KR20120077745A - A moving method of strip and the apparatus - Google Patents

Abstract

PURPOSE: A method for transferring a strip and an apparatus thereof are provided to simplify a process by not advancing subsequent processes for a defective package according to the defect of a package. CONSTITUTION: A transfer channel part(300) transfers a strip drawn from a pusher. A laser marker prints a generic number and a barcode on a transferred strip while being located on the surface of the transfer channel part. An inspection device(500) identifies faults by taking a photograph of a package of the strip passing a laser marker. A computer system(600) matches data of the generic number and the barcode given to the laser marker with data acquired from the inspection device, safely keeps the data, and shares the data in each process. A strip loading part(700) successively loads the strip passing the inspection device on a magazine.

Description

A moving method of strip and the apparatus

The present invention relates to a method and apparatus for transferring a strip to mark a serial number and bar code on a strip on which a semiconductor package is formed and to read whether the package is defective.

The individual package (package, or unit) to be manufactured as a semiconductor chip is arranged and molded in the same shape and size on a strip of a certain size, and then separated by a dicing process. If the individual package is checked for defects before the dicing process and the data is stored on the computer for the next process, unnecessary processes can be added to the defective products to prevent the waste of time and economics. By improving the productivity of the good product (UPH), you can obtain the effect of improving the reliability of the product. Therefore, it is necessary to take a vision system to check which strip of the defective package is located at which position and record this data on a computer. Therefore, the sharing method in the next process is required.

Therefore, a means for reading a strip must be provided, and a means must be provided for locating the packages arranged in a matrix. In the related art, a process of forming a bar code on a strip and the bar code In addition to the independent process of reading data, data information on strips and packages cannot be shared by other processes, as well as the need for additional equipment or space to go through separate processes. There has been a problem with constraints.

The present invention is to provide a separate device for the strip recognition process and bar code marking process to increase the production cost, and also to solve the problem that the data information collected in each process can not be shared in other processes. The method of strip conveying is carried out in a single device by finding a means to share data, supplying and marking strips, inspection after marking, and loading the finished strips in a magazine. Provide a device.

The present invention, which solves the limitations of the prior art, provides a strip supply unit to which a strip loaded in a magazine is supplied so that the strip can be continuously supplied, a conveying channel part to which individual strips from a magazine are conveyed, and a conveying channel located on a conveying channel part. Laser Marker to print the unique number and bar code on the strip, the Inspection device to recognize the printed unique number and bar code and to check whether the strip package is defective or not. In addition to sharing data on defects in the package, the system consists of a computer system for storing data acquired from the device and sharing them in each process, and a strip mounting portion for sequentially mounting the strips passed through the inspection device in a magazine. Supply, inspection and mounting of strips all in one unit The present invention provides a so-called fully automatic strip conveying method and apparatus.

The use of the present invention solves the problem of economical and time-consuming waste, since the conventional strip marking operation and the reading operation are performed in separate equipment and separate processes, and in particular, data in each process is shared. By being able to reflect, it is possible to reduce costs and increase UPH, and to produce a reliable product (package).

1 is an illustration of strip 10;
2 is an overall configuration diagram of the present invention;
3 is a configuration diagram of the pusher 200,
4 is a configuration diagram of the transfer channel part 300;
5 is an exemplary view of a magazine 20 on which a strip 10 is mounted.

The present invention provides a magazine supply unit 100 to which a magazine 20 loaded with a strip 10 is supplied, a pusher 200 which pushes a strip 10 loaded from the magazine 20, and the pusher 200. A unique number (N) and a bar code (BC) are transferred to the transport channel part 300 to which the strip 10 drawn out from) is transported, and the strip 10 transported while being located on the transport channel part 300. A laser marker 400 for printing, an inspection apparatus 500 for photographing the package 30 of the strip passing through the laser marker and reading out defects, and the laser marker 400 are attached to the laser marker 400. The computer system 600 which is connected to store the data of the unique number N and the bar code BC and the data acquired from the inspection apparatus 500 and share them in each process, and A stack for sequentially mounting the strip 10 passed through the inspection device 500 in the magazine Lip relates to a strip feed device for a strip marking (Marking), the in-pekting (Inspecting) comprising a mounting portion (700).

FIG. 1 is a diagram illustrating a strip 10 in which a semiconductor package is formed, and FIG. 2 is an overall configuration diagram of the present invention.

In the drawing, reference numeral 50 denotes a draw picker for clamping the strip 10 to be transferred to the conveying channel part 300. The strip is pushed out of the magazine 20 by the pusher 200 by a predetermined distance ( 10) is conveyed to the conveying channel part 300, thereby increasing the productivity (UPH) because it quickly conveys the strip (10). To this end, the draw picker 50 is provided with a vertical guide bar and the upper and lower clampers so that when the guide bar is in contact with the tip of the strip 10, the clamping and conveying is the same clamping position.

In addition, the reference numerals 350 and 350L are pushers that are independently installed, and are vertically lowered when the strip 10 is transferred to the transfer channel part 300, and the rear end of the strip 10 is pusher 350 or 350L. When the sensor (not shown) senses that the position has been moved up, it vertically rises and then slides the rear end of the strip 10 horizontally.

In addition, reference numerals 300A, 300B, and 300C indicate that the transfer channel unit 300 is divided into sections.

3 is an embodiment of the pusher 200, the lead screw 220 and the guide bar 230 is rotated by the driving of the motor 210 is coupled to the lower bracket 240, the lead screw 220 is Guide bar 230, which is illustrated by a nut 242 formed at the bottom of bracket 240, is illustrated as a pair of bush bearings 244, and the bracket 230 is rotated by the forward and reverse rotation of the lead screw 220. The left and right are combined to move, the guide bar 230 guides the horizontal movement.

In addition, the bracket 240 is coupled to the lead screw 260 connected to the shaft of the motor 250, and the movable bracket 270 formed with a nut 262 is screwed to the lead screw 260, the movable bracket 270 is coupled to the pushing bar 280, the movable bracket 270 is moved to the left and right by the forward and reverse rotation of the lead screw 260, the pushing bar 280 is moved back and forth, the magazine described later The strip 10 in 20 is pushed to the conveying channel part 300.

4 illustrates the first zone 300A of the transfer channel unit 300. Since the other zones 300B and 300C have the same configuration, overlapping description is omitted, and the transfer channel unit 300 includes three zones 300A and 300B. 300C) is characterized in that the three strips are designed to be moved together in the transfer channel portion (300).

The first zone 300A is formed with a pair of guide rails 310A and 310B and a cover 325 connected to the cylinder 320 to form an inner portion of the guide rails 310A and 310B, but the inner side thereof is raised. The roller 330 and the strip 10 for smooth transfer of the (10) shows a structure equipped with a support 340 for supporting the bent portion when the strip 10 is bent downward.

Here, the guide rails (310A, 310B) has a structure that is variable so as to approach or move away from each other by the combination of the motor and the lead screw (not shown) to enable compatible use when the strip 10 has a different width (guide) Since the moving principle of the rails 310A and 310B can be adopted, for example, the moving principle of the pusher 200, which is moved by the combination of the motor and the lead screw, detailed description thereof will be omitted).

In addition, the guide rails 310A and 310B are provided with a cover 330 connected to the cylinder 320 so that the inside thereof is opened upward, so that the strip 10 is transported from the guide rails 310A and 310B. By opening the cover 330 to remove the strip 10 has a feature that can increase the work efficiency.

On the other hand, the pedestal 340 is composed of a fixed base 342 and the lifting platform 344, when the narrow strip 10 is transferred, the lifting platform 344 is lowered to narrow the width between the guide rails (310A, 310B) Since it can be adjusted, even if the width of the strip is configured to be compatible with the equipment of the present invention.

The laser marker shown at 400 in FIG. 2 is a place for laser marking a serial number (N) and a bar code (BC) designated through a computer in advance on a designated portion of the strip 10 supplied along the guide rail 310. As the laser marker 400 itself uses a known one, a detailed structure thereof is omitted, except that the serial number (N) and the bar code (BC) marked by the laser marker 400 are stored in a computer, which will be described later. The computer system 600 is combined together for this purpose because it must be programmed to match and use the inspection data of the inspection apparatus 500.

Meanwhile, the laser marked strip 10 is transferred to the position where the inspection apparatus 500 is installed by the pusher 350L, and the inspection apparatus 500 photographs the package 30 formed on the strip 10 and is input in advance. Compared with the reference image of the defective product detects whether the defect is stored in the computer system 600 as data.

Therefore, the data obtained from the laser marker 400 and the inspection apparatus 500 is stored in the computer system 600 to perform the process work necessary only for the good package by using the data in the next process of processing the strip 10, Since the product does not need to perform the next process work, it gives a sorting function to exclude the process application.

Inspected strip 10 is sequentially stacked in the empty magazine of the strip mounting portion 700 by being pushed to the rear end of the transfer channel portion 300 by the pusher 800, the magazine on which the strip 10 is mounted is a conveyor Iterative process is withdrawn and the new magazine is supplied, but these methods are well known and thus the description is omitted.

Next, the process of marking the strip using the present invention will be described.

As shown in FIG. 5, when the magazine 20 loaded with the strip 10 is placed in the magazine supply unit 100 and transferred to the home position, the locking bar 22 of the magazine 20 is opened by the proximity sensor 900. If it is closed (if it is in the locked state), a warning device (for example, a buzzer or flashing of a tower lamp, etc.) connected to the proximity sensor 900 notifies the operator to release the locking state.

The strips 10 stacked in the magazine 20 are pushed up by the pusher 200 in order from the top to the first zone of the conveying channel part 300, and by the draw picker 50 the first zone 300A. Is drawn). The magazine 20 rises one space by a separate means, causing the pusher 200 to sequentially push the strip 10.

When the transfer position is detected by a sensor (not shown), the strip 10 is moved to the position of the laser marker 400 by the pusher 350, and a predetermined serial number (set by the operator at a portion of the strip 10) The bar code BC, into which N) and necessary information are input, is printed with a laser and the data is stored in the computer system 600.

Strip (10), the marking operation is completed is pushed to the inspection device 500 by a separate pusher (350L).

Pushers (350, 350L) installed in the conveying channel unit 300 for the pushing operation is left in the lower position than the pushing position except for pushing the strip 10, it is raised again for the pushing operation It is designed to not interfere with the transport of the strip 10 is given to the appearance.

The strip 10, which has been transferred to the inspection apparatus 500, is used to determine whether there is an external defect for each package 30 (for example, missing or incorrect printing of package classification, as well as screening damaged packages, etc.). After comparing the predetermined base image and the photographed package (30) to distinguish between good and bad goods and stores this data in the computer system 600.

Therefore, it is possible to determine which package of a particular strip is defective based on the data in a later step, and control the computer system 600 so as not to perform a subsequent step operation on the defective package. In addition, it is possible to reduce economic and time waste by not performing post-processing on the defective package.

In particular, the strips 10 supplied to the first zone 300A to the third zone 300C on the transfer channel part 300 may be simultaneously transferred, thereby preventing work delay due to the transfer.

As such, the strip transfer method for marking and inspecting the strip applied to the present invention comprises the steps of: supplying a magazine 20 on which the strip 10 is loaded; Checking the unlocking of the locking bar 22 of the magazine 20; Pushing the strip 10 in the magazine 20 with a pusher 200; Drawing the strip 10 with a draw picker 50 and transferring the strip 10 to the first zone 300A of the transfer channel part 300; The position of the strip 10 of the first zone 300A is sensed by the sensor and pushed by the pusher 350 to the second zone 300B; Printing the serial number N and the bar code BC after the strip 10 is moved to the laser marker 400 of the second zone 300B and storing the data in the computer system 600; Pushing the strip 10 of the second zone 300B to the pusher 350L to transfer it to the third zone 300C; Photographing the strip 10 of the third zone 300C with the inspection apparatus 500 to read whether the packages 30 are defective and to store the data in the computer system 600; The strip 10 of the inspected third zone 300C is pushed to the pusher 800 to be mounted in the magazine of the strip mounting part 700.

10-strip 20-magazine
100-Magazine Supply 200-Pusher
300-transfer channel section 400-laser marker
500-Inspection Device
600-Computer System 700-Strip Mount
800-Pusher 900-Sensor

Claims (4)

For strip marking and inspection
Supplying a magazine 20 loaded with a strip 10;
Checking the unlocking of the locking bar 22 of the magazine 20;
Pushing the strip 10 in the magazine 20 with a pusher 200;
Drawing the strip 10 with a draw picker 50 and transferring the strip 10 to the first zone 300A of the transfer channel part 300;
The position of the strip 10 of the first zone 300A is sensed by the sensor and pushed by the pusher 350 to the second zone 300B;
Printing the serial number N and the bar code BC after the strip 10 is moved to the laser marker 400 of the second zone 300B and storing the data in the computer system 600;
Pushing the strip 10 of the second zone 300B to the pusher 350L to transfer it to the third zone 300C;
Photographing the strip 10 of the third zone 300C with the inspection apparatus 500 to read whether the packages 30 are defective and to store the data in the computer system 600;
A strip conveying method for strip marking and inspecting, comprising the step of mounting the strip of the inspected third zone (300C) to the pusher (800) in the magazine of the strip mounting portion (700).
In order to perform the method of claim 1, the magazine supply unit 100 to which the magazine 20 loaded with the strip 10 is supplied, and the sensor 900 for detecting whether the locking bar 22 of the magazine 20 is opened or closed. And, a pusher 200 for pushing the strip 10 loaded from the magazine 20, a drawer 50 for drawing the strip 10 withdrawn from the magazine 20, and the strip 10. The transfer channel portion 300 is divided into three zones and the width thereof is variable, and the strip 10 located in the first zone 300A of the transfer channel portion 300 to the second zone 300B. A pusher 350 for pushing, a laser marker 400 for printing a unique number N and a bar code BC on the strip 10 transferred to the second zone 300B, and the second zone. A pusher 350L for transferring the strip 10 of 300B to the third zone 300C, and an image for taking a photograph of the package 30 of the strip 10 in the third zone 300C to read whether there is a defect. Matching and storing the data obtained from the inspection apparatus 500, the unique number N and the bar code BC, and the data acquired from the inspection apparatus 500, which are assigned to the laser marker 400. In order to connect and install the computer system 600, the pusher 800 to sequentially mount the strip 10 passed through the inspection apparatus 500 in the empty magazine, and the strip mounting portion 700 is supplied and withdrawn from the magazine Strip transfer equipment for marking and inspecting strips.
According to claim 2, each section of the conveying channel section 300 is provided with a pair of guide rails (310A, 310B), the inner side of the guide rail (310A, 310B) of each section is opened and closed by a cylinder (320) Strip marking, characterized in that the roller 330 is provided between the cover 325, the guide rails (310A, 310B), and the base 340 composed of the fixing table 342 and the lifting platform (344) And strip transfer equipment for inspecting.
According to claim 2, Pusher 200 is the lead screw 220 and the guide bar 230 is rotated by the drive of the motor 210 is coupled to the lower end of the bracket 240 to the forward and reverse rotation of the lead screw 220 The bracket 230 is coupled to the left and right to move by force, and on the bracket 240, a lead screw 260 connected to the motor 250 axis, and a nut 262 screwed with the lead screw 260 is The formed moving bracket 270 is coupled, and the moving bracket 270 is coupled to the pushing bar 280, and the moving bracket 270 in which the pushing bar 280 is installed by the forward and reverse rotation of the lead screw 260 is left and right. Strip transport equipment for marking and inspecting the strip, characterized in that configured to move to.

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