Apparatus for testing USB memory and method thereof

Abstract

The present invention discloses a handler of a USB memory device, comprising a tray horizontally moving by a tray loader/unloader, a loading/unloading picking means transferring a case of a plurality of USB memory devices, a shuttle means horizontally moving by a shuttle transfer in a state where the upper surface of a plurality of mounted USB memory devices is supported by a plunger, and a test board mounted by a test socket comprising a plurality of USB ports enabling electrical connection in such a way that the projected USB connector is inserted into the shuttle means horizontally moving by the shuttle transfer.

Description

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to an apparatus for testing a USB memory and a method thereof. More particularly, the present invention relates to an apparatus for testing a USB memory capable of testing electrical characteristics of a plurality of USB memory devices after completion of assembly thereof, and a method thereof.

2. Background of the Related Art

As illustrated in FIG. 1, in case of a conventional USB (Universal Serial Bus: hereinafter, USB) memory 10, a PCB (Printed Circuit Board, not shown) is mounted inside of a case 2, wherein a USB client chip and a flash memory are electrically connected to the PCB. Moreover, the PCB and a USB connector 1 is electrically connected to the USB client chip.

A plurality of holes 1a are respectively formed on both ends of the USB connector 1 and an insulating member 1b is inserted therein. A plurality of leads (not shown) are formed on the upper surface of the insulating member 1b, wherein the leads are electrically connected to the USB client chip mounted on the PCB when the USB connector 1 is assembled thereto.

According to the prior art, in case that assembly of the USB memory is completed, a test is performed using a testing computer about whether or not electrical characteristics is in a good state. For this, an operator had to determine whether or not electrical characteristics of the USB memory is inferior, by inspecting a result thereof after inserting the USB memory into the USB port of the testing computer in handwork.

However, in case of a conventional apparatus for testing a USB memory, since an operator has to test electrical characteristics thereof in handwork, there is a problem that productivity of a testing operation and reliability thereon are depreciated.

SUMMARY OF THE INVENTION

An object of the present invention is to provide an apparatus for testing a USB memory and a method thereof, capable of testing a plurality of USB memory devices automatically by inserting the same mounted on a shuttle into a test socket.

An apparatus for testing a USB memory device according to the present invention comprises a tray, loading/unloading picking means, a buffer device, a shuttle means, and a test board.

The tray horizontally moves by a tray transfer, with vertically elevating by a tray elevator in a state where a plurality of USB memory devices are mounted. Loading/Unloading picking means transfers a case of a plurality of USB memory devices mounted to the tray after vacuum absorbing the same using a first picker by moving toward an X axis and a Y axis by XY gantries and in case of vacuum absorption of the USB memory devices, senses a fastening direction of a USB connector using a change of vacuum pressure of a second picker. If a plurality of USB memory devices are sequentially transferred by the loading/unloading picking means and the USB connector thereof is mounted to be projected, shuttle means horizontally moves by a shuttle transfer in a state where the upper surface of a plurality of mounted USB memory devices is supported by a plunger. And a test board is mounted by a test socket comprising a plurality of USB ports enabling electrical connection in such a way that the projected USB connector is inserted into shuttle means horizontally moving by the shuttle transfer.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective view illustrating a general USB memory device.

FIG. 2 is a plan view of an apparatus of a USB memory device according to the present invention.

FIG. 3 is a plan view of a tray illustrated in FIG. 2.

FIG. 4 is a perspective view of a loading/unloading picker illustrated in FIG. 2.

FIGS. 5 a and 5b are bottom views of a nozzle illustrating another embodiments of a nozzle illustrated in FIG. 4, respectively.

FIG. 6 is a side view illustrating another embodiment of a picker for sensing an inverse state of a USB memory device illustrated in FIG. 4.

FIG. 7 is a perspective view of a shuttle illustrated in FIG. 2.

FIG. 8 is a side view of a test board and a shuttle illustrated in FIG. 2.

FIG. 9 a is a perspective view illustrating another USB memory device.

FIG. 9 b is a side view of FIG. 9a.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

Hereinafter, the present invention will be in detail described with reference to the accompanying drawings.

FIG. 2 is a plan view of an apparatus for testing a USB memory device according to the present invention.

As illustrated in FIG. 2, The apparatus for testing a USB memory device comprises a tray 20 horizontally moving by a tray transfer (not illustrated), with vertically elevating by a tray elevator 11 in a state where a plurality of USB memory devices 10 are mounted; a loading/unloading picking means 30 transferring a plurality of USB memory devices 10 mounted to the tray 20 by vacuum absorbing the same using a first picker 31 (refer to FIG. 4) by moving toward an X axis and a Y axis by XY gantries 12 and 13 and in case of vacuum absorption of the USB memory devices 10, sensing a fastening direction of a USB connector 1 using a change of vacuum pressure of a second picker; a buffer device 16 for storing a failed USB memory device after testing the USB memory device 10 and an inversed USB memory device to the fastening direction of the USB connecter 1; a shuttle means 40 horizontally moving by a shuttle transfer 51 in a state where the upper surface of a plurality of mounted USB memory devices 10 is supported by a plunger 53 (shown in FIG. 8); and a test board 60 mounted by a test socket 61 (shown in FIG. 8) comprising a plurality of USB ports 61a (shown in FIG. 8) enabling electrical connection in such a way that the projected USB connector 1 is inserted into the shuttle means 40 horizontally moving by the shuttle transfer 51.

As illustrated in FIGS. 2 and 3, the tray 20 is configured so that a plurality of USB memory devices 10 may be mounted thereinside and the tray 20 is configured to be horizontally transferable by a tray transfer (not illustrated) with vertically elevating by the tray elevator 11. As illustrated in FIG. 3, a plurality of first fastening slots 21 are formed spaced apart by a predetermined interval inside of the tray 20 so that the USB memory devices 10 may not be fell off during a transfer thereof.

The tray elevator 11 elevates the tray 20 vertically, i.e. the tray 20 into the upper and lower directions, and transfers the tray 20 horizontally, i.e. the tray 20 into a direction of Y axis directed by ‘A’ arrow, as illustrated in FIG. 2. Herein, the tray elevator 11 and the tray transfer(not shown) are configured to be able to elevate the tray 20 in an apparatus or transfer the same 20 into a horizontal direction.

Moreover, a tray loader 14 loading the tray 20 is provided at a predetermined location where the tray 20 is transferred by the tray transfer. On the contrary, a tray unloader 15 unloading the tray 20 is provided at an opposite location to the tray loader 14.

A buffer device 16 for storing USB memory devices 10 is provided at an opposite location to the tray loader 14 and the tray unloader 15, spaced apart by a predetermined interval.

In the meantime, as illustrated in FIGS. 2 and 4, the loading/unloading picking means 30 is mounted on one surface of XY gantries 12 and 13, and equipped with a first picker 31 and a second picker 33 in order to pick and place the USB memory devices 10. In addition, the loading/unloading picking means 30 is transferable into both X and Y axes within an area drawn by two dotted lines 30a as illustrated in FIG. 2.

A plurality of the first pickers 31 are provided spaced apart by a predetermined interval and enabled to vacuum-absorb a case 2 of a plurality of USB memory devices 10. In addition, a plurality of the second pickers 33 are also provided spaced apart by a predetermined interval and enabled to vacuum-absorb the connector 1 of a plurality of USB memory devices 10.

Moreover, the first and the second pickers 31 and 33 maintain a predetermined interval in order to absorb the case 2 of a plurality of memory devices 10 and the USB connector 1 thereof respectively, and are respectively equipped with first and second nozzles 32 and 34.

A fastening direction of the USB connector 1 is sensed using a change of vacuum pressure, absorbed by the second nozzle 34 of the second picker 33. Namely, the vacuum pressure is different between in case that the USB connector 1 is normally fastened and in case that the same is inverse, whereby it is possible to confirm a fastening state of the USB connector 1. Herein, a vacuum pressure sensor and a control unit (both not illustrated) are used in order to measure vacuum pressure through the second nozzle 34.

The first nozzle 32 is fastened to one end of the first picker 31 and a plurality of holes 35a (refer to 5a) are formed thereinside. The second nozzle 34 is fastened to one end of the second picker 33 and a longitudinal hole 34a (refer to 5b) is formed thereinside.

In addition, it is possible to adopt an image senor 36 sensing a fastening direction of the USB connector 1, by using a light image reflected off after investigation of light with the USB connector 1 instead of the second picker 33.

As illustrated in FIG. 6, the image sensor 36 illuminates light coming from an illuminating device 36b by using the USB connector 1 and senses a fastening direction of the USB connector 1 by receiving a light image from a vision device 36a formed on one surface of the illuminating device 36b, wherein the light image is formed in such a way that the inspected light is reflected off. Herein, a camera is adopted for the vision device 36a and an illuminating diode is adopted for the illuminating device 36b.

As illustrated in FIG. 7, a plurality of second fastening slots 41 are formed spaced apart by a predetermined interval on one surface of shuttle means 40 so that the USB memory devices 10 may not be fell off during a transfer thereof, and a plurality of fastening projections 42 are formed spaced apart by a predetermined interval on other surface thereof.

In the meantime, in order to support the USB memory devices 10 more firmly, a plunger 53 (illustrated in FIG. 8) capable of supporting the upper surface of a plurality of USB memory devices 10 is formed on the upper and lower part. If a plurality of USB memory devices 10 fastened to the shuttle means 40 are transferred to a test board 60 in a state where the same 10 is supported by the plunger 53, they are electrically connected in such a way that the USB connector 1 is inserted into a plurality of USB ports 61a of a test socket 61 fastened to the test board 60. At this time, electrical characteristics of the USB memory 10 is inspected in the test board 10.

In the meantime, FIG. 9a illustrates another embodiment of a USB memory 100. The USB memory device 100 comprises a knob 100a capable of transferring a USB connector 101 into a left and right directions in order to protect the same 101 and a guide slot 100b formed in length on a center of the USB memory 100. The knob 100a is configured to be transferable into an ‘E’ direction of an arrow along the guide slot 100b whereby the USB connector 101 is possible to be in-and-out to the outside.

In addition, in case that the knob 100a is formed like above, a projection 153a for supporting the knob 100a is formed on one surface of a plunger 153 so that the USB connector 101 may be drawn out to the out side in the USB memory 100, as illustrated in FIG. 9b.

In the mean time, a method for testing a plurality of USB memory devices of the present invention will be described.

The method comprises the steps of providing a plurality of USB memory devices 10 to a tray 20; transferring the tray 20 to a loading position of the tray loader by tray transfer (not shown); transferring USB memory device stored at the tray 20 to shuttle means 40 by loading/unloading picking means 30; testing USB memory device 10 inserted at a USB port 61a of test socket 61 after transferring shuttle means 40 to test board by shuttle transferring device 51; moving shuttle means 40 with an inverse direction by shuttle transferring means 51 after completing the test of USB memory device 10; storing a failed USB memory device to a buffer device 16 and storing good USB memory device to a tray 20 located at loading position; unloading the tray 20 from tray unloader by the tray transfer.

In the step for providing USB memory device 10 to the tray 20, the tray 20 is mounted with multi-step at the tray elevator 11. Also, the tray 20 is moved at a loading position (that is, a remaining location of the tray loader 20) by the tray transfer(not shown).

The USB memory device 10 of the tray 20 is picked by loading/unloading picking means and an inversed and picked USB memory device among picked USB memory device is also stored at the buffer device 16. Also, a normal picked USB memory device is stored and mounted at the shuttle means 40.

That is, in the step of transferring USB memory device 10 stored at the tray 20 to shuttle means 40 by loading/unloading picking means 30, the step comprises the steps of storing an inversed and picked USB memory device among picked USB memory devices to a buffer device 16 by loading/unloading picking means; storing a normal picked USB memory device to shuttle means.

In the meantime, in the step of transferring USB memory device stored at the tray to shuttle means 40 by loading/unloading picking means, the step further comprising the step of, providing plunger 53 for preventing left of USB memory devices. When the plunger 53 returns to a position of the shuttle means 40 by shuttle transferring device 51 after completing the test of the USB memory device 10, the plunger 53 is removed.

Now, operation of apparatus for testing a USB memory of the present invention will be described.

First, if a plurality of USB memory devices 10 to be tested are mounted to the tray 20, the USB memory device 10 is stacked with a multistage by the tray elevator 11. The tray 20 drawn out from the tray elevator 11 is transferred to a side of the tray loader 12, a loading position, by the tray transfer (not illustrated). At this time, the tray loading position is where the tray loader 12 is located in FIG. 2.

If the tray 20 is transferred to the loading position, the first picker 31 of the loading/unloading picking means 30 and the second picker 33 thereof pick the predetermined number of the USB memory devices 10 and transfer the same to the shuttle means 40.

When the loading/unloading picking means 30 transfers the USB memory device 10, the first picker 31 absorbs the case 2 of the USB memory device 10 and the second picker 33 absorbs the USB connector 1. If the second picker 33 absorbs a plurality of holes 1a formed on both ends of the front surface of the USB connector 1, in absorbing the same 1, it is determined to be normally absorbed.

However, in case that the second picker 33 absorbs a plurality of holes (not shown) formed on both ends of the rear surface of the USB connector 1, blocked by the insulation member 1b (as shown in FIG. 1), it is determined to be an error since pressure of vacuum absorption is respectively different in comparison with the case of absorbing a plurality of holes formed on both ends of the front surface and an inverse direction of the USB memory 10 is absorbed.

That is, it is possible to determine whether or not a fastening direction of the USB memory device 10 is right based on a change of pressure of the USB connector 1 absorbed by the second picker 33. Herein, it is determined by a control unit (not illustrated) adopted in the apparatus 100 for testing a USB memory device 10. In addition, the USB memory device 10 of which fastening direction is not in a right state is transferred to the buffer 16 by the loading/unloading picking means 30.

As illustrated in FIG. 8, when each of shuttle means 40 is transferred from arrows ‘B’ to ‘C’ by the shuttle transfer 51, the plunger 53 prevents the USB memory device 10 received inside the shuttle means 40 from falling off by supporting the upper surface thereof. In this state, the USB memory device 10 is tested in such a way that the USB connector 1 projected on one surface of the shuttle means 40 is inserted into the USB port 61a fastened to the test socket 61 of the test board 60.

If a test of the USB memory device 10 is completed, the shuttle means 40 is transferred to an opposite direction by the shuttle transfer 51. At this time, the USB memory device 10 having caused an error is classified into the buffer device 16 and other normal USB memory devices 10 are transferred to an unloading position where the tray unloader 15 is located, by the loading/unloading picking means 30. In addition, the tray 20 stored with normal USB memory devices 10 is removed after being transferred from the tray loader 15 to the tray elevator 11 by the tray transfer (not illustrated).

There is an advantage that it is possible to automatically test a plurality of USB memory devices more promptly and more precisely in such a way that a plurality of USB memory devices is transferred to a shuttle after transferring the tray receiving a plurality of USB memory devices to a tray loading position, and simultaneously inserted into a test socket.

Claims

1. Apparatus for testing a plurality of USB memory devices, the apparatus of USB memory device comprising: a tray horizontally moving with vertically elevating by a tray elevator in a state where a plurality of the USB memory devices are mounted; loading/unloading picking means transferring a plurality of the USB memory devices mounted to the tray after vacuum absorbing the same using a first and a second pickers by moving toward an X axis and a Y axis by XY gantries, and sensing a fastening direction of a USB connector using a change of vacuum pressure of the second picker; a buffer device for storing a failed USB memory device after testing the USB memory device and an inversed USB memory device to the fastening direction of the USB connecter; shuttle means horizontally moving by a shuttle transfer in a state where the upper surface of a plurality of the mounted USB memory devices is supported by a plunger; and a test board mounted by a test socket having a plurality of USB ports enabling electrical connection in such a way that the projected USB connector is inserted into shuttle means horizontally moving by the shuttle transfer.

2. The apparatus as claimed in claim 1, wherein a plurality of first fastening slots are formed spaced apart by a predetermined interval on one surface of the tray, so that a plurality of the USB memory devices mounted thereto may be supported.

3. The apparatus as claimed in claim 1, loading/unloading picking means unloads a plurality of the USB memory devices of which test is completed in the test board, to the tray and transfers USB memory device having caused an error to a buffer, based on a test result.

4. The apparatus as claimed in claim 1, the second picker of loading/unloading picking means is replaceable by an image sensor sensing a fastening direction of a USB connector by using a light image, reflected off after illuminating light with the USB connector.

5. The apparatus as claimed in claim 4, wherein the image sensor comprises: an illuminating device, fastened on a front surface of a first picker of loading/unloading picking means, illuminating light with the USB connector of the USB memory device; and a vision device formed on surface of the illuminating device, sensing a fastening direction of the USB connector by receiving a light image reflected off from the USB connector.

6. The apparatus as claimed in claim 1, wherein the shuttle means is mounted by a plurality of USB memory devices that are sequentially transferred by loading/unloading picking means, and a plurality of fastening slots are formed on the shuttle means, spaced apart by a predetermined interval.

7. The apparatus as claimed in claim 1, wherein in case that a knob is formed on one surface of the USB memory device in order to project the USB connector toward the outside, a projection for supporting the knob is formed on one surface of a plunger of shuttle means.

8. Apparatus for testing a plurality of USB memory devices, the apparatus of USB memory device comprising: at least one USB memory device; a first picker transferring the USB memory devices by vacuum absorbing the same; a second picker vacuum absorbing a USB connector of the transferred USB memory devices; and a control unit sensing a fastening direction of the USB connector, based on a change of vacuum pressure of the USB connector absorbed by the second picker by measuring the same.

9. The apparatus as claimed in claim 8, wherein the second picker is replaceable by an image sensor sensing a fastening direction of the USB connector by using a light image reflected off after illuminating light with the USB connector.

10. The apparatus as claimed in claim 9, wherein the image sensor comprises: an illuminating device, fastened on a predetermined part of a first picker, illuminating light with the USB connector of the USB memory device; and a vision device, formed on one surface of the illuminating device, sensing a fastening direction of the USB connector by receiving a light image reflected off from the USB connector.

11. In a method for testing a plurality of USB memory devices, the method comprising the steps of: providing a plurality of USB memory devices to a tray; transferring the tray to a loading position of the tray loader by tray transfer; transferring USB memory device stored at the tray to shuttle means by loading/unloading picking means; testing USB memory device inserted at a USB port of test socket after transferring shuttle means to test board by shuttle transferring device; moving shuttle means with an inverse direction by shuttle transferring means after completing the test of USB memory device; storing a failed USB memory device to a buffer device and storing good USB memory device to a tray located at loading position; unloading the tray from tray unloader by the tray transfer.

12. The method as claimed in claim 11, in the step of transferring USB memory device stored at the tray to shuttle means by loading/unloading picking means, the step further comprising the steps of: storing an inversed and picked USB memory device among picked USB memory devices to a buffer device by loading/unloading picking means; storing a normal picked USB memory device to shuttle means.

13. The method as claimed in claim 11, in the step of transferring USB memory device stored at the tray to shuttle means by loading/unloading picking means, the step further comprising the step of: providing plunger for preventing left of USB memory devices.