CN108627195A - A kind of intelligent detecting method and intelligent checking system that memory body module is detected - Google Patents

Abstract

The intelligent detecting method and intelligent checking system that the present invention relates to a kind of to be detected memory body module, to be followed the steps below one by one to the testing component being set in multiple detection devices simultaneously：Detecting step, recording step and sequence set-up procedure.In detecting step, control device will control multiple detection devices, and N number of detection operation is carried out according to initial order to the testing component being arranged on.In recording step, control device each detection device will be executed each detection operation as a result, correspondence be stored as testing result information.In sequence set-up procedure, the number that statistics is executed failure by control device in which detection operation is most, and promotes sequence of the most detection operation of the number for executing and failing in initial order according to this, generates optimization sequence.

Description

A kind of intelligent detecting method and intelligent checking system that memory body module is detected

Technical field

The invention belongs to intelligent measurement field more particularly to a kind of intelligent detecting methods being detected to memory body module And intelligent checking system.

Background technology

Currently, the mode of detection memory body module is using multiple detection devices mostly seriatim to each in the prior art Memory body module carries out scheduled various detections, and this detection mode generally requires to take a substantial amount of time.In addition, existing memory The equipment of body module detection is grafting and the removal for carrying out memory body module in a manual manner mostly, and therefore, it is necessary to a large amount of Manpower simultaneously takes a substantial amount of time, and can just complete the detection operation of a large amount of memory body module.

Invention content

The main purpose of the present invention is to provide a kind of detection method and detecting systems, remember in the prior art to improve Body module use detection method and detecting system there are the bad problems of detection efficiency.

To achieve the goals above, the present invention provides a kind of detection method, to be filled simultaneously to being set to multiple detections The testing component set follows the steps below one by one：

One detecting step：Control multiple detection devices using a control device so that each detection device according to According to an initial order, N number of detection operation is carried out to the testing component being arranged on；Wherein, when testing component does not pass through When m-th detection operation performed by corresponding detection device, indicate that m-th detection operation executes failure；Wherein, N, M are Positive integer more than 1, and M ＜ N；One recording step：Using the control device, each detection device is executed into each institute That states detection operation is stored as a testing result information as a result, corresponding to；One sequence set-up procedure：Using the control device, according to According to multiple testing result information, the number that statistics executes failure in which detection operation is most, is promoted execute mistake according to this Sequence of the most detection operation of the number that loses in the initial order, generates optimization sequence.

To achieve the goals above, the present invention also provides a kind of detecting system, it includes：Multiple detection devices, a control Device and at least a shifting apparatus.For each detection device a memory body module is arranged, each detection device can be to being set to Memory body module thereon carries out N number of detection operation, and generates a testing result information according to this；Each detection device is to being set to When memory body module thereon completes N number of detection operation, generation one can be corresponded to and complete signal；Wherein, when memory body module does not lead to When crossing the m-th detection operation performed by corresponding detection device, indicate that m-th detection operation executes failure；Wherein, N, M For the positive integer more than 1, and M ＜ N.Control device is electrically connected multiple detection devices, and control device can control each detection dress It sets and N number of detection operation is carried out to the memory body module being arranged on according to an initial order；Wherein, control device can be according to more A testing result information, the number for counting which detection operation execution failure is most, promotes the number for executing and failing according to this most Sequence and generation one optimization sequence of more detection operations in initial order.Shifting apparatus is electrically connected control device, transfer Device is controlled by control device and multiple memory body modules is installed in multiple detection devices, or will be installed on each detection dress The memory body module removal set.Wherein, control device controls shifting apparatus, will first be set in each detection device and be completed The memory body module removal of N number of detection operation, and after not detected memory body module is installed on multiple detection devices, control Device will control each detection device according to optimization sequence, and N number of detection operation is carried out to the memory body module being arranged on.

The beneficial effects of the present invention are：Detection device can be substantially improved and find out defective products in multiple to be measured group of inspections Speed, to which the efficiency of whole detection be substantially improved.

Description of the drawings

Fig. 1 is the flow diagram of the first embodiment of the detection method of the present invention

Fig. 2A, 2B, 2C are the block schematic diagram of the first embodiment of the detection method of the present invention

Fig. 3 is the flow diagram of the second embodiment of the detection method of the present invention

Fig. 4 is the flow diagram of the 3rd embodiment of the detection method of the present invention

Fig. 5 is the block schematic diagram of the first embodiment of the detecting system of the present invention

Fig. 6 is the block schematic diagram of the second embodiment of the detecting system of the present invention

Fig. 7 is the block schematic diagram of the 3rd embodiment of the detecting system of the present invention

Accompanying drawings symbol description：

S1、S2、S21、S22、S23、S24、S3：Process step

A：Control device

A1、A2、A3：Control signal

B1、B2、B3：Detection device

B11、B21、B31：Testing result information

C1、C2、C3、C4、C5、C6、C7、C8、C9：Testing component

1：Detecting system

10：Control device

101：Detection information

102：Test signal

103：Power off signal

104A：Transfer signal

104B：Reinstall signal

105：Confirm signal

11：Communication module group

20：Detection device

201：Complete signal

202：Testing result information

203A：It is ready to complete signal

203B：Prepare fail signal

21：Detect module

30：Shifting apparatus

40：Parameter storage device

401：Detection operation parameter

50：Input unit

501：Input signal

60：Display device

70：Distal end data storage device

80：Bogey

8011：Detecting result information

81：Detect module

C：Memory body module

Specific implementation mode

Below in conjunction with the accompanying drawings, it elaborates to embodiment.

It is the flow diagram of the first embodiment of the detection method of the present invention, Fig. 2 also referring to Fig. 1 and Fig. 2, Fig. 1 For the block schematic diagram of the detection method of the present invention.The detection method of the present invention, to be filled simultaneously to being set to multiple detections The testing component set follows the steps below one by one：

One detecting step S1：Multiple detection devices are controlled using a control device, so that each detection device is according at the beginning of one Beginning sequence carries out N number of detection operation to the testing component being arranged on；Wherein, when testing component does not pass through corresponding inspection When surveying the m-th detection operation performed by device, indicate that m-th detection operation executes failure；Wherein, N, M are just whole more than 1 Number, and M ＜ N；

One recording step S2：Using control device, each detection device is executed into being stored up as a result, corresponding to for each detection operation Save as a testing result information；

One sequence set-up procedure S3：Using control device, according to multiple testing result information, statistics is made in which detection The number that industry executes failure is most, the most detection operation of the number that promotion execution according to this fails, the sequence in initial order, To generate optimization sequence.

As shown in Fig. 2A, Fig. 2 B and Fig. 2 C, display control unit A utilizes three detection devices B1, B2, B3, and points 3 times right Block schematic diagram when 9 different testing component C1, C2, C3 ... C9 are detected.In the detection device that this is lifted quantity, The item number for the detection operation lifted in the quantity of testing component C1, C2, C3, C4, C5, C6, C7, C8, C9 and following explanation, All it is only demonstration aspect, those quantity all can be according to changes in demand in practical application.

As shown in Figure 2 A, when control device A sends 3 control signal A1, with the detection device of control 3 B1, B2, B3 pairs three When a testing component C1, C2, C3 are detected operation (corresponding to aforementioned detecting step S1), control device A is that control is each Detection device B1, B2, B3 to testing component C1, C2, C3 for being arranged on, sequentially execute 4 detection operation Test1, Test2、Test3、Test4。

Assuming that detection device B1 is during carrying out 4 detection operations one by one to the testing component C1 being arranged on, Detection device B1 judges testing component C1 not by detection operation Test3 and detection operation Test4, then control device A will distinguish Record detection operation Test3 and detection operation Test4 is respectively provided with 1 time and executes failure (corresponding to aforementioned recording step S2). As shown in Figure 2 A, in recording step S2, control device A can record testing component in corresponding to testing result information B11 Number and its (be, for example, that O shown in figure indicates that, by detection, X expressions are not led to corresponding to the testing result of 4 detection operations Cross detection)：In practical applications, the content that described testing result information B11, B21, B31 are included can be become according to demand Change, is not limited with the number of testing component and its corresponding to the testing result of 4 detection operations.

Assuming that detection device B2 is during carrying out 4 detection operations one by one to the testing component C2 being arranged on, Detection device B2 judges testing component C2 not by detection operation Test3, then control device A will record detection operation Test3 tools Have 2 times and execute failure (corresponding to aforementioned recording step S2), also that is, control device A will each detection operation of cumulative record Execute the number of failure.In the same manner, correspondence is had testing result information B21 by control device A.

Assuming that detection device B3 is during carrying out 4 detection operations one by one to the testing component C3 being arranged on, Detection device B3 judges testing component C3 by 4 detection operations, then control device A, which will be corresponded to only, generates testing result information B31 executes the number of failure without corresponding any one detection operation that adds up.

When three detection devices B1, B2, B3 have all completed 4 inspections to testing component C1, C2, C3 for being arranged on respectively When surveying operation, control device A will execute aforementioned sequence set-up procedure S3；That is, control device A will be according to multiple testing result information Statistics is executed the more detection operation Test3 and detection operation Test4 of the frequency of failure, in initial order by B11, B21, B31 Sequence promoted forward, and formed according to this optimization sequence.That is, 4 detection operations are ordered as in optimization sequence Detection operation Test3, Test4, Test1, Test2.

In practical applications, each detection operation putting in order in optimization sequence can be made according to each detection The number of testing result information corresponding to industry, accumulation execution failure is how many and determines.Also that is, in aforementioned citing, accumulation has 2 Third sequence (referring to the sequence in initial order) by script is promoted to by the secondary detection operation Test3 for executing failure record First sequence (referring to the sequence in optimization sequence), and accumulating has 1 detection operation Test4 for executing failure record then by originally The 4th sequence (referring to the sequence in initial order), be promoted to second sequence (referring to the sequence in optimization sequence)；Detection is made Industry Test1, Test2 is then corresponded to by the first sequence, the second sequence (referring to the sequence in initial order), adjust to third sequence and 4th sequence (referring to the sequence in optimization sequence).

It is limited to execute the number of failure only with reference to detection operation about the sequence , Bu Authority for adjusting multiple detection operations, not In same application, the time being performed with reference to each detection operation is can also be, to determine detection operation in optimization sequence In sequence.For example, can will execute that the time is relatively short, and be performed the suitable of the most detection operation of the frequency of failure Sequence, be advanced in optimization sequence first sequence, in this way, control device A can rapidly judge testing component C1, C2, C3, Whether C4, C5, C6, C7, C8, C9 are defective products.

As shown in Figure 2 B, control device A sends out three control signal A2, to control three detection device B1, B2, B3 second It is secondary to be detected step S1, when carrying out 4 detection operations respectively to testing component C4, C5, C6 for being arranged on respectively, control Device A processed is then to make each detection device B1, B2, B3, and 4 are sequentially carried out to each testing component C4, C5, C6 according to optimization sequence A detection operation Test3, Test4, Test1, Test2.

Assuming that detection device B1, B2, B3 respectively to testing component C4, C5, C6 be detected operation the result is that：To be measured group Part C4, C5, C6 be not all by detection operation Test4, and testing component C6 does not also pass through detection operation Test2.Then, control device Corresponding record detection operation Test1, Test2, Test3, Test4 are accumulated the execution frequency of failure by A respectively：0 time, 1 time, 3 times, 4 times, and after sequence set-up procedure S3, in optimization sequence the sequence of 4 detection operations will become Test4, Test3, Test2, Test1。

As shown in Figure 2 C, control device A sends out three control signal A3, controls three detection device B1, B2, B3 third times It is detected step S1, when being detected operation to testing component C7, C8, C9 for being arranged on respectively, control device A is then It is to make each detection device B1, B2, B3, sequentially carrying out 4 detections to each testing component C4, C5, C6 according to optimization sequence makees Industry Test4, Test3, Test2, Test1.

As described above, the detection method of the present invention, it can be according to detection device to the testing result of testing component, with adjustment For detection device to the testing component of next batch, the sequence of the detection operation successively executed can allow detection device to rear according to this When continuous testing component is detected operation, the detection operation that detection failure may occur can be preferentially carried out, and can be with phase To less detection time, that is, exclude the testing component of detection failure.

Referring to Fig. 3, it is shown as the flow diagram of the second embodiment of the detection method of the present invention.The present embodiment Detection method is suitable for that detection operation is conducted batch-wise to Q testing component using P detection device, and P, Q are just whole more than 1 Number, and Q ＞ P；And the present embodiment and previous embodiment it is maximum the difference is that：In aforementioned recording step and sequence set-up procedure Between, also comprise the steps of：

One transfer step S21：A shifting apparatus is controlled using control device, it, will be each with according to multiple testing result information Testing component in a detection device transfers load to a defective products position or a non-defective unit position；

One installation steps S22：Shifting apparatus is controlled using control device, not detected testing component is installed on multiple Detection device；

One macroanalysis step S23：Using control device, judge that each detection device executes the accumulation of N number of detection operation Whether number is more than a predetermined total amount；

Wherein, when control device judges that each detection device executes the number of N number of detection operation more than the predetermined total amount When, then after first carrying out sequence set-up procedure, then execute detecting step；When control device judges that each detection device executes N number of inspection The number of operation is surveyed, when being less than predetermined total amount, then skip order set-up procedure, and directly execute detecting step.

For example, divide 100 times when with 10 detection devices, 4 detection operations are carried out one by one to 1000 testing components When Test1, Test2, Test3, Test4, it is assumed that predetermined total amount is 20 times.In this way, the sequence set-up procedure S3 is then to examine It surveys after step S1, recording step S2, transfer step S21, installation steps S22 and macroanalysis step S23 repetitiousness execute 20 times It carries out.In other words, described suitable after completing 4 detection operations one by one when 10 detection devices points 20 times are to 200 testing components Sequence set-up procedure S3 is just performed, and before 10 detection device repetitiousness execute 20 detecting step S1, sequence set-up procedure S3 will not be performed.

Specifically, relatively large number of in the total amount of testing component, if sequence set-up procedure S3 is frequently executed, Optimization sequence after may changing 10 times, the problem identical as initial initial order, also that is, executing 10 sequence tune The rapid S3 of synchronizing performs practically no function, in this way, the time not only can not be saved, may waste more times instead.Therefore, to a large amount of When testing component is detected operation, through the design of macroanalysis step S23, it can make caused by sequence set-up procedure S3 Optimization sequence generates desirable influence to subsequent detection operation, that is, accelerate follow-up each detection device judge testing component whether be The speed of defective products.

Referring to Fig. 4, its flow diagram for the 3rd embodiment of the detection method of the present invention.As shown, this reality Apply example and previous embodiment it is maximum the difference is that：It, can be between macroanalysis step S23 and sequence set-up procedure S3 It is to include one than row analytical procedure S22：Using control device, judge that the cumulative frequency that any one detection operation executes failure is It is no to be more than a pre-determined number.

Wherein, when the number that any one detection operation executes failure is more than pre-determined number, then sequence adjustment step is first carried out Suddenly, to promote the detection operation more than pre-determined number in the sequence of initial order, and according to this after formation optimization sequence, then inspection is executed Survey step；When each detection operation executes the number, smaller than pre-determined number of failure, then skip order set-up procedure, and it is straight Connect execution detecting step.

For example, divide 100 times when with 10 detection devices, 4 detection operations are carried out one by one to 1000 testing components When Test1, Test2, Test3, Test4, it is assumed that predetermined total amount is 20 times, and the pre-determined number is 50 times.In this way, the sequence Set-up procedure S3 is then in detecting step S1, recording step S2, transfer step S21, installation steps S22 and macroanalysis step S23 repetitiousness just carries out after executing 20 times.In other words, when 10 detection devices points 20 times are to 200 testing components, 4 are completed one by one After a detection operation, the proportion grading step S24 is just performed, and executes 20 detecting steps in 10 detection device repetitiousness Before S1, proportion grading step S24 will not be performed.

When control device is in proportion grading step S24, judge that one of detection operation executes the cumulative frequency of failure When reaching 50 times, sequence set-up procedure S3 can be just executed；Conversely, control device, in proportion grading step S24, judgement, which does not have, appoints When the cumulative frequency that one detection operation executes failure reaches 50 times, then sequence set-up procedure S3 is not executed, and directly execute inspection Survey step S1.

In other words, 10 detection devices are divided 20 times, after completing 4 detection operations one by one to 200 testing components, if detection is made When the cumulative frequency that industry Test3 executes failure reaches 50 times, then execution sequence set-up procedure S3, by detection operation Test3 in Sequence in initial order is promoted to forward the first sequence, and generates optimization sequence according to this.Also that is, in 200 testing components, There are 50 testing components not by detection operation Test3, indicates 800 other testing components, may have very high Ratio can not equally pass through the test of detection operation Test3.Certainly, in another embodiment, proportion grading step is being executed When S24, if it is 56 times and 5 times to have the execution frequency of failure that detection operation Test3 and detection operation Test4 accumulate respectively, in Can also be together to promote the sequence of detection operation Test4 forward, but not limited to this, also may be used in sequence set-up procedure S3 Only to promote the detection operation for executing failure cumulative frequency and reaching 50 times.

Through the design of macroanalysis step S23 and proportion grading step S24, adjusted although sequence may be greatly reduced The number that step S3 is performed, but it is opposite can substantially avoid unnecessarily sequence adjustment (such as Fan Complex execute sequence and adjust After step S3, the situation of the optimization sequence as initial initial order is but obtained).

It is noted that in practical applications, in transfer step S21, control device can first control each inspection It surveys device and then controls transfer again to cut off the electric connection between each detection device and the testing component being arranged on Detection components in each detection device are transferred load to specific position by device.Thereby, testing component is can avoid to fill with detection In the case of setting electric connection, by shifting apparatus by being removed in detection device, ruined so as to cause testing component or detection device Bad problem occurs.

In addition, before executing detecting step S1, control device can first transmit a test signal to each detection device, To confirm the state of each detection device：When the passback signal that control device receiving detection device is returned, control device Corresponding detection device is then controlled again executes detecting step S1.Specifically, control device can be filled according to each detection Returned signal is set, judges whether detection device is provided with testing component, then control device can be then only control setting There is the detection device of testing component to be detected step；Or control device can be according to each passback signal, to judge to detect Whether device correctly installs testing component, with when testing component is not properly installed, control shifting apparatus is again to be measured to this Component carries out transfer and installation steps.

It illustrating, above-mentioned testing component can be memory body module, and through the inspection that the various embodiments described above are lifted Survey method carries out N number of detection operation to multiple memory body modules, whole detection can be substantially improved using multiple detection devices Efficiency, and can relatively quickly choose, the defective products in multiple memory body modules.Certainly, above-mentioned detection method , Bu Authority limits are answered For in memory body module detection operation, can be applied in any detection operation.

Referring to Fig. 5, it is shown as the block schematic diagram of the first embodiment of the detecting system of the present invention.As shown, The detecting system 1 of the present invention includes multiple detection devices 20, a control device 10 and a shifting apparatus 30 and parameter storage Device 40.Two detection devices 20 and a shifting apparatus 30 are only painted in the present embodiment figure as demonstration, but those devices Quantity can be according to changes in demand, not to be limited as shown in the figure.

Multiple detection devices 20 be electrically connected control device 10, each detection device 20 memory body module C is arranged, and For each detection device 20 to be arranged a memory body module C, each detection device 20 can be to the memory body module C that is arranged on Carry out N number of detection operation.Control device 10 can control each detection device 20 and carry out N to the memory body module C being arranged on A detection operation.

In practical applications, the memory body module C for example can be the memory body plug-in card being inserted in computer equipment, and Each detection device 20 can be comprising corresponding electric mortiser access slot, and each memory body plug-in card, which can then correspond to, is plugged in detection device In 20 electric mortiser access slot；The control device 10 can be then computer equipment, microprocessor etc..Each detection device 20 can be with It includes relevant electronics buckle (not shown) to be, each electronics buckle energy assisted memory body module C is steadily fixedly installed on In detection device 20 (electric mortiser access slot), electronics buckle can also be to be electrically connected control device 10, and control device 10 can be controlled The start of electronics buckle processed.

Shifting apparatus 30 is electrically connected control device 10, and control device 10 can control shifting apparatus 30 by multiple memory bodys Module C is installed in multiple detection devices 20, or the memory body module C that will be installed in each detection device 20, by examining Removal on device 20 is surveyed, and corresponds to and those memory body modules C is transferred load into a non-defective unit position or a defective products position.In reality In, shifting apparatus 30 for example can be mechanical arm.

Parameter storage device 40 stores multiple detection operation parameters 401, and parameter storage device 40 is electrically connected control Device 10, and control device 10 can read at least one of parameter storage device 40 detection operation parameter 401.In practical application In, parameter storage device 40 can be disposed in control device 10, or can be independent storage device, be not subject in this Limitation.

The specific implementation mode of detecting system 1 can be：Control device 10 reads R stored by parameter storage device 40 It is N number of in detection operation parameter, to form a detection information 101；Then, control device 10 transmits institute to each detection device 20 Detection information 101 is stated, makes each detection device 20 according to this, it can be according to the corresponding N number of detection for including in the detection information 101 Job parameter carries out N number of detection operation with an initial order to the memory body module C being arranged on.Each detection device 20 To the memory body module C being arranged on, when carrying out N number of detection operation, detection device 20 can be with corresponding record memory body module C Corresponding to the testing result of each detection operation, a testing result information 202 is formed according to this.When memory body module C does not pass through phase When m-th detection operation performed by corresponding detection device 20, indicate that m-th detection operation executes failure；Wherein, R, N, M For the positive integer more than 1, and R ＞ N, M ＜ N.

When each detection device 20 is to the memory body module C that is arranged on, when completing N number of detection operation, detection device 20, which can correspond to transmission one, completes signal 201 to control device 10, and control device 10 receives any one detection device 20 and transmitted Completion signal 201 after, control device 10 will control shifting apparatus 30, by the memory body mould in corresponding detection device 20 Group C removals, and another memory body module C to be detected is installed in corresponding detection device 20.

Control device 10 is after receiving the testing result information 202 that multiple detection devices 20 are transmitted, 10 energy of control device The number for counting which detection operation execution failure is most, promotes the most detection operation of the number for executing and failing according to this, in Sequence in initial order, to generate optimization sequence.When the control shifting apparatus 30 of control device 10, by each detection device 20 On the memory body module C removals of N number of detection operation are completed, and it is to be detected in being equipped with another in each detection device 20 When memory body module C, control device 10 will control each detection device 20, and make each detection device 20 according to optimization sequence, N number of detection operation is carried out to the memory body module C being arranged on.

20 gradation of multiple detection devices is controlled to a large amount of testing component (the i.e. alleged note of the present embodiment about control device 10 Recall body module), multiple detection operations, and corresponding change initial order according to this are carried out one by one, and form optimization sequence specifically It is bright, it please join in previous embodiment, for the explanation of Fig. 2A, Fig. 2 B and Fig. 2 C, be repeated no more in this.

Referring to Fig. 6, it is shown as the block schematic diagram of the second embodiment of the detecting system of the present invention.As shown, The present embodiment and previous embodiment one of them the difference is that：Detecting system 1 can also include an input unit 50 and One display device 60.

Input unit 50 and display device 60 are electrically connected control device 10.Input unit 50 is grasped to provide user Make, and can correspond to and generate an input signal 501.Control device 10 then can read parameter storage device 40 according to input signal 501 It is N number of in R stored detection operation parameter, to form a detection information 101；Then, control device 10 is to each detection Device 20 transmits the detection information 101, makes each detection device 20 according to this, can be according to corresponding in the detection information 101 Including N number of detection operation parameter, N number of detection operation is carried out to the memory body module C being arranged on an initial order.It is aobvious Showing device 60 is electrically connected control device 10, and control device 10 can control 60 display parameters storage device 40 of display device and be stored up The multiple detection operation parameters 401 deposited；In practical applications, control device 10 can also be that control display device 60 is shown initially Sequence and optimization sequence, the corresponding multiple detection operations of institute.

Specifically, it in parameter storage device 40 can be the detection operation parameter stored corresponding to 20 detection operations 401, and control device 10 can be control display device 60, show that 20 detection projects, user then may be used in its picture Difference to be foundation memory body module C makes each detection according to this through input unit 50 by selecting 10 in 20 detection projects Device 20 carries out 10 detection operations to the memory body module C being arranged on according to an initial order.The input unit 50 E.g. keyboard, slide-mouse etc., in various embodiments, input unit 50 can also be the touch-control being incorporated into display device 60 Panel is not limited in this.

The present embodiment and previous embodiment another difference is that：It can also be and be provided in each detection device 20 One detecting module 21.Whether detecting module 21 is provided with memory body module C to detect in corresponding detection device 20.Control Device 10 is before controlling each detection device 20 and being detected operation to the memory body module C being arranged on, control device 10 Can be that first transmission one tests signal 102 to each detection device 20.

When each detection device 20 receives the test signal 102, the detecting module 21 of each detection device 20, by evidence To detect whether be correctly provided with memory body module C in detection device 20, and steady is transmitted according to this and completes signal 203A or one Prepare fail signal 203B to control device 10.Certainly, in specific implement, detecting module 21 can also be to be detected in detecting When being not provided with memory body module C on device 20, transmits one and be not ready to signal (not shown) to control device 10, in this way, control Device 10 will learn that detection device 20 is to be provided with memory body module C according to this, and control device 10 subsequently will no longer fill the detection Set 20 carry out relevant controls.

When 10 receiving detection device 20 of control device transmitted when being ready to complete signal 203A, control device 10 then corresponds to It controls corresponding detection device 20 and N number of detection operation is carried out to the memory body module C being arranged on.Relatively, work as control When the preparation fail signal 203B that 10 receiving detection device 20 of device is transmitted, the memory body module C in detection device 20 is represented It may not install correctly, at this point, control device 10 can be then to transmit one to reinstall signal 104B to shifting apparatus 30, with Control shifting apparatus 30 reinstalls the memory body module C being set in corresponding detection device 20, then, control device 10 Test signal 102 can be transmitted again to detection device 20, to confirm whether memory body module C is correctly installed in detection On device 20.

The present embodiment and previous embodiment another difference is that：Control device 10 can also include a communication mould Group 11, the communication module group 11 can be communicated with a distal end data storage device 70 and be connected, and control device 10 can then penetrate communication Multiple testing result information 202 are transferred to distal end data storage device 70 by module 11, and make multiple testing result information 202 It is stored in distal end data storage device 70.The distal end data storage device 70 is, for example, cloud server, is filled with multiple detections It sets 20 and is set to distal end servomechanism etc. differently.In another embodiment, the parameter storage device 40 can also be setting In distal end data storage device 70, and control device 10 can then penetrate communication module group 11, to read parameter storage device 40 In multiple detection operation parameters 401.

It is noted that the memory body module C of detection will be completed by examining in control shifting apparatus 30 in control device 10 It surveys on device 20 before removal, control device 10 can first transmit a power-off signal 103 to each detection device 20, so that each Detection device 20 no longer provides electrical power to the memory body module C being arranged on, and then control device 10 just controls transfer dress again 30 are set, by the memory body module C removals in corresponding detection device 20.In this way, by avoidable memory body module C in energization In the case of the problem of being pulled out, and may being damaged.

Referring to Fig. 7, it is shown as the block schematic diagram of the 3rd embodiment of the detecting system of the present invention.As shown, The present embodiment and previous embodiment it is maximum the difference is that：Control device 10, which can also be, is electrically connected a bogey 80, Bogey 80 is to carry multiple memory body module C to be detected, and bogey 80 has a detecting module 81.Detect mould Group 81 generates a detecting result information 8011 according to this to detect whether bogey 80 is provided with memory body module C.

When control device 10 receives the completion signal 201 that any one detection device 20 is transmitted, control device 10 can pass A confirmation signal 105 is passed to bogey 80, detects whether bogey 80 is provided with memory body mould with control detecting module 81 Group C.Then, control device 10 then can be according to detecting result information 8011, to be provided with memory body module C's in bogey 80 In the case of, control shifting apparatus 30 first unloads the memory body module that N number of detection operation is completed in corresponding detection device 20 C, then one of will be set on bogey 80 memory body module C and transfer load in corresponding detection device 20.Having In the embodiment of body, control device 10 can be to be checked set by bogey 80 to judge according to detecting result information 8011 The quantity of the memory body module C of survey, and control device 10 can then control shifting apparatus 30 according to this, remove the detection dress of relative populations Set the memory body module C that detection is completed on 20.

Above-described embodiment is merely preferred embodiments of the present invention, but protection scope of the present invention is not limited to This, any one skilled in the art in the technical scope disclosed by the present invention, the variation that can readily occur in or replaces It changes, should be covered by the protection scope of the present invention.Therefore, protection scope of the present invention should be with the protection model of claim Subject to enclosing.

Claims (10)

1. a kind of intelligent detecting method being detected to memory body module, which is characterized in that the intelligent detecting method to The testing component being set in multiple detection devices is followed the steps below one by one simultaneously：

One detecting step：The multiple detection device is controlled using a control device, so that each detection device is according to one Initial order carries out N number of detection operation to the testing component being set in each detection device；Wherein, when to be measured When component is not by the m-th detection operation performed by corresponding detection device, indicate that m-th detection operation executes failure； Wherein, N, M are positive integer more than 1, and M ＜ N；

One recording step：Using the control device, by each detection device execute each detection operation as a result, Correspondence is stored as a testing result information；

One sequence set-up procedure：Using the control device, according to multiple testing result information, count which detection is made The number that industry executes failure is most, and promotes the most detection operation of the number for executing and failing according to this in the initial order Sequentially, optimization sequence is generated.

2. intelligent detecting method according to claim 1, which is characterized in that the intelligent detecting method is suitable for utilizing P Detection operation is conducted batch-wise to Q testing component in a detection device, and P, Q are the positive integer more than 1, and Q ＞ P；In the record Between step and the sequence set-up procedure, also comprise the steps of：

One transfer step：A shifting apparatus is controlled using the control device, it, will be each with according to multiple testing result information Testing component in a detection device transfers load to a defective products position or a non-defective unit position；

One installation steps：The shifting apparatus is controlled using the control device, it is to be measured by what is be not detected in Q testing component Component is installed on the P detection devices；

One macroanalysis step：Using the control device, judge that each detection device executes the accumulation of N number of detection operation Whether number is more than a predetermined total amount；

Wherein, when the control device judges that each detection device executes the cumulative frequency of N number of detection operation more than described When predetermined total amount, then the detecting step is executed again after first carrying out the sequence set-up procedure；When the control device judges respectively When the cumulative frequency that a detection device executes N number of detection operation is less than the predetermined total amount, the sequence adjustment step is skipped Suddenly the detecting step is directly executed.

3. intelligent detecting method according to claim 1, which is characterized in that the intelligent detecting method is suitable for utilizing P Detection operation is conducted batch-wise to Q testing component in a detection device, and P, Q are the positive integer more than 1, and Q ＞ P；In the record Between step and the sequence set-up procedure, also comprise the steps of：

One transfer step：A shifting apparatus is controlled using the control device, it, will be each with according to multiple testing result information Testing component in a detection device transfers load to a defective products position or a non-defective unit position；

One installation steps：The shifting apparatus is controlled using the control device, it is to be measured by what is be not detected in Q testing component Component is installed on the P detection devices；

One proportion grading step：Using the control device, whether the cumulative frequency for counting each detection operation execution failure is big In a pre-determined number；

Wherein, when the cumulative frequency that any one described detection operation executes failure is more than the pre-determined number, then institute is first carried out Sequence set-up procedure is stated, promotes the detection operation more than the pre-determined number in the sequence of the initial order, and is forming institute The detecting step is executed again after stating optimization sequence；When the cumulative frequency that each detection operation executes failure is smaller than described When pre-determined number, then skips the sequence set-up procedure and directly execute the detecting step.

4. intelligent detecting method according to claim 2 or 3, which is characterized in that before the detecting step, the control Device transmits a test signal to each detection device, when the passback that the control device receiving detection device is returned When signal, the control device then controls corresponding detection device and executes the detecting step.

5. according to the intelligent detecting method described in claims 1 to 3 any of which item, which is characterized in that in optimization sequence In, putting in order for each detection operation executes how much the cumulative frequency to fail is arranged according to each detection operation.

6. a kind of intelligent checking system, which is characterized in that the intelligent checking system includes：

Multiple detection devices, each detection device is to be arranged a memory modules, and each detection device is to being set to The memory modules thereon carry out N number of detection operation, and generate a testing result information according to this；Each detection device pair It is corresponding to generate a completion signal when memory modules being arranged on complete N number of detection operation；Wherein, when the memory When module is not by the m-th detection operation performed by the corresponding detection device, indicate that m-th detection operation executes mistake It loses；Wherein, N, M are positive integer more than 1, and M ＜ N；

One control device, is electrically connected multiple detection devices, the control device control each detection device according to N number of detection operation is carried out to the memory modules being arranged on according to an initial order；Wherein, the control device can be according to multiple The testing result information, the number for counting which detection operation execution failure is most, and is promoted execute the secondary of failure according to this Sequence of the most detection operation of number in the initial order, and generate optimization sequence；

And an at least shifting apparatus, it is electrically connected the control device, the shifting apparatus is controlled by the control device And multiple memory modules are installed in multiple detection devices, or in being installed in each detection device Storing module removal；

Wherein, the control device controls the shifting apparatus, will first be set in each detection device and N number of inspection is completed The memory modules removal of operation is surveyed, and after not detected memory modules are installed on multiple detection devices, the control Device controls each detection device according to optimization sequence in turn, and N number of inspection is carried out to the memory modules being arranged on Survey operation.

7. intelligent checking system according to claim 6, which is characterized in that each detection device includes a detecting Module, the detecting module is for detecting whether be provided with memory modules in corresponding detection device；The control device is used In one test signal of transmission to each detection device, after each detection device receives the test signal, Ge Gesuo It states detecting module and detects whether be correctly provided with the memory modules in the corresponding detection device, and transmit steady according to this Signal or steady fail signal are completed to the control device；When the control device receives what the detection device was transmitted When being ready to complete signal, the control device by it is corresponding control corresponding detection device to the memory modules that are arranged on into The N number of detection operation of row；When the control device receives the preparation fail signal that the detection device is transmitted, the control dress The shifting apparatus will be controlled by, which setting, reinstalls the memory modules being set in corresponding detection device, and again described in transmission Signal is tested to detection device.

8. intelligent checking system according to claim 6, which is characterized in that the control device is receiving the completion news Number when, first transmit one power-off signal to corresponding detection device be arranged on so that detection device no longer provides electrical power to Memory modules, then the control device can control the shifting apparatus again, by the memory mould in corresponding detection device Block removal.

9. intelligent checking system according to claim 6, which is characterized in that the control device also includes a communication mould Block, the communication module are used to communicate with a teledata storage device and connect, and the control device passes through the communication module Multiple testing result information are transmitted to the teledata storage device, multiple testing result information are stored in The teledata storage device.

10. intelligent checking system according to claim 6, which is characterized in that the intelligent checking system also includes one Bogey, the bogey are provided with a detecting module, the bogey to carry it is to be detected it is multiple it is described in Storing module, the detecting module generate one according to this and detect to detect whether the bogey is provided with the memory modules Survey result information；When the control device receives the completion signal that any one described detection device is transmitted, the control dress It sets one confirmation signal of transmission and detects whether the corresponding bogey sets to the bogey to control the detecting module The memory modules are equipped with, then the control device is according to the detecting result information, in the bogey is provided with In the case of storing module, controls and the interior of N number of detection operation is completed in the corresponding detection device of shifting apparatus elder generation removal Storing module, then one of will be set on the bogey memory modules and transfer load in corresponding detection device.