CN204944430U - The micro-brill parameter measurement system of PCB - Google Patents

Abstract

The utility model relates to checkout equipment technical field, particularly the micro-brill parameter measurement system of a kind of PCB; Comprise board, described board is provided with mechanical arm, described mechanical arm moves left and right along guide rail under the driving of servomotor A, the direction of described mechanical arm movement is disposed with cleaning mechanism, connecting gear and testing agency, and described cleaning mechanism, described connecting gear and described testing agency are fixedly mounted on described board; By arranging connecting gear, cleaning mechanism and testing agency, the micro-brill of PCB to be detected is transported to after cleaning mechanism through connecting gear and mechanical arm and is cleaned it by cleaning mechanism, and then being transported in testing agency by mechanical arm, the geometric parameter of testing agency to the micro-brill of PCB detects; Whole process is all automatically completed by the utility model, cleans compare with the mode detected with existing craft, adopts that automaticity of the present utility model is high, efficiency is high and testing result is accurate.

Description

The micro-brill parameter measurement system of PCB

Technical field

The utility model relates to checkout equipment technical field, particularly the micro-brill parameter measurement system of a kind of PCB.

Background technology

Along with the development of printing board PCB technology and product, more and more higher to the requirement of the microbit for processing printed circuit board.PCB microbit is called for short the band spiral fluted capillary processing instrument that the micro-brill of PCB is multiple of a kind of shape, is derived by traditional twist drill.PCB micro-brill size is small, and its apex point structure just can will be observed by optical microscope.

At present, the micro-brill of PCB is all adopt the method for artificial hand dipping to be measured one by one the parameters of the micro-brill of PCB by three-coordinates measuring machine etc. substantially, adopt in this way, the efficiency of test is low, and the skill level of tester's operation also can affect the precision of test.

Utility model content

When the utility model is in order to solve the parameter adopting at present the micro-brill of artificial hand dipping PCB, the problem that the efficiency of existence is low, measuring accuracy is not high and the micro-brill parameter measurement system of a kind of PCB that provides.

For reaching above-mentioned functions, the technical scheme that the utility model provides is:

The micro-brill parameter measurement system of a kind of PCB, comprise board, described board is provided with mechanical arm, described mechanical arm moves left and right along guide rail under the driving of servomotor A, the direction of described mechanical arm movement is disposed with cleaning mechanism, connecting gear and testing agency, and described cleaning mechanism, described connecting gear and described testing agency are fixedly mounted on described board.

Preferably, described cleaning mechanism comprises placement rack, cylinder A, thermal chimney and clean tracheae, described placement rack is fixedly connected with described cylinder A, and by described cylinder A drive near or away from described thermal chimney, the gas outlet of described clean tracheae is arranged on before the air outlet of described thermal chimney, described placement rack is provided with the putting hole A placing the micro-brill of PCB.

Preferably, described connecting gear comprises front apron and backboard, described front apron and described backboard form the casing of a hollow form, the top of described front apron is installed with a guide plate, be provided with belt A, belt pulley and drive unit in described casing, described belt A is set on described belt pulley, and described drive unit drives described belt A to rotate, the middle part of described casing is provided with a positioning block, and described locating piece is driven by cylinder B and rises or decline; The top of described backboard is provided with cylinder C, and described cylinder C is fixedly mounted on the front of described locating piece, the telescopic rod of described cylinder C is installed with the briquetting of a strip.

Preferably, described testing agency comprises sword face pick-up unit, side pick-up unit and core thickness detector, described side pick-up unit and described core thickness detector are set up in parallel, the detection side of described sword face pick-up unit and described side pick-up unit, to perpendicular, is provided with a rotation mounting table immediately below the pick-up unit of described side.

Preferably, described cleaning mechanism also comprises clean outer cover and impact damper, described clean outer cover is provided with and allows the micro-through hole crept into out of PCB, the gas outlet of described clean tracheae and the air outlet of described thermal chimney are arranged in described clean outer cover, and the top of described clean outer cover is provided with connector; Described impact damper is fixedly mounted on the rear end of described placement rack.

Preferably, described connecting gear also comprises a label scanners, described guide plate is provided with the opening allowing the scanning ray of described label scanners to pass through.

Preferably, described sword face pick-up unit comprises CCD shooting group A, camera lens tray A and adjusting mechanism, described CCD shooting group A is fixed on described camera lens tray A, described camera lens tray A is fixedly mounted on adjusting mechanism, and described adjusting mechanism is used for all around of adjustable lens tray A and upper and lower position;

Described side pick-up unit comprises CCD shooting group B, camera lens tray B and adjusting mechanism, described CCD shooting group B is fixed on described camera lens tray B, described camera lens tray B is fixedly mounted on adjusting mechanism, and described adjusting mechanism is used for all around and the upper-lower position of adjustable lens tray B;

Described core thickness detector comprises CCD shooting group C, camera lens tray C, rack A and rolling disc, described CCD shooting group C is fixed on described camera lens tray C, described rolling disc is connected with a servomotor group, and drive rotation by described servomotor group, described rack A is connected with described rolling disc by a ball wire bar pair, described rack A offers the putting hole B placing the micro-brill of PCB, the side opening of rack A is provided with groove, one rotor wheel is arranged on the output shaft of servo motor B, described servo motor B is fixedly mounted on described ball wire bar pair, after the micro-brill of PCB is placed into described putting hole B, by the lower surface of described groove and the micro-brill of PCB, tangent thus micro-the boring of driving PCB rotates rotor wheel.

Preferably, described rotation mounting table comprises placement platform, servomotor C and clamping head, and described servomotor C is connected with described placement platform and drives described placement platform to rotate, and described clamping head is arranged on described placement platform.

Preferably, described clamping head is rotatably arranged on spill spin block, on the output shaft that described spill spin block is fixed on described servomotor D and by described servomotor D driven rotary, the middle and upper part of described clamping head is arranged with a slide block, described slide block is fixed on the output shaft of servomotor E, and by described servomotor E driven rotary.

Preferably, described adjusting mechanism comprises fixed block, first slide block, second slide block and base, described fixed block is flexibly connected with described first slide block and can does the movement of above-below direction relative to described first slide block, described first slide block is flexibly connected with described second slide block and can does the movement of fore-and-aft direction relative to described second slide block, described second slide block and described base are flexibly connected and can do the movement of left and right directions relative to described base, described fixed block, described first slide block and described second slide block are respectively arranged with the first adjustment handle, second adjustment handle and the 3rd adjustment handle.

The beneficial effects of the utility model are: the micro-brill parameter measurement system of a kind of PCB, comprise board, board is provided with mechanical arm, mechanical arm moves left and right along guide rail under the driving of servomotor A, the direction of mechanical arm movement is disposed with cleaning mechanism, connecting gear and testing agency, and cleaning mechanism, connecting gear and testing agency are fixedly mounted on board; By arranging connecting gear, cleaning mechanism and testing agency, the micro-brill of PCB to be detected is transported to after cleaning mechanism through connecting gear and mechanical arm and is cleaned it by cleaning mechanism, and then being transported in testing agency by mechanical arm, the geometric parameter of testing agency to the micro-brill of PCB detects; Whole process is all automatically completed by the utility model, cleans compare with the mode detected with existing craft, adopts that automaticity of the present utility model is high, efficiency is high and testing result is accurate.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model;

Fig. 2 is the decomposing schematic representation of cleaning device;

Fig. 3 is the decomposing schematic representation of connecting gear;

Fig. 4 is the structural representation of drive unit;

Fig. 5 is the structural representation of pick-up unit;

Fig. 6 is the structural representation of core thickness detector;

Fig. 7 is the structural representation of adjusting mechanism;

Fig. 8 is the decomposing schematic representation rotating mounting table.

Embodiment

Be further elaborated below in conjunction with accompanying drawing 1 to accompanying drawing 8 pairs of the utility model:

A kind of PCB micro-brill 101 parameter measurement system as shown in Figure 1, comprise board 1, board 1 is provided with mechanical arm 2, mechanical arm 2 moves left and right along guide rail 4 under the driving of servomotor A3, in the present embodiment, servomotor A3 is connected with mechanical arm 2 by a ball wire bar pair, thus accuracy when guarantee mechanical arm 2 moves.The direction of mechanical arm 2 movement is disposed with cleaning mechanism 5, connecting gear 6 and testing agency 7, and cleaning mechanism 5, connecting gear 6 and testing agency 7 are fixedly mounted on board 1.

As shown in Figure 2, cleaning mechanism 5 comprises placement rack 51, cylinder A52, thermal chimney 53 and clean tracheae 54, placement rack 51 is fixedly connected with cylinder A52, and by cylinder A52 drive near or away from thermal chimney 53, the gas outlet of clean tracheae 54 is arranged on before the air outlet of thermal chimney 53, placement rack 51 is provided with the putting hole A510 placing the micro-brill 101 of PCB.Cleaning mechanism 5 also comprises clean outer cover 55, clean outer cover 55 is provided with the through hole 551 allowing the micro-brill 101 of PCB to pass in and out, the clean gas outlet of tracheae 54 and the air outlet of thermal chimney 53 are arranged in clean outer cover 55, the top of clean outer cover 55 is provided with connector 552, by connector 552, we can external dust sucking plant to siphon away greasy dirt in clean outer cover 55 and dust.

Because inertia meets other parts when retreating to prevent placement rack 51, in the present embodiment, we are provided with an impact damper 56 at the rear of placement rack 51, and when placement rack 51 moves under the driving of cylinder A52 backward, placement rack 51 is understood first compression buffer 56 and then slowly stopped.

The below of putting hole A510 is installed with detector 57, when detector 57 detect putting hole A510 is placed with PCB to be cleaned micro-brill 101 time, it is to be cleaned that cylinder A52 just can drive placement rack 51 to move in clean outer cover 55 etc.

As shown in Figure 3, connecting gear 6 comprises front apron 61 and backboard 62, front apron 61 and backboard 62 form the casing of a hollow form, the top of front apron 61 is installed with a guide plate 63, belt A 64 is provided with in casing, belt pulley 65 and drive unit 66, belt A 64 is set on described belt pulley 65, drive unit 66 drives belt A 64 to rotate, as shown in Figure 4, drive unit 66 comprises motor 661, first spiral gear 662 and the second spiral gear 663, first spiral gear 662 and the second spiral gear 663 are meshed, first spiral gear 662 is fixedly mounted on the output shaft of motor 661, the other end of the second spiral gear 663 is installed with a belt drives wheel 664.The middle part of casing is provided with a positioning block 67, and locating piece 67 is driven by cylinder B68 and rises or decline; The top of backboard 62 is provided with cylinder C69, and cylinder C69 is fixedly mounted on the front of locating piece 67, the telescopic rod of cylinder C69 is installed with the briquetting 601 of a strip.In the present embodiment, the front of cylinder C69 is also set side by side with cylinder D603.

In order to improve automaticity of the present utility model, connecting gear 6 also comprises a label scanners 602, guide plate 63 is provided with the opening 631 allowing the scanning ray of label scanners 602 to pass through.

Backboard 62 is provided with a brace table 621, the height of brace table 621 is not higher than the height of belt upper surface.Such magazine 100 is placed into after on belt, and the other end of magazine 100 drops on brace table 621, thus is conducive to the steady conveying of magazine 100.

In the present embodiment, the side of magazine 100 is provided with the slot tag 1001 of adhesive label.The upper surface of magazine 100 is evenly provided with the blind hole of the micro-brill 101 of some placement PCB.

Testing agency 7 comprises sword face pick-up unit 71, side pick-up unit 72 and core thickness detector 73, side pick-up unit 72 and core thickness detector 73 are set up in parallel, the detection side of sword face pick-up unit 71 and side pick-up unit 72, to perpendicular, is provided with a rotation mounting table 74 immediately below side pick-up unit 72.

The sword face geometric parameter of the micro-brill of PCB 101 has that horizontal separation amount, horizontal registration amount, major part, microcephaly, size face, external diameter, fillet, breach, core shift, inner arc are hook-shaped, outer arc convexity etc.; Side geometric parameter has total length, tip diameter, recess diameter, ditch amplitude ratio, basil difference in height etc.; The thick geometric parameter of core is that core is thick.Sword face pick-up unit 71 is for detecting the sword face geometric parameter of the micro-brill 101 of PCB, and side pick-up unit 72 is for detecting the side geometric parameter of the micro-brill 101 of PCB, and core thickness detector 73 is thick for the core detecting the micro-brill of PCB 101.

Sword face pick-up unit 71 comprises CCD shooting group A711, camera lens tray A712 and adjusting mechanism 713, CCD shooting group A711 is fixed on camera lens tray A712, camera lens tray A712 is fixedly mounted on adjusting mechanism 713, and adjusting mechanism 713 is for all around of adjustable lens tray A712 and upper and lower position, side pick-up unit 72 comprises CCD shooting group B721, camera lens tray B722 and adjusting mechanism 713, CCD shooting group B721 is fixed on camera lens tray B722, camera lens tray B722 is fixedly mounted on adjusting mechanism 713, and adjusting mechanism 713 is for all around of adjustable lens tray B722 and upper-lower position, as shown in Figure 8, adjusting mechanism 713 comprises fixed block 7131, first slide block 7132, second slide block 7133 and base 7134, fixed block 7131 is flexibly connected with the first slide block 7132 and can does the movement of above-below direction relative to the first slide block 7132, first slide block 7132 is flexibly connected with the second slide block 7133 and can does the movement of fore-and-aft direction relative to the second slide block 7133, second slide block 7133 and base 7134 are flexibly connected and can do the movement of left and right directions relative to base 7134, fixed block 7131, first slide block 7132, be flexibly connected by arranging dovetail groove to realize and guarantee the linear of movement between second slide block 7133 and base 7134.Fixed block 7131, first slide block 7132 and the second slide block 7133 are respectively arranged with the first adjustment handle 7135, second adjustment handle 7136 and the 3rd adjustment handle 7137.

As shown in Figure 6, core thickness detector 73 comprises CCD shooting group C731, camera lens tray C732, rack A733 and rolling disc 734, CCD shooting group C731 is fixed on camera lens tray C732, rolling disc 734 is connected with a servomotor group 735, and drive rotation by servomotor group 735, in the present embodiment, servomotor group 735 comprises servomotor G7351, driving wheel 7352, belt B7353 and engaged wheel 7354, driving wheel 7352 is fixedly mounted on the output shaft of servomotor G7351, engaged wheel 7354 and rolling disc 734 fixedly mount, belt B7353 connects driving wheel 7352 and engaged wheel 7354.

As shown in Figure 6, rack A733 is connected with rolling disc 734 by a ball wire bar pair, rack A733 offers the putting hole B placing the micro-brill 101 of PCB, the side opening of rack A733 is provided with groove 7331, one rotor wheel 736 is arranged on the output shaft of servo motor B 737, servo motor B 737 is fixedly mounted on ball wire bar pair, and after the micro-brill 101 of PCB is placed into putting hole B, by groove 7331 and the lower surface of the micro-brill of PCB 101, the tangent thus micro-brill 101 of driving PCB rotates rotor wheel 736.

As shown in Figure 7, rotate mounting table 74 and comprise placement platform 741, servomotor C742 and clamping head 743, servomotor C742 is connected with placement platform 741 and drives placement platform 741 to rotate, and clamping head 743 is arranged on placement platform 741.Clamping head 743 is rotatably arranged on spill spin block 744, on the output shaft that spill spin block 744 is fixed on servomotor D745 and by servomotor D745 driven rotary, the middle and upper part of clamping head 743 is arranged with a slide block 746, slide block 746 is fixed on the output shaft of servomotor E747, and by servomotor E747 driven rotary.

Servomotor D745 is fixedly mounted on feeding slide block 748, the end of feeding slide block 748 is provided with differential head 749, differential head 749 drives to rotate and promote feeding slide block 748 by servomotor F7401 and moves forward, the below of feeding slide block 748 is provided with back-moving spring 7402, when differential head 749 servomotor F7401 drive under toward rollback time, feeding slide block 748 resets under the effect of the elastic force of back-moving spring 7402.When the micro-brill 101 of PCB to be detected will be placed on clamping head 743, servomotor E747 drives slide block 746 to be rotated counterclockwise 90 degree, thus make clamping head 743 upward, the micro-brill 101 of PCB to be detected is placed to facilitate, after putting the micro-brill 101 of PCB well, servomotor E747 drives slide block 746 dextrorotation to turn 90 degrees again, makes PCB micro-brill 101 horizontal positioned, convenient detection.

In order to improve the sharpness of the imaging that CCD shooting group A711 takes, be provided with a backlight 8 immediately below side pick-up unit 72, backlight 8 is fixedly mounted on and rotates on mounting table 74.

Above-mentioned CCD shooting group A711, CCD shooting group B721 and CCD shooting group C731 are city dealer product, can adopt CCD industry camera.

Use procedure of the present utility model is as follows:

During use, user puts into same magazine 100 with batch micro-brill of PCB to be measured 101 produced, and corresponding label is pasted in slot tag 1001, then magazine 100 is placed on connecting gear 6, belt A 64 is rotated under the driving of drive unit 66, thus drive magazine 100 to move forward, after magazine 100 moves to the middle part of connecting gear 6, locating piece 67 moves upward under the driving of cylinder B68, stop that magazine 100 continues to move forward, cylinder C69 and cylinder D603 compresses magazine 100 simultaneously, magazine 100 is made to be close to guide plate 63, now, label scanners 602 is scanned by opening 631 pairs of labels, the object of scanning label is the quality of the micro-brill 101 of PCB that convenient each production batch of statistics is produced.

Mechanical arm 2 moves to above magazine 100 under the driving of servomotor A3, and from magazine 100, take out the micro-brill 101 of PCB to be detected successively, then put on the putting hole of placement rack 51 of cleaning mechanism 5, after detector 57 detects in putting hole and is placed with the micro-brill 101 of PCB, cylinder A52 drives placement rack 51 to move in clean outer cover 55, then thermal chimney 53 blows out hot blast and heats the micro-brill 101 of PCB, melt after greasy dirt on the micro-brill 101 of PCB runs into hot blast, gas blow pipe blows out gases at high pressure again to carry out clean blowing away to the micro-brill of PCB 101 and sticks to greasy dirt on the micro-brill 101 of PCB and dust, after clean, cylinder drives the micro-brill 101 of PCB to get back to initial position, thus complete cleaning.

The clamping head 743 of rotation platform put into by mechanical arm 2 after the more micro-brill 101 of PCB after clean being taken out, when the micro-brill 101 of PCB to be detected will be placed on clamping head 743, servomotor E747 drives slide block 746 to be rotated counterclockwise 90 degree, thus make clamping head 743 upward, the micro-brill 101 of PCB to be detected is placed to facilitate, after putting the micro-brill 101 of PCB well, servomotor E747 drives slide block 746 dextrorotation to turn 90 degrees again, makes PCB micro-brill 101 horizontal positioned.First time is when using, first adjusted by the position of adjusting mechanism 713 couples of CCD shooting group A711 and CCD shooting group B721, then computer processing system can, according to the requirement of measuring, drive the geometric parameter of side pick-up unit 72 and the micro-brill 101 of sword face pick-up unit 71 couples of PCB to detect.After detection, mechanical arm 2 is transported to micro-for PCB brill 101 in core thickness detector 73 again, detects the core of the micro-brill of PCB 101 is thick.

CCD shooting group A711, CCD shooting group B721 and the photo captured by CCD shooting group C731 are after computer processing system process, the interrelated geometrical parameters of the micro-brill 101 of PCB, again by carrying out contrasting can judge that whether detected geometric parameter is qualified with the canonical parameter preset in computer processing system, thus complete the detection of the micro-brill 101 of PCB.

The above embodiment, just preferred embodiments of the present utility model, be not limit practical range of the present utility model, therefore all equivalences done according to structure, feature and the principle described in the utility model claim change or modify, and all should be included in the utility model patent claim.

Claims (10)

1. the micro-brill parameter measurement system of PCB, it is characterized in that: comprise board (1), described board (1) is provided with mechanical arm (2), described mechanical arm (2) moves left and right along guide rail (4) under the driving of servomotor A (3), the direction of described mechanical arm (2) movement is disposed with cleaning mechanism (5), connecting gear (6) and testing agency (7), and described cleaning mechanism (5), described connecting gear (6) and described testing agency (7) are fixedly mounted on described board (1).

2. the micro-brill parameter measurement system of PCB as claimed in claim 1, it is characterized in that: described cleaning mechanism (5) comprises placement rack (51), cylinder A (52), thermal chimney (53) and clean tracheae (54), described placement rack (51) is fixedly connected with described cylinder A (52), and by described cylinder A (52) drive near or away from described thermal chimney (53), the gas outlet of described clean tracheae (54) is arranged on before the air outlet of described thermal chimney (53), described placement rack (51) is provided with the putting hole A (510) placing the micro-brill of PCB.

3. the micro-brill parameter measurement system of PCB as claimed in claim 1, it is characterized in that: described connecting gear (6) comprises front apron (61) and backboard (62), described front apron (61) and described backboard (62) form the casing of a hollow form, the top of described front apron (61) is installed with a guide plate (63), belt A (64) is provided with in described casing, belt pulley (65) and drive unit (66), described belt A (64) is set on described belt pulley (65), described drive unit (66) drives described belt A (64) to rotate, the middle part of described casing is provided with a positioning block (67), described locating piece (67) is driven by cylinder B (68) and rises or decline, the top of described backboard (62) is provided with cylinder C (69), described cylinder C (69) is fixedly mounted on the front of described locating piece (67), the telescopic rod of described cylinder C (69) is installed with the briquetting (601) of a strip.

4. the micro-brill parameter measurement system of PCB as claimed in claim 1, it is characterized in that: described testing agency (7) comprises sword face pick-up unit (71), side pick-up unit (72) and core thickness detector (73), described side pick-up unit (72) and described core thickness detector (73) are set up in parallel, the detection side of described sword face pick-up unit (71) and described side pick-up unit (72), to perpendicular, is provided with a rotation mounting table (74) immediately below described side pick-up unit (72).

5. the micro-brill parameter measurement system of PCB as claimed in claim 2, it is characterized in that: described cleaning mechanism (5) also comprises clean outer cover (55) and impact damper (56), described clean outer cover (55) is provided with and allows the micro-through hole (551) crept into out of PCB, the gas outlet of described clean tracheae (54) and the air outlet of described thermal chimney (53) are arranged in described clean outer cover (55), and the top of described clean outer cover (55) is provided with connector (552); Described impact damper (56) is fixedly mounted on the rear end of described placement rack (51).

6. the micro-brill parameter measurement system of PCB as claimed in claim 3, it is characterized in that: described connecting gear (6) also comprises a label scanners (602), described guide plate (63) is provided with the opening (631) allowing the scanning ray of described label scanners (602) to pass through.

7. the micro-brill parameter measurement system of PCB as claimed in claim 4, it is characterized in that: described sword face pick-up unit (71) comprises CCD shooting group A (711), camera lens tray A (712) and adjusting mechanism (713), described CCD shooting group A (711) is fixed on described camera lens tray A (712), described camera lens tray A (712) is fixedly mounted on adjusting mechanism (713), and described adjusting mechanism (713) is for all around of adjustable lens tray A (712) and upper and lower position;

Described side pick-up unit (72) comprises CCD shooting group B (721), camera lens tray B (722) and adjusting mechanism (713), described CCD shooting group B (721) is fixed on described camera lens tray B (722), described camera lens tray B (722) is fixedly mounted on adjusting mechanism (713), and described adjusting mechanism (713) is for all around of adjustable lens tray B (722) and upper-lower position;

Described core thickness detector (73) comprises CCD shooting group C (731), camera lens tray C (732), rack A (733) and rolling disc (734), described CCD shooting group C (731) is fixed on described camera lens tray C (732), described rolling disc (734) is connected with a servomotor group (735), and rotated by the driving of described servomotor group (735), described rack A (733) is connected with described rolling disc (734) by a ball wire bar pair, described rack A (733) offers the putting hole B placing the micro-brill of PCB, the side opening of rack A (733) is provided with groove (7331), one rotor wheel (736) is arranged on the output shaft of servo motor B (737), described servo motor B (737) is fixedly mounted on described ball wire bar pair, after the micro-brill of PCB is placed into described putting hole B, by the lower surface of described groove (7331) and the micro-brill of PCB, tangent thus micro-the boring of driving PCB rotates rotor wheel (736).

8. the micro-brill parameter measurement system of PCB as claimed in claim 4, it is characterized in that: described rotation mounting table (74) comprises placement platform (741), servomotor C (742) and clamping head (743), described servomotor C (742) is connected with described placement platform (741) and drives described placement platform (741) to rotate, and described clamping head (743) is arranged on described placement platform (741).

9. the micro-brill parameter measurement system of PCB as claimed in claim 8, it is characterized in that: described clamping head (743) is rotatably arranged on spill spin block (744), on the output shaft that described spill spin block (744) is fixed on servomotor D (745) and by described servomotor D (745) driven rotary, the middle and upper part of described clamping head (743) is arranged with a slide block (746), described slide block (746) is fixed on the output shaft of servomotor E (747), and by described servomotor E (747) driven rotary.

10. the micro-brill parameter measurement system of PCB as claimed in claim 7, it is characterized in that: described adjusting mechanism (713) comprises fixed block (7131), first slide block (7132), second slide block (7133) and base (7134), described fixed block (7131) is flexibly connected with described first slide block (7132) and can does the movement of above-below direction relative to described first slide block (7132), described first slide block (7132) is flexibly connected with described second slide block (7133) and can does the movement of fore-and-aft direction relative to described second slide block (7133), described second slide block (7133) and described base (7134) are flexibly connected and can do the movement of left and right directions relative to described base (7134), described fixed block (7131), described first slide block (7132) and described second slide block (7133) are respectively arranged with the first adjustment handle (7135), second adjustment handle (7136) and the 3rd adjustment handle (7137).