CN211168869U

CN211168869U - Automatic test equipment for memory bank

Info

Publication number: CN211168869U
Application number: CN201922236400.3U
Authority: CN
Inventors: 汪鹏; 覃平; 范艳; 彭振东; 杨伟峡
Original assignee: Suzhou Xunyiko System Technology Co ltd
Current assignee: Suzhou Xunyiko System Technology Co ltd
Priority date: 2019-12-13
Filing date: 2019-12-13
Publication date: 2020-08-04
Anticipated expiration: 2029-12-13

Abstract

The utility model provides an automatic test equipment for memory bank, which comprises a frame platform and at least one group of test mechanisms arranged on the frame platform, wherein the test mechanisms comprise a mechanical arm, an X-direction transfer carrying station, a Y-direction transfer carrying station, an X-direction material box module, a Y-direction material box module, a labeling machine, a code scanning gun, an ion fan and a memory test instrument; x corresponds in X to moving the below that moves the transfer station to the magazine module, and it is including first X to magazine group, second X to magazine group and third X to magazine group, and third X is the sharp below that corresponds the distribution at Y to moving the transfer station to the magazine module to magazine group and Y, and Y is inboard at X to magazine module and Y right angle to the magazine module including first Y to magazine group, second Y to magazine group and third Y to magazine group, and the manipulator, the labeller, sweep a yard rifle, ionic wind machine and memory test instrument setting, the utility model discloses can improve the degree of automation of DRAM greatly to improve efficiency of software testing greatly.

Description

Automatic test equipment for memory bank

Technical Field

The utility model relates to a test equipment, especially an automatic test equipment of DRAM.

Background

The memory is used as a necessary accessory for the server and the storage, and the compatibility and the matching of the memory and the mainboard directly determine the stability of a memory link. If the link is not well designed and verified, a series of memory compatibility problems will result, and the compatibility problems relate to various aspects such as board design, manufacturing process, environmental factors and the like. Therefore, test verification of memory becomes especially important.

Most of the existing tests for the memory of the memory bank still stay in a low-efficiency state of manual operation, and the requirement of mass production on quick inspection of qualified memories cannot be met, so that the problem of delay of the memory tests on production is caused.

Therefore, there is an urgent need for an automatic test equipment for memory banks, which can greatly improve the automation degree of the memory banks, thereby greatly improving the test efficiency of the memory banks.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a DRAM automatic test equipment can improve the degree of automation of DRAM greatly to improve efficiency of software testing greatly.

The utility model provides a following technical scheme:

an automatic test device for memory chips comprises a rack platform and at least one group of test mechanisms arranged on the rack platform, wherein each test mechanism comprises a mechanical arm, an X-direction transfer carrying station, a Y-direction transfer carrying station, an X-direction box module, a Y-direction box module, a labeling machine, a code scanning gun, an ion fan and a memory test instrument; the X-direction transfer carrying station comprises an X-direction portal frame fixed on the rack platform, an X-direction electric sliding table fixed on the X-direction portal frame, a first Z-direction mounting plate connected with a sliding block on the X-direction electric sliding table, a first Z-direction electric sliding table fixed on the first Z-direction mounting plate, an X-direction clamping jaw mounting frame fixed on the sliding block of the first Z-direction electric sliding table and an X-direction clamping jaw mechanism fixed on the X-direction clamping jaw mounting frame; the Y-direction transfer carrying station and the X-direction transfer carrying station are distributed at right angles and comprise a Y-direction portal frame fixed on the rack platform, a Y-direction electric sliding table fixed on the Y-direction portal frame, a second Z-direction mounting plate connected with a sliding block on the Y-direction electric sliding table, a second Z-direction electric sliding table fixed on the Z-direction mounting plate, a Y-direction clamping jaw mounting frame fixed on the sliding block of the second Z-direction electric sliding table and a Y-direction clamping jaw mechanism fixed on the Y-direction clamping jaw mounting frame; the X-direction material box module corresponds to the position below the X-direction transfer carrying station and comprises a first X-direction material box group, a second X-direction material box group and a third X-direction material box group which are linearly distributed, the first X-direction material box group, the second X-direction material box group and the third X-direction material box group respectively comprise a plurality of X-direction material boxes which are arranged in a stacked mode, and a plurality of X-direction slots used for storing memory banks are formed in the X-direction material boxes; the third X-direction material box group and the Y-direction material box module are linearly and correspondingly distributed below the Y-direction transfer carrying station, the Y-direction material box module comprises a first Y-direction material box group, a second Y-direction material box group and a third Y-direction material box group which are linearly distributed, the first Y-direction material box group, the second Y-direction material box group and the third X-direction material box group respectively comprise a plurality of Y-direction material boxes which are stacked, and a plurality of Y-direction slots for storing the internal storage bars are formed in the Y-direction material boxes; the manipulator, the labeling machine, the code scanning gun, the ion fan and the memory test instrument are arranged on the right-angle inner side of the X-direction material box module and the Y-direction material box module, the code scanning gun and the ion fan are oppositely arranged, the manipulator can take out a memory strip clamp in the X-direction material box module and send the memory strip clamp into a test slot of the memory test instrument, and also can send the memory strip in the memory test instrument into a Y-direction material box corresponding to the Y-direction material box module, the code scanning gun and the ion fan are oppositely arranged, the code scanning gun and the ion fan are positioned between the manipulator and the memory test instrument, when the manipulator sends the memory strip in the X-direction material box module into the memory test instrument, the manipulator can pass between the code scanning gun and the ion fan, and the code scanning gun is used for scanning codes for the memory strip, the labeling machine is located between the Y-direction material box module and the memory testing instrument, when the manipulator sends the memory in the memory testing instrument to the Y-direction material box module, the manipulator can pass through the labeling machine, and the labeling machine can label the passing memory.

Preferably, the X-direction clamping jaw mechanism comprises an X-direction pneumatic clamping jaw fixed on the X-direction clamping jaw mounting frame and a clamping jaw body connected to a chuck of the X-direction pneumatic clamping jaw and used for clamping an X-direction magazine.

Preferably, the Y-direction clamping jaw mechanism comprises a Y-direction pneumatic clamping jaw fixed on the Y-direction clamping jaw mounting frame and a clamping jaw body connected to a chuck of the Y-direction pneumatic clamping jaw and used for clamping a Y-direction magazine.

Preferably, two groups of testing mechanisms distributed in a mirror image mode are arranged on the rack platform.

Preferably, four groups of caster wheels distributed in a rectangular shape are installed at the bottom of the rack platform.

Preferably, a cover body used for covering the outer side of the testing mechanism is further fixed on the rack platform.

Preferably, first X is to magazine group second X is to magazine group and third X still is equipped with two sets of rotatory hold-down mechanism groups that set up relatively to the top of magazine group, rotatory hold-down mechanism group is including two sets of rotatory hold-down assembly that set up side by side, rotatory hold-down assembly includes that the rotatory die clamping cylinder who fixes on the cover body through cylinder support and connects rotatory expansion end of rotatory die clamping cylinder just is used for compressing tightly the depression bar on the X of top side is to the magazine.

The utility model has the advantages that: the memory bank to be detected is stored in the X-direction magazine in sequence by manpower, the X-direction magazine is stacked and arranged on the rack platform below the X-direction transfer carrying station, the manipulator is arranged on the rack platform to convey the memory bank in the X-direction magazine to the memory testing instrument by the manipulator, after the memory bank is inserted into the mainboard for testing, the manipulator can also convey the memory bank in the memory testing instrument to the corresponding Y-direction magazine module, and because the code scanning gun and the ion fan which are oppositely arranged are arranged between the manipulator and the memory testing instrument 100, the two-dimensional code on the memory bank can be scanned and the dust and static electricity can be removed before the memory bank enters the memory testing instrument for testing, and because the labeling machine is also arranged between the memory testing instrument and the Y-direction magazine module, the labeling treatment of the tested memory bank can be completed, therefore, excellent memory banks can be distinguished, and the X-direction transfer carrying station is further arranged on the X-direction material box, and the Y-direction transfer carrying station is arranged on the Y-direction material box, so that when the memory banks in the X-direction material box are empty, the X-direction transfer carrying station can grab the material box through descending of the X-direction transfer clamping jaw mechanism in the X-direction transfer carrying station, the X-direction transfer carrying station can move to the third X-direction material box group through the X-direction electric sliding table, the third X-direction material box group serves as a cache mechanism of the material box, the Y-direction transfer carrying station can grab and move empty material boxes cached to the third X-direction material box group to the Y-direction material box module, and accordingly the empty material boxes which are conveyed are used for placing the detected memory banks, recycling of the material box is achieved, and therefore the automatic memory bank testing equipment can greatly improve the automation degree of the memory banks, and testing efficiency is greatly.

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 embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a top view of FIG. 1;

FIG. 3 is a front view of FIG. 2;

FIG. 4 is a schematic view of the robot;

FIG. 5 is a schematic view of the structure of the X-direction magazine;

FIG. 6 is a schematic view showing the structure of an X-direction transfer/conveyance station;

fig. 7 is a schematic structural view of a Y-direction transfer/conveyance station;

FIG. 8 is a schematic structural view of an X-direction magazine module;

notation in the figure: 100 is a memory test instrument, 200 is a mechanical hand, 300 is an X-direction transfer and transportation station, 400 is a Y-direction transfer and transportation station, 500 is an X-direction cartridge module, 600 is a Y-direction cartridge module, 700 is a labeling machine, 800 is a code scanning gun, 900 is an ion blower, 1 is a rack platform, 2 is a caster, 31 is a rotary clamping cylinder, 32 is a pressure bar, 310 is an X-direction portal frame, 320 is an X-direction electric sliding table, 330 is a first Z-direction mounting plate, 340 is a first Z-direction electric sliding table, 350 is an X-direction clamping jaw mounting frame, 360 is an X-direction clamping jaw mechanism, 410 is a Y-direction portal frame, 420 is a Y-direction electric sliding table, 430 is a second Z-direction mounting plate, 440 is a second Z-direction electric sliding table, 450 is a Y-direction clamping jaw mounting frame, 460 is a Y-direction clamping jaw mechanism, 510 is a first X-direction cartridge group, 520 is a second X-direction cartridge group, 530 is a third X-direction cartridge group, 610 is a first Y-direction cartridge group, 620 is a, and 630 is a third Y-direction magazine group.

Detailed Description

With reference to fig. 1 to 8, an automatic test equipment for memory banks includes a rack platform 1 and two sets of test mechanisms disposed on the rack platform 1 and distributed in a mirror image, where the test mechanisms include a manipulator 200, an X-direction transfer and carrying station 300, a Y-direction transfer and carrying station 400, an X-direction magazine module 500, a Y-direction magazine module 600, a labeler 700, a code scanning gun 800, an ion blower 900, and a memory test instrument 100; the X-direction transfer and carrying station 300 comprises an X-direction portal frame 310 fixed on the rack platform 1, an X-direction electric sliding table 320 fixed on the X-direction portal frame 310, a first Z-direction mounting plate 330 connected with a sliding block on the X-direction electric sliding table 320, a first Z-direction electric sliding table 340 fixed on the first Z-direction mounting plate, an X-direction clamping jaw mounting frame 350 fixed on the sliding block of the first Z-direction electric sliding table 340, and an X-direction clamping jaw mechanism 360 fixed on the X-direction clamping jaw mounting frame 350; the Y-direction transfer and carrying station 400 and the X-direction transfer and carrying station 300 are distributed at a right angle, and include a Y-direction portal frame 410 fixed on the rack platform 1, a Y-direction electric sliding table 420 fixed on the Y-direction portal frame 410, a second Z-direction mounting plate 430 connected with a slider on the Y-direction electric sliding table 420, a second Z-direction electric sliding table 440 fixed on the second Z-direction mounting plate, a Y-direction clamping jaw mounting frame 450 fixed on a slider of the second Z-direction electric sliding table 440, and a Y-direction clamping jaw mechanism 460 fixed on the Y-direction clamping jaw mounting frame 450; the X-direction magazine module 500 corresponds to the lower part of the X-direction transfer carrying station 300 and comprises a first X-direction magazine group 510, a second X-direction magazine group 520 and a third X-direction magazine group 530 which are linearly distributed, wherein the first X-direction magazine group 510, the second X-direction magazine group 520 and the third X-direction magazine group 530 comprise a plurality of X-direction magazines which are stacked and arranged, and a plurality of X-direction slots for storing memory banks are arranged in the X-direction magazines; the third X-direction magazine group 530 and the Y-direction magazine module 600 are linearly and correspondingly distributed below the Y-direction transfer carrying station 400, the Y-direction magazine module 600 comprises a first Y-direction magazine group 610, a second Y-direction magazine group 620 and a third Y-direction magazine group 630 which are linearly distributed, the first Y-direction magazine group 610, the second Y-direction magazine group 620 and the third X-direction magazine group 530 all comprise a plurality of Y-direction magazines which are stacked, and a plurality of Y-direction slots for storing the memory bars are arranged in the Y-direction magazines; the manipulator 200, the labeling machine 700, the code scanning gun 800, the ion fan 900 and the memory test instrument 100 are arranged on the right-angle inner sides of the X-direction cartridge module 500 and the Y-direction cartridge module 600, the code scanning gun 800 and the ion fan 900 are oppositely arranged, the manipulator 200 takes out memory bars in the X-direction cartridge module 500, after the memory bars are scanned between the code scanning gun 800 and the ion fan 900, the code is scanned by the code scanning gun 800, and after static electricity is removed by the ion fan 900, the manipulator 200 inserts the memory bars into the memory test instrument 100 for memory test, and after the memory bars are tested, the memory bars are clamped by the labeling machine 700 and then are sent into Y-direction cartridge corresponding to the Y-direction cartridge module 600.

The X-direction clamping jaw mechanism 360 comprises X-direction pneumatic clamping jaws fixed on the X-direction clamping jaw mounting rack 350 and a clamping jaw body connected to a chuck of the X-direction pneumatic clamping jaws and used for clamping the X-direction magazine.

The Y-direction clamping jaw mechanism 460 comprises Y-direction pneumatic clamping jaws fixed on the Y-direction clamping jaw mounting rack 450 and a clamping jaw body connected to a chuck of the Y-direction pneumatic clamping jaws and used for clamping a Y-direction magazine.

Four groups of caster wheels 2 which are distributed in a rectangular shape are arranged at the bottom of the frame platform 1.

And a cover body used for covering the outer side of the testing mechanism is also fixed on the rack platform 1.

First X is still equipped with two sets of rotatory hold-down mechanism group 30 that set up relatively to the top of magazine group 510, second X is organized 520 and third X is organized 530 to the magazine, rotatory hold-down mechanism group is including two sets of rotatory hold-down assembly that set up side by side, rotatory hold-down assembly includes fixes rotatory die clamping cylinder 31 on the cover body and connects the rotatory expansion end of rotatory die clamping cylinder 31 and be used for compressing tightly the depression bar 32 on the X of top side is to the magazine through cylinder support, thereby when the deposit strip is got to the manipulator clamp, can be through compressing tightly X to magazine module 500, Y is to magazine module 600, avoid having X taken up to magazine and Y to the magazine along with the inside deposit strip of inserting the dress.

The utility model discloses a theory of operation is: the memory bank to be detected is stored in the X-direction material box in sequence by hand, the X-direction material box is stacked and arranged on the rack platform 1 below the X-direction transfer carrying station 300, the mechanical hand is arranged on the rack platform 1, the mechanical hand 200 is used for conveying the memory bank in the X-direction material box to the memory test instrument 100, after the memory bank is inserted into the mainboard for testing, the mechanical hand can also be used for conveying the memory bank in the memory test instrument 100 to the corresponding Y-direction material box module 600, and the code scanning gun 800 and the ion fan 900 which are oppositely arranged are arranged between the mechanical hand and the memory test instrument 100, so that the two-dimensional code on the memory bank can be scanned and the dust and static electricity can be removed before the memory bank is tested in the memory test instrument 100, and the labeling machine is also arranged between the memory test instrument 100 and the Y-direction material box module 600, the mechanical hand clamps the memory bank to be close to the labeling machine, the label is taken out from the labeler, the manipulator moves to attach the label to the memory stick, thereby labeling the tested memory stick can be completed, so as to distinguish good memory sticks, and because the X-direction transfer carrying station 300 is also arranged on the X-direction material box, and the Y-direction transfer carrying station is arranged on the Y-direction material box, when the memory stick in the X-direction material box is empty, the material box can be grabbed by descending the X-direction clamping jaw mechanism 360 in the X-direction transfer carrying station 300, and the material box is moved to the third X-direction material box group 530 through the X-direction electric sliding table 320, the third X-direction material box group 530 is used as a buffer memory mechanism of the material box, the Y-direction transfer carrying station 400 can grab and move the empty material box buffered to the Y-direction material box module 600, so as to use the empty material box as the memory stick for placing the detection, thereby realizing the cyclic utilization of the material box, therefore, the automatic memory stick testing equipment can greatly improve the automation degree of the memory stick, thereby greatly improving the testing efficiency.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The automatic test equipment for the memory bank is characterized by comprising a rack platform and at least one group of test mechanisms arranged on the rack platform, wherein each test mechanism comprises a mechanical arm, an X-direction transfer carrying station, a Y-direction transfer carrying station, an X-direction magazine module, a Y-direction magazine module, a labeling machine, a code scanning gun, an ion fan and a memory test instrument;

the X-direction transfer carrying station comprises an X-direction portal frame fixed on the rack platform, an X-direction electric sliding table fixed on the X-direction portal frame, a first Z-direction mounting plate connected with a sliding block on the X-direction electric sliding table, a first Z-direction electric sliding table fixed on the first Z-direction mounting plate, an X-direction clamping jaw mounting frame fixed on the sliding block of the first Z-direction electric sliding table and an X-direction clamping jaw mechanism fixed on the X-direction clamping jaw mounting frame;

the Y-direction transfer carrying station and the X-direction transfer carrying station are distributed at right angles and comprise a Y-direction portal frame fixed on the rack platform, a Y-direction electric sliding table fixed on the Y-direction portal frame, a second Z-direction mounting plate connected with a sliding block on the Y-direction electric sliding table, a second Z-direction electric sliding table fixed on the second Z-direction mounting plate, a Y-direction clamping jaw mounting frame fixed on the sliding block of the second Z-direction electric sliding table and a Y-direction clamping jaw mechanism fixed on the Y-direction clamping jaw mounting frame;

the X-direction material box module corresponds to the position below the X-direction transfer carrying station and comprises a first X-direction material box group, a second X-direction material box group and a third X-direction material box group which are linearly distributed, the first X-direction material box group, the second X-direction material box group and the third X-direction material box group respectively comprise a plurality of X-direction material boxes which are arranged in a stacked mode, and a plurality of X-direction slots used for storing memory banks are formed in the X-direction material boxes;

the third X-direction material box group and the Y-direction material box module are linearly and correspondingly distributed below the Y-direction transfer carrying station, the Y-direction material box module comprises a first Y-direction material box group, a second Y-direction material box group and a third Y-direction material box group which are linearly distributed, the first Y-direction material box group, the second Y-direction material box group and the third X-direction material box group respectively comprise a plurality of Y-direction material boxes which are stacked, and a plurality of Y-direction slots for storing the internal storage bars are formed in the Y-direction material boxes;

the manipulator, the labeling machine, the code scanning gun, the ion fan and the memory test instrument are arranged on the right-angle inner side of the X-direction material box module and the Y-direction material box module, the code scanning gun and the ion fan are oppositely arranged, the manipulator can take out a memory strip clamp in the X-direction material box module and send the memory strip clamp into a test slot of the memory test instrument, and also can send the memory strip in the memory test instrument into a Y-direction material box corresponding to the Y-direction material box module, the code scanning gun and the ion fan are oppositely arranged, the code scanning gun and the ion fan are positioned between the manipulator and the memory test instrument, when the manipulator sends the memory strip in the X-direction material box module into the memory test instrument, the manipulator can pass between the code scanning gun and the ion fan, and the code scanning gun is used for scanning codes for the memory strip, the labeling machine is located between the Y-direction material box module and the memory testing instrument, when the manipulator sends the memory in the memory testing instrument to the Y-direction material box module, the manipulator can pass through the labeling machine, and the labeling machine can label the passing memory.

2. The automatic memory stick testing device of claim 1, wherein the X-direction gripper mechanism comprises X-direction pneumatic grippers fixed to the X-direction gripper mounting rack and gripper bodies connected to grippers of the X-direction pneumatic grippers for gripping an X-direction magazine.

3. The automatic memory stick testing device of claim 1, wherein the Y-directional gripper mechanism comprises Y-directional pneumatic grippers fixed to the Y-directional gripper mount and gripper bodies connected to the grippers of the Y-directional pneumatic grippers for gripping the Y-directional magazine.

4. The automatic test equipment for the memory bank as claimed in claim 1, wherein two sets of test mechanisms are arranged on the rack platform in a mirror image distribution.

5. The automatic memory bank testing equipment of claim 1, wherein four sets of casters are mounted on the bottom of the rack platform and are distributed in a rectangular shape.

6. The automatic memory bank testing device of claim 1, wherein a cover is further fixed to the rack platform to cover the testing mechanism.

7. The automatic test equipment for the memory bank according to claim 6, wherein two sets of rotary compressing mechanisms are oppositely arranged on the top of the first X-direction magazine group, the second X-direction magazine group and the third X-direction magazine group, each rotary compressing mechanism comprises two sets of rotary compressing assemblies arranged side by side, each rotary compressing assembly comprises a rotary clamping cylinder fixed on the cover body through a cylinder support and a compression bar connected to the rotary movable end of the rotary clamping cylinder and used for compressing the X-direction magazine on the topmost side.