TW201330974A - Improved method for data management to production - Google Patents

Abstract

The present invention is related to an improved method for data management to production, more particularly to a method that adopts a label with the functions of identification and storing, such as RFID, two-dimensional bar code, one-dimensional bar code, or QR code, and cloud computing and Internet to deliver the characteristics of drills with the transportation of the drills in order to let users inquire while in demand. The method comprises the steps of: (1) start; (2) using a storage device, accommodating a plurality of drills to be ground, attached a label that has the functions of identification and storing the data of the drills, and then capturing the data of each drill; (3)determining whether the data of each drill and the label storing the data of the drills can be stored into a remote data storage device or not, if yes, going to step (4), if no, going to step (7); (4) storing the data of each drill and the label storing the data of the drills into the remote data storage device; (5) delivering the storage device to a machining station; (6) comparing the two types of data so as to gain the initial data of each drill, then going to step (10); (7) storing the data of each drill and the data of the drills in the label into the label; (8)delivering the storage device to a machining station; (9)capturing the data of drills in the label so as to gain the initial data of each drill, then going to step (10); (10) the machining station calibrating and grinding each drill according to the data of each drill; and (11) end.

Description

An improved method of data management for production

The present invention relates to an improved method of data management for production, in particular to use a pair of one-to-one seating to utilize an identifiable tag with stored data functions, such as a radio frequency identification system (RFID), two-dimensional Bar code, one-dimensional bar code or fast decoding system (QR code), or the latest cloud technology and network technology, can be used to traverse the needle's characteristic data with the burs, so that users can query at any time when needed. The resulting data is managed to produce methods.

The application of printed circuit boards (PCBs) is very extensive and even one of the main factors contributing to the third industrial revolution. Almost none of the daily food, clothing, housing, and travel is printed circuit boards. In terms of food, a microwave oven that can heat or cook food; in terms of clothing, a washing machine that can clean clothes; in terms of living, it can illuminate indoor lamps; in terms of line, it can provide a car for passengers. Therefore, as described above, all the tools that must be used every day in daily life, there must be a printed circuit board.

As the range of applications for printed circuit boards has increased, they have been added to multi-layer boards from early single-layer boards. Thus, the circuit between the layers requires a connection line to allow the printed circuits of the layers to be electrically connected to each other. Therefore, these connecting lines running through the various layers are drilled through some extremely thin drill bits before they can penetrate between the layers. These tiny drill bits may be as small as the hair so that small holes can be drilled for the printed circuit board to pass through. Based on the above requirements and applications, several key points can be drawn:

1. Large demand: Due to the wide application of printed circuit boards, the surrounding industries have also increased in proportion.

2. Accurate size: The reason is applied to precision industry, so the various dimensions of the drill bit must be very precise.

However, the current accuracy and convenience of the preservation and recording of the characteristic data of the bur is attached to the market. For example, the characteristics of each bur, including the helix angle, pitch, total length, core thickness, etc., while drilling a hole, if one factor is not specified, the unqualified hole drilled, the impact is far-reaching Hard to estimate. In addition, all the polished burs are shipped out, extending in all directions, and may be far from the ocean or close at hand. However, before the drilling operation, all the above-mentioned materials of each bur should be prepared for the occasional need. Moreover, as mentioned above, if the burs are far away from the ocean, how to easily obtain the information or the most updated information should be an essential condition.

At present, there are some conditions, such as when the drilling fails, to track the reasons for review. Therefore, understanding the various materials of the drill is also an important part of the review process. At this time, the information can be easily obtained and is the most updated material, which will help to quickly clarify the responsibility. Therefore, whether it is grinding a new drill bit or a drill bit that has already been used, the immediacy of the characteristic data is very important.

According to the above, how to develop an improved data management method for production can accurately provide the characteristic data of each bur and can provide the latest feature information in real time after encountering certain conditions. It is an important topic for those who are currently familiar with the relevant skills.

The main object of the present invention is to provide an improved data management method for producing a tag that is identifiable and has a data storage function, such as a radio frequency identification system (RFID), in a pair of one-to-one seating. The bar code, the one-dimensional bar code or the quick decoding system (QR code) can be used to carry out the characterization information of the burs with the burs, so that the user can query them when needed.

Another object of the present invention is to provide improved data management for production. In a pair of one-to-one seating, using the latest cloud technology and network technology, the characteristics of the bur can be used along with the bur. Shipping, and at any time, allows users to inquire when they need it.

A further object of the present invention is to provide an improved method of data management for production, after the grinding of the drill bit is completed and after drilling, the result is not in compliance with the regulations, and in order to trace the cause of the irregularity, the present invention can Use the characterization data of the burs to quickly provide them to the customer/user to clarify the entire responsibility.

Another object of the present invention is to provide an improved data management method for production, so that the latest feature data of each drill pin can be updated at any time during the grinding process, so as to prevent the user from misusing the old data, resulting in unpredictable Significant loss.

An improved method of data management for production is a method of managing data of a drill to process a drill, the method comprising the following steps:

(1) start;

(2) using a storage device with an identifiable tag having a stored data function to store a plurality of burrs to be drilled, and extracting data of each burr;

(3) determining whether it is necessary to store the data of each of the drill pins and the label data attached to the storage device storing the plurality of drill pins in a remote data storage device, and if so, proceed to step (4), if not, Go to step (7);

(4) storing the data and label data of each drill needle in the remote data storage device;

(5) transporting the storage device to a processing station;

(6) performing the comparison of the two materials to obtain the information of each of the first drill needles, and proceeding to step (10);

(7) storing the data of each bur and the label attached to the storage device in the label;

(8) transporting the storage device to a processing station;

(9) taking the information in the label to obtain the information of each of the initial drill needles, and proceeding to step (10);

(10) The processing station adjusts and grinds the drill needle according to the data of each drill needle;

(11) End.

Please refer to the first to fifth figures at the same time, which is a method for collecting and recording the burs of the improved data management method for producing the method of the present invention, and the improved data management of the present invention for the production method. Method for detecting and recording drill needle data, improved data management of the present invention, method for performing production, manual inspection of subsequent step of drilling needle application, improved data management of the present invention for production method The step pattern of the subsequent drilling needle application and the improved data management of the present invention are tested by the detecting device and the method of the production method is tested by the detecting device and the subsequent drilling needle application of the drilling needle data is recorded. Step diagram, wherein the record of the drill needles in the fourth and fifth figures is recorded in a different manner from the device. The improved data management of the present invention for production includes the following steps:

(1) start;

(2) storing a plurality of abrasive drill needles in a storage device with an identifiable data storage function label, the identifiable and stored data function label being any of the following: a radio frequency identification system (RFID), two a bar code, a one-dimensional bar code and a fast decoding system (QR code), the storage device is a needle box;

(3) placing the storage device on a feature inspection machine, performing characteristic inspection on each of the drilling pins in the storage device to obtain characteristic data of each of the drilling pins, the characteristic data comprising any one or a combination of the following: a helix angle , pitch, total length and heart thickness;

(4) determining whether it is necessary to store the data of each of the drill pins and the label data attached to the storage device storing the plurality of drill pins in a remote data storage device, and if yes, proceed to step (5), if not, Going to step (9), the remote data storage device is any one of the following data storage devices: a data storage device on the cloud mechanism and a data storage device of the company internal network (Intranet);

(5) storing the data and label data of each drill needle in the remote data storage device;

(6) transporting the storage device to a processing station, the processing station being a grinder;

(7) taking the label information attached to the storage device;

(8) comparing the tag data attached to the storage device to the tag data stored in the remote data storage device, and the processing station can obtain the corresponding drill from the remote data storage device. Needle information, enter step (13);

(9) storing the data of each bur and the label attached to the storage device in the label;

(10) transporting the storage device to a processing station, the processing station being a grinder;

(11) extracting information stored in the label attached to the storage device;

(12) the processing station obtains the data of each of the drill pins from the label;

(13) The processing station processes the drill needle according to the data of each drill needle, such as adjustment, grinding, etc.;

(14) Whether the processed bur is tested, if yes, proceed to step (15), and if not, proceed to step (B);

(15) Whether to perform manual detection, if not, proceed to step (16), and if so, proceed to step (25);

(16) feeding the processed burs into a detection station for detection;

(17) whether the processed bur is passed the test, and if so, proceeds to step (18), and if not, proceeds to step (21);

(18) Whether it is possible to store each of the processed and traversed burs and the label data attached to the storage device storing the plurality of burs in the remote data storage device, and if so, proceed to step (19). ), if not, proceed to step (20);

(19) storing each of the processed and passed burs and the label data attached to the storage device storing the plurality of burs in the remote data storage device, into step (C);

(20) storing each of the processed and passed data of the drilled needle and the label attached to the storage device in the label, and proceeding to step (D);

(21) Whether it is possible to store each of the processed and un-tested burs and the label data attached to the storage device storing the plurality of burs in the remote data storage device, and if so, enter the step ( 22) If not, proceed to step (23);

(22) storing each of the processed and untested burs and the label data attached to the storage device storing the plurality of burs in the remote data storage device, proceeds to step (24);

(23) storing each of the processed data that has not passed the test and the label attached to the storage device in the label, and proceeds to step (24);

(24) sending the boring needle that has been processed and has not passed the test to the elimination process, and proceeds to step (39);

(25) Manually detecting the finished drill needle;

(26) whether the processed drill needle passes the test, and if so, proceeds to step (B), and if not, proceeds to step (24);

(39) End.

Furthermore, the steps below (B) shown in the third figure have the following steps:

(27) drilling with a drill needle;

(28) Whether the hole drilled is qualified, if yes, proceed to step (39), and if not, proceed to step (29);

(29) Whether it is unqualified due to the bur factor, if yes, proceed to step (30), and if not, proceed to step (39);

(30) From the label data attached to the remote data storage device or the storage device, find out the relevant information of the drill needle that causes the non-conformity factor, analyze the reason, and proceed to step (39).

The following steps in step (C) shown in the fourth figure have:

(31) drilling with a drill needle;

(32) Whether the hole drilled is qualified, if yes, proceed to step (39), and if not, proceed to step (33);

(33) Whether it is unqualified due to the bur factor, if yes, proceed to step (34), and if not, proceed to step (39);

(34) From the remote data storage device, find the relevant data of the burr causing the non-conformity factor to analyze the cause, and proceed to step (39).

The following steps in step (C) shown in the fifth figure have:

(35) drilling with a drill needle;

(36) Whether the drilled hole is qualified, if yes, proceed to step (39), and if not, proceed to step (37);

(37) Whether it is unqualified due to the bur factor, if yes, proceed to step (38), and if not, proceed to step (39);

(38) from the label information attached to the storage device, find out the relevant information of the burr causing the non-conformity factor, analyze the reason, and proceed to step (39);

(39) End.

In view of the above, the improved data management of the present invention for production has the following advantages:

1. The present invention uses a pair of one-to-one sockets to utilize a radio frequency identification system (RFID) or a fast decoding system (QR code), which can be used at any time according to the transportation of the drill needle. The query is obtained when there is a demand.

2. The invention adopts a pair of one-to-one seating manners to utilize the latest cloud technology and network technology, and the characteristic data of the drill needle can be transported with the drill needle at any time, so that the user can query at any time when needed. .

3. When the result of the drilling is not met, and in order to trace the cause of the irregularity, the present invention can use the characteristic data record of the drill needle to quickly provide the customer/user to clarify the entire responsibility.

4. The invention can update the latest characteristic data of each drill needle at the same time in the grinding process, so as to avoid the user misuse of the old data, resulting in unpredictable major losses.

Thus, the patent application of the present invention utilizes the inventor's rich experience to design a simple but fully problematic solution to the conventional technology with a very creative concept. Therefore, the function of the patent application of the present invention does meet the patent requirements of novelty and progress.

The above is only the preferred embodiment of the present invention, and the scope of the present invention is not limited thereto. It is to be understood that the scope of the present invention is not limited by the spirit and scope of the present invention, and should be considered as a further embodiment of the present invention.

(1)~(39). . . Step number

The first figure is a step diagram of collecting and recording drill data of an improved data management method for producing the present invention;

The second figure is a step diagram of the method for detecting and recording the drill data of the improved data management method of the present invention;

The third figure is a step diagram of the subsequent bur application applied by the manually tested method for improving the data management of the present invention;

The fourth figure is a step-by-step diagram of the improved rig management of the present invention for the production of the method for the production of the rig and the recording of the burr data;

The fifth figure is a step-by-step diagram of the improved rig of the invention for the production of the method for the production of the method by which the inspection device passes the inspection and records the drilling needle data.

(1)~(13) . . . Step number

Claims (12)

An improved method of data management for production, which is a method for managing data of a drill needle to process a drill needle, the method comprising the following steps: (1') start; (1) using an attached one identifiable And the storage device with the storage data function label stores a plurality of microscopic drill needles and extracts the data of each drill needle; (2) determines whether the data of each drill needle needs to be stored and stores the storage of the plurality of drill needles The label data attached to the device is stored in a remote data storage device, if yes, proceed to step (3), if not, proceed to step (6); (3) store the data and label data of each drill needle at the remote end a data storage device; (4) transporting the storage device to a processing station; (5) performing an alignment of the two materials to obtain information of each of the initial drill bits, proceeding to step (9); (6) storing each The data of the drill needle and the label attached to the storage device are in the label; (7) transporting the storage device to a processing station; (8) extracting the information in the label to obtain the information of each initial drill needle , proceeding to step (9); (9) the processing station according to the data of each bur, Bur for adjustment, polishing; and (9 ') end. The method of producing improved data according to claim 1 of the patent application, wherein the step (1) further comprises the following steps: (1A) storing the plurality of auxiliary drill bits into the attached identifiable And having a storage device for storing the data function label; and (1B) placing the storage device on a feature inspection machine, performing characteristic inspection on each of the drill pins in the storage device to obtain characteristic data of each of the drill pins. The method for managing the improved data management as described in claim 1 wherein the remote data storage device of the step (2) is any one of the following data storage devices: a data storage device on the cloud mechanism and Data storage device for the company's internal network (Intranet). The method for producing improved data according to the first aspect of the patent application, wherein the data of each of the burs of step (3) is characterized by any one or a combination of the following: a helix angle, a section Distance, total length and heart thickness. The method for producing improved data according to claim 1 of the patent application, wherein the step (5) further comprises the steps of: (5A) extracting the label data attached to the storage device; and (5B) Comparing the tag data attached to the storage device with the tag data stored in the remote data storage device, the processing station is capable of obtaining the corresponding drill pin from the remote data storage device data. The improved data management as described in claim 1 of the patent application for processing production, wherein the step (8) further comprises the following steps: (8A) extracting data stored in the label attached to the storage device And (8B) the processing station obtains the data of each of the drill pins from the label. The improved data management method as described in claim 1 further includes the following steps: (10) whether the processed bur is tested, and if so, proceeds to step (11), and if not, proceeds to the step (20B1); (11) whether to perform manual detection, if not, proceed to step (12), and if so, proceed to step (22); (12) send the processed burs to a detection station for detection; 13) Whether the processed boring needle passes the test, and if so, proceeds to step (14), and if not, proceeds to step (17); (14) whether it is possible to store and process the data of each rig that has been processed and passed the test The label data attached to the storage device of the drill needle is again stored in the remote data storage device, and if yes, proceeds to step (15), if not, proceeds to step (16); (15) stores each processing and passes the detection The data of the drill needle and the label data attached to the storage device for storing the plurality of drill needles are entered into the remote data storage device, and the step (20C1) is entered; (16) the data of each processed and passed drill needle is stored. And the label attached to the storage device on the label , entering the step (20D1); (17) whether it is possible to store each of the processed and un-tested burs and the label data attached to the storage device storing the plurality of burs in the remote data storage The device, if yes, proceeds to step (18), if not, proceeds to step (19); (18) stores each of the processed data that has not passed the test and the storage device attached to the storage device for storing the plurality of drill pins The label data is in the remote data storage device, and proceeds to step (21); (19) storing each of the processed data that has not passed the test and the label attached to the storage device in the label, and proceeds to step (21). (20B1) drilling with a drill; (20B2) whether the hole drilled is qualified, if yes, proceed to step (9'), if not, proceed to step (20B3); (20B3) is caused by the bur factor Failed, if yes, go to step (20B4), if not, go to step (9'); (20B4) find the boring needle that causes the non-conforming factor from the label data attached to the remote data storage device or storage device Related information to analyze the cause and enter the step (9 (20C1) drilling with a drill; (20C2) whether the hole drilled is qualified, if yes, proceed to step (9'), if not, enter step (20C3); (20C3) is caused by the bur factor If it is unqualified, if yes, go to step (20C4), if not, go to step (9'); (20C4) from the remote data storage device, find out the relevant information of the burs causing the non-conforming factors to analyze the cause, and Go to step (9'); (20D1) drill with the drill hole; (20D2) whether the hole drilled is qualified, if yes, go to step (9'), if not, go to step (20D3); (20D3) because Drilling pin factor causes failure, if yes, enter step (20D4), if not, proceed to step (9'); (20B4) from the label data attached to the storage device, find the burr that causes the non-conforming factor Relevant information, to analyze the reasons, and proceed to step (9'); (21) send the processed burs that have not passed the test to the elimination process, and proceed to step (9'); (22) carry out the processed burs Manual detection; and (23) whether the processed bur is passed the test, and if so, proceeds to step (20B1), if not, enters the step (twenty one). The method of producing improved data as described in claim 1 of the patent application, wherein the processing station is a grinder. The method for manufacturing improved data management as described in claim 1, wherein the identifiable and stored data function label is any one of the following: a radio frequency identification system (RFID) and a fast decoding system (QR code) ). An improved method of data management for production, which is a method for managing data of a drill to process a drill, comprising the following steps: (1) storing a plurality of storage devices on a storage device with an identification tag a drill needle; (2) sequentially detecting relevant features of the drill needle on at least one detecting device; and (3) storing relevant characteristic data of the test drill needle. The improved data management as described in claim 10 of the patent application for the production method further comprises the following steps: (4) extracting the relevant characteristics of the drilled needles in the label; (5) transmitting the detected drill related Feature data to the processing station for processing. The method for manufacturing improved data management as described in claim 10, wherein the identification tag is any one of the following: a radio frequency identification system (RFID), a fast decoding system (QR code), a one-dimensional bar code and QR code.