention also has various changes and modifications, and these changes and improvements all fall in the claimed scope of the invention.The claimed scope of the present invention is defined by appending claims and equivalent thereof.

Claims (10)

1. touch-screen remote monitoring fault diagnosis system, comprise a touch-screen main body, described touch-screen main body comprises a touch screen control module, it is characterized in that, described touch screen control module connects a communication interface, and described touch-screen main body is used for the server end of remote monitoring by the communication interface connection one of described touch screen control module; Described touch screen control module also connects a fluorescent tube detection module, described fluorescent tube detection module is tested the emission fluorescent tube of described touch-screen main body and is received the state parameter of fluorescent tube, and with the test state parameter be sent to described touch screen control module, by described touch screen control module described state parameter is sent to server end.

2. touch-screen remote monitoring fault diagnosis system according to claim 1, it is characterized in that: described fluorescent tube detection module comprises a light intensity pick-up unit, described fluorescent tube detection module is tested the emission fluorescent tube of described touch-screen main body and is received the light intensity parameter of fluorescent tube, and the light intensity parameter of test is sent to described touch screen control module.

3. touch-screen remote monitoring fault diagnosis system according to claim 2, it is characterized in that: described touch screen control module comprises a microprocessor system, described microprocessor system is provided with emission fluorescent tube that is used for senses touch screen main body and the fluorescent tube self-check program that receives the fluorescent tube performance state, described fluorescent tube self-check program is provided with a decision rule, described decision rule is divided into reasonable working range according to the state parameter of described fluorescent tube detection module test with described emission fluorescent tube and the performance state that receives fluorescent tube, critical working range, unreasonable working range, described microprocessor system judges the emission fluorescent tube and receives fluorescent tube according to described decision rule and is in reasonable working range, critical working range, during unreasonable working range, the state parameter of test is sent to described server end by described touch screen control module.

4. touch-screen remote monitoring fault diagnosis system according to claim 2, it is characterized in that: described touch screen control module comprises a microprocessor system, described microprocessor system is provided with emission fluorescent tube that is used for senses touch screen main body and the fluorescent tube self-check program that receives the fluorescent tube performance state, described fluorescent tube self-check program is provided with a decision rule, described decision rule is divided into reasonable working range according to the state parameter of described fluorescent tube detection module test with described emission fluorescent tube and the performance state that receives fluorescent tube, critical working range, unreasonable working range, described microprocessor system judges the emission fluorescent tube and receives fluorescent tube according to described decision rule when being in critical working range and unreasonable working range, by described touch screen control module the state parameter of test is sent to described server end.

5. according to any described touch-screen remote monitoring fault diagnosis system of claim 1 to 4, it is characterized in that: described server end is provided with the fault diagnosis database, the solution database that described fault diagnosis database is provided with failure information database and is complementary with described failure message, the state parameter that described server end sends described touch screen control module shows with the fault data of described failure information database and mates, and with corresponding solution be sent to the long-range client terminal display that is connected of described server end on; Described fault diagnosis database is a static database, and described fault diagnosis database storing has a fault data of setting the touch-screen main body of quantity to show and corresponding solution.

6. according to any described touch-screen remote monitoring fault diagnosis system of claim 1 to 4, it is characterized in that: described server end is provided with the fault diagnosis database, the solution database that described fault diagnosis database is provided with failure information database and is complementary with described failure message, the state parameter that described server end sends described touch screen control module shows with the fault data of described failure information database and mates, and with corresponding solution be sent to the long-range client terminal display that is connected of described server end on; Described fault diagnosis database is a dynamic data base, described fault diagnosis database shows the failure information database that writes down and deposit in described fault diagnosis database to fault data, the solution that storage simultaneously is complementary is to the solution database, described dynamic data base is in use expanded, and constitutes a dynamic data base with autonomous learning pattern.

7. touch-screen remote monitoring method for diagnosing faults, comprise a touch-screen main body, described touch-screen main body comprises a touch screen control module, described touch screen control module connects a communication interface, the communication interface of described touch-screen main body by described touch screen control module connects a server end that is used for remote monitoring, it is characterized in that: may further comprise the steps:

The first step: described touch screen control module starts described touch-screen main body;

Second step: described touch screen control module comprises the emission fluorescent tube and the reception of senses touch screen main body

The fluorescent tube self-check program of the performance state of fluorescent tube, described touch-screen main body is moved described fluorescent tube self-check program;

The 3rd step: described touch screen control module sends to the described server end that is used for remote monitoring with the test data of described fluorescent tube self-check program by communication interface;

The 4th step: described server end is judged the fault data performance of described touch-screen main body, and with corresponding solution be sent to the long-range client terminal display that is connected of server end on.

8. touch-screen remote monitoring method for diagnosing faults according to claim 7 is characterized in that:

Described touch screen control module also connects a fluorescent tube detection module, and described fluorescent tube detection module is tested the emission fluorescent tube of described touch-screen main body and received the state parameter of fluorescent tube, and the state parameter of test is sent to described touch screen control module;

Described fluorescent tube detection module comprises a light intensity pick-up unit, and described fluorescent tube detection module is tested the emission fluorescent tube of described touch-screen main body and received the light intensity parameter of fluorescent tube, and the light intensity parameter of test is sent to described touch screen control module.

9. touch-screen remote monitoring method for diagnosing faults according to claim 7, it is characterized in that: described touch screen control module comprises a microprocessor system, described microprocessor system is provided with described fluorescent tube self-check program, described fluorescent tube self-check program is provided with a decision rule, described decision rule is divided into reasonable working range according to the state parameter of described fluorescent tube detection module test with described emission fluorescent tube and the performance state that receives fluorescent tube, critical working range, unreasonable working range, described microprocessor system judges the emission fluorescent tube and receives fluorescent tube according to described decision rule and is in reasonable working range, critical working range, during unreasonable working range, the state parameter of test is sent to described server end by described touch screen control module.

10. touch-screen remote monitoring fault diagnosis system according to claim 7 and determination methods is characterized in that: described fluorescent tube self-check program may further comprise the steps:

The first step: revise described touch-screen main body the emission fluorescent tube from the number of axle, gather the light intensity parameter of the corresponding reception fluorescent tube of described emission fluorescent tube by described fluorescent tube detection module, the light intensity parameter and the described decision rule of described reception fluorescent tube are compared, determine whether the performance state of described emission fluorescent tube is being on the geometrical axis within the rational working range;

Second the step: revise described touch-screen main body the reception fluorescent tube from the number of axle, the light intensity parameter of gathering described reception fluorescent tube by described fluorescent tube detection module, the light intensity parameter and the described decision rule of described reception fluorescent tube are compared, determine whether the performance state of described reception fluorescent tube is being on the geometrical axis within the rational working range;

The 3rd step: the light intensity parameter of preserving described emission fluorescent tube, reception fluorescent tube;

The 4th step: the light intensity parameter under the number of axle is carried out the digital filtering analysis of time shaft to described emission fluorescent tube and described reception fluorescent tube respectively, judges according to the state parameter after the digital filtering analysis whether its performance on time shaft is in rational duty.