CN205091434U - Detecting system of BGA chip - Google Patents

Abstract

The utility model discloses a detecting system of BGA chip, including workstation, the pressure plate mechanism who is located the horizontal table top, the automatic positioning system that inputs, the last fixed slot of seting up of horizontal table is equipped with the probe module in, automatically, it includes input module, supports module, spacing module to input positioning system. Input module carries the BGA chip to support the module on, and the telescopic supports the module makes the BGA chip drop on in the probe module of fixed slot, the clamp plate pushes down on the BGA chip, makes the probe contact in solder joint and the probe module and forms signal connection with detection module, after the detection finished, the clamp plate resetd, later, rise and make the BGA chip break away from the fixed slot through probe module elevating system drive probe module. So, the BGA chip can automatically be fixed a position in the fixed slot, and after the BGA chip assay, the homoenergetic enough automatically breaks away from the fixed slot, and is not only easy and simple to handle, and moreover, BGA chip positioning is accurate.

Description

A kind of detection system of bga chip

Technical field:

The utility model relates to a kind of detection system of bga chip.

Background technology:

The QFP common due to chip (referred to as the bga chip) Thickness Ratio of BGA package reduces more than 1/2, weight saving more than 3/4, electric heating property can be improved simultaneously, parasitic parameter is little, signal transmission delay is little, adapt to frequency extensive, assemble available coplanar soldering reliability high, therefore be widely used in the high density such as CPU, mainboard south, north bridge chips, high-performance, many pins integrated circuit and to volume and the higher portable mobile termianl of quality requirements, as panel computer, PAD etc.

Existing bga chip has welded and has detected it, avoids occurring that the phenomenon such as solder skip, rosin joint causes product bad.Detect mainly by artificial hand press operation to bga chip welding at present, because bga chip is plane-welding, when artificial hand detects, easily there is the bga chip discontinuity of plane, make and occur part solder joint cannot with probes touch, affect Detection results and efficiency.

For solving the problems of the technologies described above, application number is that the utility application of CN201420837741.0 discloses a kind of bga chip manual detection device, comprise being provided with on the bracket and be rotationally connected and be provided with protruding depression bar, described projection coordinates with the connecting rod being connected briquetting, the probe module being located at worktable is provided with multiple extensible probe be connected with detection module signal, and projection during detection on depression bar makes briquetting by the probe close contact on the pad of bga chip and probe module.During work, bga chip to be detected is put into worktable pickup groove, by rotating depression bar, by the projection on depression bar, briquetting is moved down, bga chip is compressed downwards, its each solder joint can be formed signal with detection module be connected with the probes touch on probe module, and then determine whether the welding of bga chip solder joint meets the requirements.Owing to being rigid material by briquetting, when briquetting makes solder joint and probes touch, uniform force everywhere on bga chip.

Utility model content:

The technical matters that the utility model solves: bga chip manual detection device of the prior art, operating personnel are needed to be placed in the pickup groove of worktable by bga chip to be detected in a manual fashion, so, if pickup groove size and bga chip to be detected measure-alike, then operating personnel are difficult to be positioned in pickup groove by bga chip easily and quickly; If pickup groove size is greater than bga chip size to be detected, then there will be the problem that bga chip location is inaccurate.

For solving the problems of the technologies described above, the utility model provides following technical scheme:

A detection system for bga chip, comprise be provided with riser horizontal table, be positioned at press plate mechanism above horizontal table, automatically input positioning system;

Described horizontal table offers pickup groove, is provided with probe module in pickup groove, probe module is provided with multiple extensible probe be connected with detection module signal;

Described press plate mechanism comprises and being positioned at pressing plate above pickup groove, being arranged on the lift drive mechanism for driving pressing plate to be elevated on riser;

Described automatic input positioning system comprises load module, supporting module, spacing module;

Described riser is offered a gap, described horizontal table is offered a longitudinally guiding groove, longitudinally guiding groove is through the gap on riser, and longitudinally guiding groove is through pickup groove, and the transverse width of longitudinally guiding groove equals the transverse width of pickup groove; Described load module comprises the tablet be arranged on riser, the first telescopic cylinder be arranged on riser, the pushing block be arranged in the first retractable air cylinder piston; Described tablet is positioned at the side of gap on riser, tablet and longitudinally guiding groove tandem array, and described pushing block moves around along the tablet of tandem array and longitudinally guiding groove level under the driving of the first telescopic cylinder;

Described horizontal table offers the first horizontal square through hole and the second horizontal square through hole, first horizontal square through hole and the second horizontal square through hole are positioned at the left and right sides of pickup groove, the first horizontal square through hole and the second horizontal square through hole respectively with pickup groove cross connection; Described supporting module comprises the first transverse slat, the first lateral cylinder, the second transverse slat, the second lateral cylinder; Described first transverse slat is plugged in the first horizontal square through hole, first lateral cylinder is arranged on the left side wall of horizontal table, the piston rod of the first lateral cylinder is connected with the first transverse slat, described second transverse slat is plugged in the second horizontal square through hole, second lateral cylinder is arranged on the right side wall of horizontal table, and the piston rod of the second lateral cylinder is connected with the second transverse slat; The upper surface of described first transverse slat and the upper surface of the second transverse slat all flush with the baseplane of longitudinally guiding groove;

Described spacing module comprises and is hinged on a L shape block on horizontal table and the 2nd L shape block, is arranged on the second telescopic cylinder on horizontal table and the 3rd telescopic cylinder; A described L shape block is positioned at the left side of pickup groove, and the 2nd L shape block is positioned at the right side of pickup groove, and piston rod and a L shape block of described second telescopic cylinder are hinged, and piston rod and the 2nd L shape block of the 3rd telescopic cylinder are hinged;

Described pickup groove runs through horizontal table up and down, and the bottom of described probe module is provided with probe module elevating mechanism.

By technique scheme, the principle of work of the detection system of bga chip described in the utility model is as follows:

The first, by conveying equipment or be manually placed on tablet by bga chip to be detected, the both sides of tablet are provided with spacing guardrail.

Second, first telescopic cylinder drives pushing block to vertically move, and bga chip is entered longitudinally guiding groove along tablet by pushing block after gap, and bga chip terminates in a L shape block and the 2nd L shape block; Now, bga chip is supported by the first transverse slat stretched in pickup groove and the second transverse slat.

3rd, the first lateral cylinder and the action simultaneously of the second lateral cylinder, the first transverse slat is moved to the left, second transverse slat moves right, and so, the first transverse slat and the second transverse slat leave pickup groove simultaneously, and then bga chip falls in the extensible probe of the probe module in pickup groove.

4th, lift drive mechanism drives under pressing plate and is pressed on bga chip, each solder joint on bga chip can be formed signal with detection module and is connected with the probes touch on probe module, and then determine that bga chip solder joint welds no enough meeting the requirements; After detection, pressing plate resets.

5th, after testing, if the welding of bga chip solder joint meets the requirements, probe module elevating mechanism drives probe module to rise the first height value; Afterwards, the first transverse slat and the second transverse slat stretch in pickup groove; Afterwards, probe module declines, and bga chip drops on the first transverse slat and the second transverse slat; Afterwards, the second telescopic cylinder and the action simultaneously of the 3rd telescopic cylinder, a L shape block and the 2nd L shape block to the left and right both sides separately, remove the stop to bga chip; Afterwards, the first telescopic cylinder action, pushing block is by bga chip longitudinally gathering sill release horizontal table.

6th, after testing, if the welding of bga chip solder joint is undesirable, probe module elevating mechanism drives probe module to rise the second height value (the second height value is greater than the first height value), makes bga chip depart from pickup groove; Afterwards, underproof bga chip can be taken away from probe module by operating personnel easily.

By technique scheme, bga chip to be detected can automatically be positioned in the pickup groove of horizontal table, and, after bga chip detects and terminates, no matter whether qualified, all automatically can depart from pickup groove.So, not only operating personnel are easy and simple to handle, and, bga chip accurate positioning.

What deserves to be explained is, a L shape block described in the utility model and the 2nd L shape block open-close ways adopt rotary, but not drawing and pulling type, so effectively can avoid the friction of a L shape block and the 2nd L shape block and bga chip sidewall.

As the utility model, the one of press plate mechanism is illustrated, described lift drive mechanism comprises the guidepost be vertically fixed on horizontal table, lifting column that bottom is fixedly connected with pressing plate, be fixed on lifting column top and offer the elevator of horizontal concrete chute, the curved rod be slidably fitted in horizontal concrete chute, be positioned at elevator side and be fixed on the first fixed block on riser, be positioned at the first fixed block side and be fixed on the second fixed block on riser, the worm screw be articulated on the second fixed block, worm gear with worm mesh; Described pressing plate is offered the pilot hole coordinated with guidepost, described curved rod is articulated on the first fixed block, and described worm gear is arranged on an end of curved rod, and described worm screw is provided with rocking handle.

As described above, operating personnel rotate rocking handle, drive worm screw, worm drive worm gear, worm-gear driven curved rod rotates, and the curved rod of rotation drives elevator lifting, under the cooperation of guidepost and pilot hole, elevator drives lifting column lifting, and lifting column band dynamic pressure plate is elevated.Because worm and wormwheel has auto-lock function, so described pressing plate is in the process of compressing BGA, and pressing plate can rest on optional position.

As the one explanation of the utility model to probe module, probe module elevating mechanism bottom probe module comprises by the first joint pin and the lifting plate be fixedly connected with bottom probe module, lifting plate offers threaded hole, screw rod is bolted with in threaded hole, screw rod connects with servomotor, described servomotor is arranged on base plate, and described base plate is connected with the bottom surface of horizontal table by the second joint pin.

As described above, described driven by servomotor screw rod rotates, and the lifting of screw drive lifting plate, lifting plate drives probe module to be elevated in pickup groove.

Illustrate the one of probe module as the utility model, described control pin module comprises matrix, matrix is offered probe through hole, and probe through hole comprises the path section being positioned at top and the large footpath section being positioned at below; The bottom of described extensible probe is provided with radial flange, and project upwards matrix in the path section that described extensible probe is plugged in probe through hole, the radial flange of described extensible probe is positioned at large footpath section; Groove is offered in the bottom of described extensible probe, and the bottom of described probe through hole is bolted with positioning threads part, is provided with coil tension spring in the groove of extensible probe, and the bottom of coil tension spring is against on positioning threads part.

As described above, the elastic force of described positioning threads part adjustable and retractable spring, and then make the retractility of extensible probe be in suitable degree.

Accompanying drawing illustrates:

Below in conjunction with accompanying drawing, the utility model is described further:

Fig. 1 is the structural representation of the detection system of a kind of bga chip of the utility model;

Fig. 2 is the unitized construction schematic diagram of horizontal table 10 in Fig. 1, press plate mechanism 20 and automatic input positioning system, and wherein, input positioning system comprises load module 40, supporting module 50, spacing module 60 automatically;

Fig. 3 is the schematic diagram from the unitized construction gained of another view horizontal table 10, press plate mechanism 20 and automatic input positioning system in Fig. 2;

Fig. 4 is the schematic diagram from the unitized construction gained of another view horizontal table 10, press plate mechanism 20 and automatic input positioning system in Fig. 3;

Fig. 5 is the unitized construction schematic diagram of Fig. 1 middle probe module 30 and probe module elevating mechanism 32;

Fig. 6 is the inner structure schematic diagram of matrix 33 in Fig. 5.

Symbol description in figure:

10, horizontal table; 11, riser; 110, gap; 12, pickup groove; 13, longitudinally guiding groove;

20, press plate mechanism; 21, pressing plate; 22, lift drive mechanism; 221, guidepost; 222, rocking handle; 223, lifting column; 224, elevator; 225, curved rod; 226, the first fixed block; 227, the second fixed block; 228, worm screw; 229, worm gear;

30, probe module; 31, extensible probe; 310, radial flange; 312, groove; 32, probe module elevating mechanism; 321, the first joint pin; 322, plate is elevated; 323, screw rod; 324, servomotor; 325, base plate; 326, the second joint pin; 33, matrix; 331, probe through hole; 34, positioning threads part; 35, coil tension spring;

40, load module; 41, tablet; 42, the first telescopic cylinder; 43, pushing block;

50, supporting module; 51, the first transverse slat; 52, the second transverse slat; 53, the first lateral cylinder; 54, the second lateral cylinder;

60, spacing module; 61, a L shape block; 62, the 2nd L shape block; 63, the second telescopic cylinder; 64, the 3rd telescopic cylinder.

Embodiment:

As Fig. 1, a kind of detection system of bga chip, comprise be provided with riser 11 horizontal table 10, be positioned at press plate mechanism 20, probe module 30 above horizontal table, automatically input positioning system; Described automatic input positioning system comprises load module 40, supporting module 50, spacing module 60.

Composition graphs 2 to Fig. 4, described horizontal table is offered pickup groove 12.

Composition graphs 2 to Fig. 4, described press plate mechanism comprises and being positioned at pressing plate 21 above pickup groove, being arranged on the lift drive mechanism 22 for driving pressing plate to be elevated on riser, described lift drive mechanism 22 comprises the guidepost 221 be vertically fixed on horizontal table 10, the lifting column 223 that bottom is fixedly connected with pressing plate 21, be fixed on lifting column top and offer the elevator 224 of horizontal concrete chute, be slidably fitted in the curved rod 225 in horizontal concrete chute, be positioned at elevator side and be fixed on the first fixed block 226 on riser 11, be positioned at the first fixed block side and be fixed on the second fixed block 227 on riser, be articulated in the worm screw 228 on the second fixed block, with the worm gear 229 of worm mesh, described pressing plate is offered the pilot hole coordinated with guidepost, described curved rod is articulated on the first fixed block, and described worm gear is arranged on an end of curved rod, described worm screw is provided with rocking handle 222.

Composition graphs 2 to Fig. 4, described riser is offered a gap 110, described horizontal table is offered a longitudinally guiding groove 13, longitudinally guiding groove is through the gap on riser, longitudinally guiding groove is through pickup groove, and the transverse width of longitudinally guiding groove equals the transverse width of pickup groove; Described load module comprises the tablet 41 be arranged on riser, the first telescopic cylinder 42 be arranged on riser, the pushing block 43 be arranged in the first retractable air cylinder piston; Described tablet is positioned at the side of gap on riser, tablet and longitudinally guiding groove tandem array, and described pushing block moves around along the tablet of tandem array and longitudinally guiding groove level under the driving of the first telescopic cylinder.

Composition graphs 2 to Fig. 4, described horizontal table offers the first horizontal square through hole and the second horizontal square through hole, first horizontal square through hole and the second horizontal square through hole are positioned at the left and right sides of pickup groove, the first horizontal square through hole and the second horizontal square through hole respectively with pickup groove cross connection; Described supporting module comprises the first transverse slat 51, first lateral cylinder 53, second transverse slat 52, second lateral cylinder 54; Described first transverse slat is plugged in the first horizontal square through hole, first lateral cylinder is arranged on the left side wall of horizontal table, the piston rod of the first lateral cylinder is connected with the first transverse slat, described second transverse slat is plugged in the second horizontal square through hole, second lateral cylinder is arranged on the right side wall of horizontal table, and the piston rod of the second lateral cylinder is connected with the second transverse slat; The upper surface of described first transverse slat and the upper surface of the second transverse slat all flush with the baseplane of longitudinally guiding groove.

Composition graphs 2 to Fig. 4, described spacing module comprises and is hinged on a L shape block 61 on horizontal table and the 2nd L shape block 62, is arranged on the second telescopic cylinder 63 on horizontal table and the 3rd telescopic cylinder 64; A described L shape block is positioned at the left side of pickup groove, and the 2nd L shape block is positioned at the right side of pickup groove, and piston rod and a L shape block of described second telescopic cylinder are hinged, and piston rod and the 2nd L shape block of the 3rd telescopic cylinder are hinged.

Composition graphs 1, Fig. 5, probe module 30 is positioned at pickup groove, and probe module is provided with multiple extensible probe 31 be connected with detection module signal.

Composition graphs 2 to Fig. 4, described pickup groove runs through horizontal table up and down, and as Fig. 1, the bottom of described probe module is provided with probe module elevating mechanism 32.As Fig. 5, described probe module elevating mechanism 32 comprises by the first joint pin 321 and the lifting plate 322 be fixedly connected with bottom probe module 30, lifting plate offers threaded hole, screw rod 323 is bolted with in threaded hole, screw rod connects with servomotor 324, described servomotor is arranged on base plate 325, and described base plate is connected with the bottom surface of horizontal table 10 by the second joint pin 326.

As Fig. 6, described probe module 30 comprises matrix 33, matrix is offered probe through hole 331, and probe through hole comprises the path section being positioned at top and the large footpath section being positioned at below; The bottom of described extensible probe 31 is provided with radial flange 310, and project upwards matrix in the path section that described extensible probe is plugged in probe through hole, the radial flange of described extensible probe is positioned at large footpath section; Groove 312 is offered in the bottom of described extensible probe, and the bottom of described probe through hole is bolted with positioning threads part 34, is provided with coil tension spring 35 in the groove of extensible probe, and the bottom of coil tension spring is against on positioning threads part.

In practical operation, the workflow of the detection system of bga chip described in the utility model is as follows:

The first, by conveying equipment or be manually placed on tablet 41 by bga chip to be detected, the both sides of tablet are provided with spacing guardrail.

Second, first telescopic cylinder 42 drives pushing block 43 to vertically move, and bga chip is entered longitudinally guiding groove 13 along tablet 41 by pushing block after gap 110, and bga chip terminates in L shape block 61 and a 2nd L shape block 62; Now, bga chip is supported by the first transverse slat 51 stretched in pickup groove 12 and the second transverse slat 52.

3rd, first lateral cylinder 53 and the action simultaneously of the second lateral cylinder 54, the first transverse slat 51 is moved to the left, second transverse slat 52 moves right, and so, the first transverse slat and the second transverse slat leave pickup groove 12 simultaneously, and then bga chip falls in the extensible probe 31 of the probe module 30 in pickup groove.

4th, lift drive mechanism 22 drives pressing plate to be pressed on bga chip 21 times, makes each solder joint on bga chip contact with the probe 31 on probe module 30 and to form signal with detection module and is connected, and then determines that bga chip solder joint welds no enough meeting the requirements; After detection, pressing plate 21 resets.

5th, after testing, if the welding of bga chip solder joint meets the requirements, probe module elevating mechanism 32 drives probe module 30 to rise the first height value; Afterwards, the first transverse slat 51 and the second transverse slat 52 stretch in pickup groove 12; Afterwards, probe module 30 declines, and bga chip drops on the first transverse slat and the second transverse slat; Afterwards, the action simultaneously of the second telescopic cylinder 63 and the 3rd telescopic cylinder 64, a L shape block 61 and the 2nd L shape keep off 62 pieces to the left and right both sides separately, remove the stop to bga chip; Afterwards, the first telescopic cylinder 42 action, pushing block 43 by bga chip longitudinally gathering sill 13 release horizontal table 10.

6th, after testing, if the welding of bga chip solder joint is undesirable, probe module elevating mechanism 32 drives probe module 30 to rise the second height value (the second height value is greater than the first height value), makes bga chip depart from pickup groove 12; Afterwards, underproof bga chip can be taken away from probe module 30 by operating personnel easily.

Above content is only better embodiment of the present utility model, for those of ordinary skill in the art, according to thought of the present utility model, all will change in specific embodiments and applications, this description should not be construed as restriction of the present utility model.

Claims (4)

1. a detection system for bga chip, comprise be provided with riser (11) horizontal table (10), be positioned at press plate mechanism (20) above horizontal table;

Described horizontal table is offered pickup groove (12), be provided with probe module (30) in pickup groove, probe module is provided with multiple extensible probe (31) be connected with detection module signal;

Described press plate mechanism comprises and being positioned at pressing plate (21) above pickup groove, being arranged on the lift drive mechanism (22) for driving pressing plate to be elevated on riser; It is characterized in that:

Also comprise and automatically input positioning system; Described automatic input positioning system comprises load module (40), supporting module (50), spacing module (60);

Described riser is offered a gap (110), described horizontal table is offered a longitudinally guiding groove (13), longitudinally guiding groove is through the gap on riser, and longitudinally guiding groove is through pickup groove, and the transverse width of longitudinally guiding groove equals the transverse width of pickup groove; Described load module comprises the tablet (41) be arranged on riser, the first telescopic cylinder (42) be arranged on riser, the pushing block (43) be arranged in the first retractable air cylinder piston; Described tablet is positioned at the side of gap on riser, tablet and longitudinally guiding groove tandem array, and described pushing block moves around along the tablet of tandem array and longitudinally guiding groove level under the driving of the first telescopic cylinder;

Described horizontal table offers the first horizontal square through hole and the second horizontal square through hole, first horizontal square through hole and the second horizontal square through hole are positioned at the left and right sides of pickup groove, the first horizontal square through hole and the second horizontal square through hole respectively with pickup groove cross connection; Described supporting module comprises the first transverse slat (51), the first lateral cylinder (53), the second transverse slat (52), the second lateral cylinder (54); Described first transverse slat is plugged in the first horizontal square through hole, first lateral cylinder is arranged on the left side wall of horizontal table, the piston rod of the first lateral cylinder is connected with the first transverse slat, described second transverse slat is plugged in the second horizontal square through hole, second lateral cylinder is arranged on the right side wall of horizontal table, and the piston rod of the second lateral cylinder is connected with the second transverse slat; The upper surface of described first transverse slat and the upper surface of the second transverse slat all flush with the baseplane of longitudinally guiding groove;

Described spacing module comprises and is hinged on a L shape block (61) on horizontal table and the 2nd L shape block (62), is arranged on the second telescopic cylinder (63) on horizontal table and the 3rd telescopic cylinder (64); A described L shape block is positioned at the left side of pickup groove, and the 2nd L shape block is positioned at the right side of pickup groove, and piston rod and a L shape block of described second telescopic cylinder are hinged, and piston rod and the 2nd L shape block of the 3rd telescopic cylinder are hinged;

Described pickup groove runs through horizontal table up and down, and the bottom of described probe module is provided with probe module elevating mechanism (32).

2. the detection system of a kind of bga chip as claimed in claim 1, it is characterized in that: in press plate mechanism (20), described lift drive mechanism (22) comprises the guidepost (221) be vertically fixed on horizontal table (10), the lifting column (223) that bottom is fixedly connected with pressing plate (21), be fixed on lifting column top and offer the elevator (224) of horizontal concrete chute, be slidably fitted in the curved rod (225) in horizontal concrete chute, be positioned at elevator side and be fixed on the first fixed block (226) on riser (11), be positioned at the first fixed block side and be fixed on the second fixed block (227) on riser, be articulated in the worm screw (228) on the second fixed block, with the worm gear (229) of worm mesh, described pressing plate is offered the pilot hole coordinated with guidepost, described curved rod is articulated on the first fixed block, and described worm gear is arranged on an end of curved rod, described worm screw is provided with rocking handle (222).

3. the detection system of a kind of bga chip as claimed in claim 1, it is characterized in that: described probe module elevating mechanism (32) comprises the lifting plate (322) be fixedly connected with probe module (30) bottom by the first joint pin (321), lifting plate offers threaded hole, screw rod (323) is bolted with in threaded hole, screw rod connects with servomotor (324), described servomotor is arranged on base plate (325), and described base plate is connected with the bottom surface of horizontal table (10) by the second joint pin (326).

4. the detection system of a kind of bga chip as claimed in claim 1, it is characterized in that: described probe module (30) comprises matrix (33), matrix is offered probe through hole (331), probe through hole comprises the path section being positioned at top and the large footpath section being positioned at below; The bottom of described extensible probe (31) is provided with radial flange (310), and project upwards matrix in the path section that described extensible probe is plugged in probe through hole, the radial flange of described extensible probe is positioned at large footpath section; Groove (312) is offered in the bottom of described extensible probe, the bottom of described probe through hole is bolted with positioning threads part (34), be provided with coil tension spring (35) in the groove of extensible probe, the bottom of coil tension spring is against on positioning threads part.