KR0176527B1 - Method for testing hdd - Google Patents

Abstract

The present invention relates to a hard disk drive test method.

The hard disk drive inspection method according to the present invention can realize productivity improvement and efficient work by shortening manpower and parts transportation time between processes by automating the existing servo light inspection and functional inspection processes in a single line. .

Description

How to check your hard disk drive

1 is a block diagram showing a system for performing a hard disk drive test method according to the present invention.

2 is a schematic plan view showing a hard disk drive mounted on a conveyor belt and pellets according to the present invention.

3 is a plan view and a side view showing a state in which a hard disk drive is mounted on a pellet in accordance with the present invention.

4 is a front view showing the good or bad indication of the pellet according to the present invention.

* Explanation of symbols for main parts of the drawings

1: Pellet 1 ': Through Hole

2: Good display part 3: Bad display part

10: HDD 11, 11 ': conveyor belt

12, 12 ': pellet moving cylinder 13: initial stopper

14: Inspection Stopper 15: Discharge Stopper

16: outlet 17: stop stopper

18 detection sensor 20 cylinder

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hard disk drive (Hard Disk Drive) test method, and more specifically, to an automated hard disk drive capable of simultaneously performing a servo write test process and a function test process of a hard disk drive. It is about a test method.

Hard disk drives (hereinafter referred to as HDDs) are widely used as storage devices for various computers and function as core media for writing and reading necessary information.

In the production process of such a HDD, there are generally two ways to check whether the manufactured HDD is good or bad. That is, the servolite test for recording data on the manufactured HDD and the function test for reading the recorded data.

Conventionally, such an inspection process is usually performed by manually supplying the HDD to the servo light inspection jig (JIG), and in the case of a good product, carrying out the functional inspection by manually transporting the HDD to the function inspection jig again, and then determining the final quantity or negativeness. Was done. In other words, the process includes the steps of manually supplying the HDD to the servo light inspection jig, performing the test in the servo light inspection jig, and in the case of good quality, transferring the HDD to the functional test jig manually. A test is performed in the functional inspection jig, and after the test is completed, manual and defective parts are manually sorted.

As can be seen, the conventional HDD inspection method is required to supply and discharge the components manually, manpower input is essential and continuous testing between processes was not possible. In addition, productivity is reduced by the intervention of the passive line, and the servolite inspection process and the function inspection process are separately performed, so there is no connection, and a separate manpower input is required.

The present invention was devised in view of the above problems, and a hard disk capable of integrating a conventional servo light inspection process and a functional inspection process into one process line and minimizing manpower input and increasing productivity due to automation of a work process. Its purpose is to provide a drive test method.

In order to achieve the above object, a hard disk drive inspection method according to the present invention includes a conveyor belt unit for automatically supplying / discharging a hard disk drive, and having a good or defective indicator placed on the conveyor belt and having a hard drive thereon. A disk on which the disk is mounted, a servo light test jig and a function test jig for testing the hard disk drive, a robot hand carrying the hard disk drive, the conveyor belt portion, a servo light test jig, a function test jig and a robot A hard disk drive inspection method using a device including a controller for controlling a hand, the method comprising: an initialization step of mounting a hard disk drive on the pellet and bringing the display portion of the pellet into a good display state; Supplying a hard disk drive from the pellet to the servolite inspection jig by a robot hand; A servolite inspection step of testing the supplied hard disk drive and selecting and discharging the defective hard disk drive if it is defective; A functional inspection step of carrying out a test by carrying the hard disk drive to a functional inspection jig by the robot hand in case of good quality in the servolite inspection step; A returning step of returning the hard disk drive, which has finished the function checking step, back to the pellet form by the robot hand; If the returned hard disk drive is defective as a result of the function test, a discharging step of discharging the display unit of the pellet on which the hard disk drive is mounted to the defective display state and discharging it; And a recovery step of selecting and recovering good and bad hard disk drives from the discharged plurality of pellets and then returning to the initialization step.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. 1 is a block diagram showing an embodiment of a system for performing a hard disk drive test method according to the present invention. The system includes a conveyor unit where the HDD is placed and carried, a robot hand that supplies the HDD to the servo light test jig and a function test jig, a servo light test jig to test the HDD, and a function test jig, which are each controlled by a controller. .

The hard disk test method of the present invention performed in the system as described above may be described in more detail with reference to FIGS. 2 and 3.

2 shows a conveyor belt included in a system for carrying out the method of the invention and FIG. 3 shows a schematic plan view and side view of the pellet 1 on which the HDD 10 is placed.

Referring to the recited figures, the first manufactured HDD 10 is placed on a pellet 1 on the conveyor belt 11. The process of placing the HDD in the pellet 1 is mainly done manually but is preferably done automatically. The pellet 1 on which the HDD 10 is placed has a good display portion 2 and a bad display portion 3 as shown in FIG. 3 and is configured to be slidable in the through hole 1 ′ of the pellet 1. Once the HDD 10 is placed on the pellet 1, the pellet 1 is transferred to the conveyor belt 11 ′ by the pellet moving cylinder 12 and advanced along the belt 11 ′.

The pellet 1, which has been advanced along the conveyor belt 11 ′, is stopped by the initial stopper 13 on the conveyor belt 11, at which time the cylinder 20 at the bottom of the conveyor belt 11 ′ acts to produce the pellet 1. Push the good indicator (2) up. In this initialization step, the non-defective article display unit 2 is unconditionally raised regardless of the quantity and the quantity of the HDD 10 placed on the pellet 1.

After the initializing step, the initial stopper 13 is retracted and opened, and the pellet 1 is again advanced along the conveyor belt 11 '. When the pellet 1 advancing along the conveyor belt 11 'enters the HDD inspection area, the inspection stopper 14 is operated this time to stop the pellet 1.

When the pellet 1 stops in the inspection area, the controller instructs the robot hand (not shown) to carry the HDD 10, and the robot hand lifts the HDD 10 and carries it to the servolite inspection jig as a first step. . Although the type of the robot hand is not limited in the present invention, it is generally preferable to carry the vacuum suction of the HDD 10 by a robot hand having a hand vacuum unit.

The HDD 10 carried by the servolite inspection jig is tested for its quantity and additionalness. If it is determined that the defective product is defective, the HDD is again conveyed to the defective extraction unit by the robot hand and sorted. Optionally, in the case of the failure determination, the robot hand moves the HDD to another empty servo light inspection jig again, and then performs the servo light inspection once again, and then takes out the defective extraction if there is a failure determination. Can be.

If the product is judged good, the HDD finishes the servo light test and is transported for the function test. Also, the HDD of the good product is supplied to the function test jig by the operation of the robot hand by the controller. Here, a test for reproducing the data recorded on the HDD in the servolite inspection process is performed to check the function of the HDD, and also a positive or negative judgment is made.

A signal of good or bad determination performed in the function test is transmitted to the controller, and after the transfer is completed, the robot hand again carries the HDD from the function test jig onto the conveyor belt 11 '.

On the other hand, when the HDD is transported to the servolite inspection jig by the robot hand in the above process, the inspection stopper 14 is retracted and opened, and the pellet 1 is advanced along the conveyor belt 11 'to be caught by the discharge stopper 15. Wait for stop. Then, the HDD 10 which has been tested from the function inspection jig is returned and mounted on the pellet 1 stopped by the discharge stopper 15 as described above.

In this case, the condition of the good and bad display parts of the pellet 1 equipped with the HDD after the servolite test and the functional test is raised, that is, the good quality display part 2 is raised, as is done in the initial stopper 13. The display state.

If the HDD function is determined to be good in the function test process, as described above, this signal may have been transmitted to and stored in the controller, in which case the controller issues the discharge stopper 15 opening signal to the pellet 1 equipped with the HDD. . Then, the discharge stopper 15 is retracted and opened so that all the inspections are completed and the pellet 1 on which the HDD having been judged good is placed is advanced along the conveyor belt 11 '. In the final state, in which the inspection process is finished, this pellet 1 is consequently in good condition.

On the contrary, if the HDD is determined to be malfunctioning in the function test process, this signal is transmitted to the controller and the controller returns the defective cylinder of the conveyor belt 11 'by the robot hand after the defective HDD is returned to the pellet 1 again. 20 ') will send an activation signal. Then, the defective cylinder 20 'under the conveyor belt 11' is operated to raise the defective display portion of the pellet 1 to change from the good display state to the bad display state. Immediately after the change to the defective display state, a command to open the discharge stopper 15 is transmitted, and the pellet 1 equipped with the defective HDD is advanced along the conveyor belt 11 'to be discharged.

On the other hand, the movement of the pellet 1 is controlled by the controller so as to be most efficient in time. For example, even after the HDD 10 is supplied from the pellet 1 stopped at the initial stopper 13, it stops at the inspection stopper 14. If there is a pellet, the initial stopper 13 is not in operation, preventing further advancement. Also, if there are empty pellets on the discharge stopper 15 that are not yet equipped with HDD, the inspection stopper 14 also does not work and holds the pellets forward.

Now, the finished HDD is gathered along the conveyor belt 11 'to the discharge section 16, where it is transported by the pellet moving cylinder 12' to the conveyor belt 11 '. The conveyed pellet 1 is advanced along the conveyor belt 11 'and caught by the stop stopper 17 to stop. Each of the pellets 1 having finished the inspection process is loaded on the conveyor belt 11 in this manner, and of course, the pellets 1 are present in a good state and a bad state.

The pellet 1 is continuously loaded by the stop stopper 17 and the controller raises an alarm to vent the operator when the position of the last pellet 1 is placed on the detection sensor 18. Then, the operator selects and recovers the good display state and the bad display state from the plurality of pellets 1 placed on the conveyor belt 11.

Once the defective and good HDD is sorted out and recovered, the stop stopper 17 is opened again, and the empty pellets 1 are returned to the first point along the conveyor belt 11, and the new HDD is mounted again to repeat the inspection cycle. .

As described above, the hard disk drive inspection method according to the present invention not only minimizes manpower input by automating the manual process but also separates the servo light inspection process and the function inspection process of the HDD which are separately separated into one line. By shortening the transfer time between processes, it is possible to increase productivity by continuously testing continuously while the HDD-mounted pellets move on the conveyor belt.

Claims (5)

A conveyor belt unit for automatically supplying / discharging a hard disk drive, pellets on which the hard disk is mounted on the conveyor belt with a slidable good or bad indicator, and a servo for testing the hard disk drive. Hard disk drive inspection using a device including a light inspection jig and a function inspection jig, a robot hand carrying the hard disk drive, a controller for controlling the conveyor belt portion, a servo light inspection jig, a function inspection jig, and a robot hand. A method, comprising: an initialization step of mounting a hard disk drive on the pellets and sliding the good indicator of the pellet so as to slide into a good indicator state; Supplying a hard disk drive from the pellet to the servolite inspection jig by a robot hand; A servolite inspection step of testing the supplied hard disk drive and selecting and discharging the defective hard disk drive if it is defective; A functional inspection step of carrying out a test by carrying the hard disk drive to a functional inspection jig by the robot hand in case of good quality in the servolite inspection step; A returning step of returning the hard disk drive, which has finished the function checking step, back to the pellet form by the robot hand; If the returned hard disk drive is defective as a result of the function test, a discharging step of discharging the display unit of the pellet on which the hard disk drive is mounted to the defective display state and discharging it; And a recovery step of selecting and recovering good and bad hard disk drives from the discharged plurality of pellets, and then returning to the initialization step. The method of claim 1, wherein the initializing step comprises stopping the pellet on which the hard disk is mounted with a stopper and pushing a good display part configured to slide into a through hole of the pellet to a good display state. The method of claim 1, wherein the servolite inspection step, if the hard disk drive is judged to be defective, transfers it to another empty servolite inspection jig by the robot hand, and then re-examines it. Hard disk drive test method comprising the. The hard disk according to claim 1, wherein the discharging step includes pushing up the defective display part configured to slide in the through hole of the pellet stopped by the stopper to the cylinder to display the defective display state, and then opening the stopper to discharge the pellet. How to check the drive. The method of claim 1, wherein the recovering step comprises the steps of stacking the discharged pellets with a stopper; The last pellet loaded is detected by a detection sensor and alerts an operator; After the alarm, the operator sorts and collects the good and bad hard disk drives by looking at the good and bad indications of the pellets; And opening the stopper to return the pellet to the initial point.