CN113449967B - Quality inspection management system of inductance coil - Google Patents

Abstract

The invention discloses a quality inspection management system of an inductance coil, which comprises: the system comprises a deployment end and a server end; the deployment end performs: providing a plurality of option UI (user interface) for representing products to enable a user to select, and reading target products represented by the option UI selected by the user; inquiring a quality inspection flow of a target product from a server according to the target product, and displaying a quality inspector object UI required by each procedure in the quality inspection flow; forming a quality inspection process dispatch list file according to the quality inspection process, and transmitting the quality inspection process dispatch list file to a server side; the server side executes: and acquiring a quality inspection flow dispatch list file transmitted by the allocation end, inquiring the corresponding email address of the quality inspector according to the information of the quality inspector, and transmitting the email to the email address. The invention is convenient for the manager to allocate the quality inspector to the quality inspection flow of the expected target product by arranging the allocation end and the server end. The automation level and the efficiency of quality control management of the inductance coil are improved.

Description

Quality inspection management system of inductance coil

Technical Field

The invention relates to the technical field of quality management of induction coils, in particular to a quality inspection management system of induction coils.

Background

The existing electronic components are generally produced by adopting a full-automatic production mode. Therefore, quality control is most important for the production of electronic components. In particular in quality control management on induction coils, the standards are numerous and different induction coil types have different standards. Therefore, when new inductor products are manufactured, a corresponding quality inspector needs to be allocated. In the conventional quality inspector allocation, the factory is generally allocated freely, and then the allocation results are informed to the corresponding quality inspectors one by one. This approach is inefficient and cannot be automated.

Disclosure of Invention

The invention provides a quality inspection management system of an inductance coil, which solves one or more technical problems in the prior art and at least provides a beneficial selection or creation condition.

Provided is a quality inspection management system for an inductance coil, comprising: the system comprises a deployment end and a server end;

the allocating end execution includes: providing a plurality of option UI (user interface) for representing products to enable a user to select, and reading target products represented by the option UI selected by the user;

inquiring a quality inspection flow of the target product from a server according to the target product, and displaying a quality inspector object UI required by each procedure in the quality inspection flow;

sequentially reading quality inspector object UI of each procedure selected by a user according to quality inspection flow, extracting information of a quality inspector corresponding to the quality inspector object UI, forming a quality inspection flow dispatch list file according to the quality inspection flow, and transmitting the quality inspection flow dispatch list file to a server side;

the server side execution includes: and acquiring a quality inspection flow dispatching list file sent by the allocation end, obtaining quality inspector information from the quality inspection flow dispatching list file, inquiring an email address of a quality inspector corresponding to the quality inspector information, and sending a notification message to the email address.

Further, the server side execution further includes: after the E-mail is sent to the E-mail address, sending feedback information to the allocation terminal;

the deployment end execution further comprises: and after receiving the feedback information, displaying corresponding prompt information through a popup window.

Further, the quality inspector object UI is provided with a link interface, and the link interface is used for accessing a quality inspector information database in the server side.

Further, before the allocating end transmits the quality inspection process dispatch list file to the server end, the allocating end performs accuracy inspection on the quality inspection process dispatch list file, and the accuracy inspection method includes: the quality inspector information recorded in the quality inspection flow dispatching list file is subjected to repetition rate inspection, when the same quality inspector information exists in different procedures, the repetition rate is considered to be unqualified, and otherwise, the repetition rate is considered to be qualified;

and stopping the subsequent operation and feeding back error information when the repetition rate is unqualified, and continuing the subsequent operation when the repetition rate is qualified.

Further, in the same procedure, there is a sorting among the quality inspector object UIs, wherein the rules of the sorting are freely selected.

Further, the rules of ordering between the quality inspector object UIs are the same between different procedures.

Further, the deployment end includes: a cell phone, a PDA with networking capability, or a personal computer.

Further, the deployment end is a personal computer.

The invention has at least the following beneficial effects: according to the invention, by arranging the allocation end and the server end, the quality inspection process of the expected target product is conveniently allocated to the quality inspector by the manager in a quality inspection object UI mode, and the corresponding quality inspector is timely notified by means of sending an e-mail. The automation level and the efficiency of quality control management of the inductance coil are improved.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate and do not limit the invention.

Fig. 1 is a system configuration diagram of a quality control management system for an inductor.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

It should be noted that although functional block diagrams are depicted as block diagrams, and logical sequences are shown in the flowchart, in some cases, the steps shown or described may be performed in a different order than the block diagrams in the system. The terms first, second and the like in the description and in the claims and in the above-described figures, are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order.

Referring to fig. 1, fig. 1 is a system configuration diagram of a quality inspection management system for an inductor.

Provided is a quality inspection management system for an inductance coil, comprising: the system comprises a deployment end and a server end; the allocating end execution includes: providing a plurality of option UI (user interface) for representing products to enable a user to select, and reading target products represented by the option UI selected by the user; inquiring a quality inspection flow of the target product from a server according to the target product, and displaying a quality inspector object UI required by each procedure in the quality inspection flow; sequentially reading quality inspector object UI of each procedure selected by a user according to quality inspection flow, extracting information of a quality inspector corresponding to the quality inspector object UI, forming a quality inspection flow dispatch list file according to the quality inspection flow, and transmitting the quality inspection flow dispatch list file to a server side; the server side execution includes: and acquiring a quality inspection flow dispatching list file sent by the allocation end, obtaining quality inspector information from the quality inspection flow dispatching list file, inquiring an email address of a quality inspector corresponding to the quality inspector information, and sending a notification message to the email address.

The quality inspection management system of the inductance coil is mainly used for providing an automatic operation mode, and is convenient for a manager (factory length) of a production line to operate so as to reliably distribute quality inspection posts of the production line and effectively inform quality inspectors. The specific working principle of the quality inspection management system of the inductance coil is as follows: the manager operates through a man-machine exchange interface provided by the deployment end, wherein an option UI for the manager to operate exists in the man-machine exchange interface, and the option UI represents a plurality of products. When the manager needs to select a desired product, the corresponding target product can be selected through the option UI. The blending end reads the target product represented by the option UI selected by the user. After the target product is obtained, the quality inspection flow of the target product needs to be known. Therefore, the quality inspection flow of each product is prestored at the server side. After the blending end obtains the target product, the corresponding quality inspection flow stored in advance is inquired from the server end. After the quality inspection flow is obtained, displaying the quality inspection flow according to each procedure according to a template set in the man-machine interaction interface. The quality inspector object UI is prestored at the allocating end, wherein each quality inspector object UI respectively represents a corresponding quality inspector. Of course, the quality inspector object UI is provided with labels associated with the procedures, which are essentially to distinguish procedure differences of different quality inspectors.

For example: the quality inspection flow is provided with: step A, step B and step C; the label representing step a is a, the label representing step B is B, and the label representing step C is C; the quality inspector includes: quality inspector a, quality inspector B, quality inspector C, and quality inspector D. Among the processes that quality inspector a can be competent are: a step A and a step B; the quality inspector B may be qualified by the following steps: the steps B and C, the quality inspector C can be qualified as follows: step C; the quality inspector D may be qualified by the following steps: step a, step B, and step C. Let the quality inspection object UI representing the quality inspector a be: quality inspection object UI-a, representing quality inspector B, is: quality inspection object UI-B, representing quality inspector C, is: quality inspection object UI-C, representing quality inspector D, is: quality control object UI-D.

The labels of the quality inspection object UI-A are as follows: a and b; the labels of the quality inspection object UI-B are as follows: b and c; the labels of the quality inspection object UI-C are as follows: c, performing operation; the labels of the quality inspection object UI-D are as follows: a. b and c.

And displaying the quality inspection object UI based on the procedures in a human-computer interaction interface based on the labels of the quality inspection object UI.

That is, the quality inspection object UI displayed in step a includes: quality inspection object UI-A and quality inspection object UI-D;

the quality inspection object UI displayed in step B includes: quality inspection object UI-A, quality inspection object UI-B and quality inspection object UI-D;

the quality inspection object UI displayed in step C includes: quality inspection object UI-B, quality inspection object UI-C, and quality inspection object UI-D.

After the quality inspection object UI is displayed on the man-machine interface based on the process, the manager can decide to dispatch the corresponding quality inspector to perform the work of the corresponding process by selecting the quality inspection object UI in each process. And forming a quality inspection process dispatch list file based on the information of the corresponding quality inspector. Examples are as follows: at this time, a quality inspection object UI-A is selected for the process A, a quality inspection object UI-B is selected for the process B, and a quality inspection object UI-C is selected for the process C; then the quality inspection flow dispatch list file records: the quality inspector of step a is quality inspector a, the quality inspector of step B is quality inspector B, and the quality inspector of step C is quality inspector C. And sending the quality inspection flow dispatch list file to a server side.

After the server side obtains the quality inspection flow dispatch list, the server side can find out the email address of the corresponding quality inspector according to the corresponding quality inspector information and send the email to the corresponding email address. Thereby realizing the notification function for the corresponding quality inspector.

According to the invention, by arranging the allocation end and the server end, the quality inspection process of the expected target product is conveniently allocated to the quality inspector by the manager in a quality inspection object UI mode, and the corresponding quality inspector is timely notified by means of sending an e-mail. The automation level and the efficiency of quality control management of the inductance coil are improved.

In some preferred embodiments, the server-side execution further includes: after the E-mail is sent to the E-mail address, sending feedback information to the allocation terminal; the deployment end execution further comprises: and after receiving the feedback information, displaying corresponding prompt information through a popup window.

After the server side finishes sending the E-mail to the E-mail address, when the server side receives feedback that the E-mail is sent completely, the server side considers that the E-mail needing to be notified is sent to the corresponding quality inspector and is notified in place. Therefore, at this time, the server side will send feedback information to the allocating side to inform the allocating side that the allocating side has finished notifying. After confirming that the feedback information is received, the allocating end displays prompt information in a popup window mode so as to remind a manager that the quality inspector is notified.

In order to facilitate the manager to learn the corresponding quality inspector information through the quality inspector object UI, in some preferred embodiments, the quality inspector object UI is provided with a link interface for accessing a quality inspector information database in the server side. The administrator may access the quality inspector information database in the server side by clicking on the quality inspector object UI. The quality inspector information database stores information of corresponding quality inspectors, such as working capacity conditions of the quality inspectors, working time conditions of the quality inspectors, leave cases of the quality inspectors and the like in advance. By accessing the quality inspector information database in the server side, the manager can know the specific condition of the quality inspector in time, and can make decisions and selections conveniently.

In some preferred embodiments, before the allocating end transmits the quality inspection process dispatch list file to the server end, the allocating end performs accuracy inspection on the quality inspection process dispatch list file, and the method for accuracy inspection includes: the quality inspector information recorded in the quality inspection flow dispatching list file is subjected to repetition rate inspection, when the same quality inspector information exists in different procedures, the repetition rate is considered to be unqualified, and otherwise, the repetition rate is considered to be qualified; and stopping the subsequent operation and feeding back error information when the repetition rate is unqualified, and continuing the subsequent operation when the repetition rate is qualified.

The quality inspection flow dispatch list file adopts a document file, and the quality inspector information and the procedure can be recorded in the document file in a text form. Therefore, when the repetition rate of the quality inspection flow dispatch list file is inspected, the repetition can be inspected in a searching mode. And when the same quality inspector information exists in different procedures, the repetition rate is considered to be unqualified, otherwise, the repetition rate is considered to be qualified. When the duplicate checking rate is unqualified, the quality inspection flow dispatch list file is not transmitted to the server side, error information is fed back to the dispatching side, and the manager can revise the file again to correct the error. And when the check repetition rate is qualified, transmitting the quality inspection flow dispatch list file to the server side.

By checking the quality inspection process dispatch list file in advance, the condition that the same quality inspector appears in different processes can be avoided, and wrong dispatch is avoided.

In some preferred embodiments, the sorting rules of the sorting among the quality inspector object UIs can be freely selected under the same procedure in the man-machine interaction interface. The quality inspector object UI has a label based on sorting, and the quality inspector object UI can be sorted through the label, wherein the label can be preset, and the incoming time limit of the quality inspector is used as the label, and then the quality inspector object UI can be sorted based on the incoming time limit of the quality inspector.

In some preferred embodiments, the rules of ordering between the quality inspector object UIs are the same between different procedures.

In some preferred embodiments, a cell phone, a PDA with networking capability, or a personal computer. The blending end is a personal computer.

While the preferred embodiment of the present invention has been described in detail, the present invention is not limited to the above embodiment, and various equivalent modifications and substitutions can be made by those skilled in the art without departing from the spirit of the present invention, and these equivalent modifications and substitutions are intended to be included in the scope of the present invention as defined in the appended claims.

Claims (7)

1. A quality control management system for an inductor, comprising: the system comprises a deployment end and a server end;

the allocating end execution includes: providing a plurality of option UI (user interface) for representing products to enable a user to select, and reading target products represented by the option UI selected by the user;

inquiring a quality inspection flow of the target product from a server according to the target product, and displaying a quality inspector object UI required by each procedure in the quality inspection flow;

sequentially reading quality inspector object UI of each procedure selected by a user according to quality inspection flow, extracting information of a quality inspector corresponding to the quality inspector object UI, forming a quality inspection flow dispatch list file according to the quality inspection flow, and transmitting the quality inspection flow dispatch list file to a server side;

the server side execution includes: acquiring a quality inspection flow dispatching list file sent by a dispatching end, obtaining quality inspector information from the quality inspection flow dispatching list file, inquiring an email address of a quality inspector corresponding to the quality inspector information, and sending a notification message to the email address;

the quality inspector object UI is provided with a link interface, the link interface is used for accessing a quality inspector information database in the server, and the quality inspector information database stores information of corresponding quality inspectors in advance, wherein the information comprises the working capacity condition of the quality inspector, the working time condition of the quality inspector and the leave condition of the quality inspector.

2. The inductor quality control management system of claim 1, wherein the server-side execution further comprises: after the E-mail is sent to the E-mail address, sending feedback information to the allocation terminal;

the deployment end execution further comprises: and after receiving the feedback information, displaying corresponding prompt information through a popup window.

3. The quality control management system of an induction coil according to claim 1, wherein the allocating end performs accuracy check on the quality control process dispatch list file before transmitting the quality control process dispatch list file to the server end, and the method for accuracy check includes: the quality inspector information recorded in the quality inspection flow dispatching list file is subjected to repetition rate inspection, when the same quality inspector information exists in different procedures, the repetition rate is considered to be unqualified, and otherwise, the repetition rate is considered to be qualified;

and stopping the subsequent operation and feeding back error information when the repetition rate is unqualified, and continuing the subsequent operation when the repetition rate is qualified.

4. The system according to claim 1, wherein there is a ranking between the quality inspector objects UI in the same process, wherein a rule of ranking is freely selected.

5. The system of claim 4, wherein the ordering rules between the quality inspector object UIs are the same between different procedures.

6. The quality control management system of an inductor according to claim 4, wherein the deployment end comprises: a cell phone, a PDA with networking capability, or a personal computer.

7. The system of claim 6, wherein the deployment site is a personal computer.