CN204666780U - ICT test machine - Google Patents

Abstract

The utility model discloses a kind of ICT test machine, comprise frame, table assembly, CCD assembly, electrical measurement moving assembly, conveyor, blanking assembly; Described table assembly is arranged on the middle part of frame work top, electrical measurement moving assembly to be arranged on frame work top and to be positioned at the left side of table assembly, conveyor to be arranged on frame work top and to be positioned at the right side of table assembly, blanking assembly to be arranged on frame work top and to be positioned at the rear side of table assembly, and CCD assembly to be arranged on electrical measurement moving assembly and to be positioned at the top of table assembly.Due to the utility model coordinating by CCD assembly and electrical measurement moving assembly, realize product rapid-aligning and detection; For qualified and substandard product, the put area of blanking assembly automatic distinguishing non-defective unit and defective products.Adopt the table assembly mechanism of Cam splitter calibration, realize the operations such as material loading, contraposition, electrical measurement, blanking and carry out work simultaneously, enhance productivity.

Description

ICT test machine

Technical field

The utility model relates to FPC circuit board machinery automated manufacturing industry, particularly relates to a kind of ICT test machine.

Background technology

At present, circuit board fabrication industry uses ICT electrical measurement fixture equipment availability to operate, adopt Manual feeding, press down tool by hand, the contraposition of manual setting milscale scale is carried out according to the information of display screen on ICT electrical measurement fixture, manual blanking, artificial differentiation non-defective unit and defective products are placed, because the size-spacing of product golden finger is very little, the ICT electrical measurement contraposition of upper and lower tool is all will by artificial adjustment, such production efficiency is low, artificial frequent contraposition is put product and is caused its labour intensity of workman large, the test leakage that human factor causes, survey substandard product to increase by mistake, and flow to lower one technique, affect the production of whole line.

Utility model content

The purpose of this utility model is the ICT test machine providing a kind of automaticity high.

For achieving the above object, technical solution of the present utility model is:

The utility model is a kind of ICT test machine, comprises frame, table assembly, CCD assembly, electrical measurement moving assembly, conveyor, blanking assembly; Described table assembly is arranged on the middle part of frame work top, electrical measurement moving assembly to be arranged on frame work top and to be positioned at the left side of table assembly, conveyor to be arranged on frame work top and to be positioned at the right side of table assembly, blanking assembly to be arranged on frame work top and to be positioned at the rear side of table assembly, CCD assembly to be arranged on electrical measurement moving assembly and be positioned at table assembly top.

Described table assembly comprises Cam splitter, base plate, substrate, motor, synchronous belt drive mechanism, sensor cam, sensor; At the end face of base plate, many cover elbow folders and tool are installed, the center of base plate is fixedly mounted on the output shaft on Cam splitter top, Cam splitter is fixedly mounted on substrate, one end of Cam splitter input shaft is connected with motor output shaft by synchronous belt drive mechanism, a fixedly sleeved sensor cam on the other end of Cam splitter input shaft, sensor to be fixedly mounted on substrate by switch installation board and relative with sensor cam, and motor is fixedly mounted on the bottom surface of substrate by motor mounting plate.

Substrate 23 is installed a set of defective products box and this defective products box is positioned at the side of base plate.

Described CCD assembly comprises camera fixed head, light source, optical source cover board, camera adjustment plate, camera; Described camera fixed head is made up of seat board and backup plate, and the lower end of backup plate is vertically fixed on seat board; Described light source is arranged in the seat board of camera fixed head, optical source cover board is arranged on the seat board end face of camera fixed head and is covered by light source, camera adjustment plate side be vertically mounted in the mode that can finely tune up and down on the seat board of camera fixed head, camera be fixedly mounted on camera adjustment plate on and camera lens down.

Described electrical measurement moving assembly comprises electrical measurement support, module installing plate, Y-axis module, servomotor, Z axis cylinder, upper tool installing plate; Described module installing plate is fixedly mounted on the top of electrical measurement support, Y-axis module and servomotor are all fixedly mounted on module installing plate and the output shaft of servomotor is connected by the screw mandrel of shaft coupling with Y-axis module, the cylinder body of Z axis cylinder is fixed on the guide rail of Y-axis module, and upper tool installing plate is fixedly mounted on the piston rod rod end of Z axis cylinder by fixed head.

Described conveyor comprises conveying frame, motor rack, conveying stepper motor, synchronous belt drive mechanism, active roller, return idler, flat belt and slideway; Described active roller and return idler are respectively by the rotating forward and backward two ends being arranged on conveying frame of bearing, conveying stepper motor is arranged on motor rack and the output shaft of conveying stepper motor is connected with active roller by synchronous belt drive mechanism, flat belt solderless wrapped connection on active roller and return idler, the oblique below being arranged on return idler, slideway upper end.

Described conveying frame is made up of travelling belt support, front side board, back side panel; Described front side board and the middle part of back side panel are vertically fixed on the upper end of travelling belt support respectively and are parallel to each other.

Described synchronous belt drive mechanism is made up of active synchronization wheel, driven synchronizing wheel, Timing Belt; Described active synchronization wheel is fixedly sleeved on the output shaft of conveying stepper motor, and driven synchronizing wheel is fixedly sleeved on the wheel shaft of active roller, and Timing Belt solderless wrapped connection is on active synchronization wheel and driven synchronizing wheel.

Described blanking assembly comprises blanking support, module installing plate, X-axis module, servomotor, cylinder mounting plate, Z axis cylinder, vacuum cup; Described module installing plate is fixedly mounted on the top of blanking support, X-axis module and servomotor are all fixedly mounted on module installing plate and servomotor is connected by the screw mandrel of shaft coupling with X-axis module, the cylinder body of Z axis cylinder is fixedly mounted on by cylinder mounting plate on the guide rail of X-axis module, and vacuum cup is fixedly mounted on the piston rod rod end of Z axis cylinder.

Adopt after such scheme, because the utility model is solve above-mentioned technical matters, adopt coordinating by CCD assembly and electrical measurement moving assembly, realize product rapid-aligning and detection; For qualified and substandard product, by the put area of the automatic accurate judgement of system, blanking assembly automatic distinguishing non-defective unit and defective products, table assembly adopts the table assembly mechanism of Cam splitter calibration, the quality realizing the operations such as material loading, contraposition, electrical measurement, blanking and carry out work simultaneously, enhance productivity, save labor cost, ensure product.

Below in conjunction with the drawings and specific embodiments, the utility model is further described.

Accompanying drawing explanation

Fig. 1 is axonometric drawing of the present utility model;

Fig. 2 is front elevation of the present utility model;

Fig. 3 is vertical view of the present utility model;

Fig. 4 is the axonometric drawing of utility model works platform assembly;

Fig. 5 is the front elevation of utility model works platform assembly;

Fig. 6 is the vertical view of utility model works platform assembly;

Fig. 7 is the side view of utility model works platform assembly;

Fig. 8 is the axonometric drawing of the utility model CCD assembly;

Fig. 9 is the front elevation of the utility model CCD assembly;

Figure 10 is the side view of the utility model CCD assembly;

Figure 11 is the vertical view of the utility model CCD assembly;

Figure 12 is the axonometric drawing of the utility model electrical measurement moving assembly;

Figure 13 is the front elevation of the utility model electrical measurement moving assembly;

Figure 14 is the vertical view of the utility model electrical measurement moving assembly;

Figure 15 is the side view of the utility model electrical measurement moving assembly;

Figure 16 is the axonometric drawing of the utility model conveyor;

Figure 17 is the front elevation of the utility model conveyor;

Figure 18 is the vertical view of the utility model conveyor;

Figure 19 is the cut-open view of Figure 18 along C-C line;

Figure 20 is the cut-open view of Figure 17 along A-A line;

Figure 21 is the cut-open view of Figure 17 along B-B line;

Figure 22 is the axonometric drawing of the utility model blanking assembly;

Figure 23 is the front elevation of the utility model blanking assembly;

Figure 24 is the vertical view of the utility model blanking assembly;

Figure 25 is the side view of the utility model blanking assembly.

Embodiment

As shown in Figure 1-Figure 3, the utility model is a kind of ICT test machine, comprises frame 1, table assembly 2, CCD assembly 3, electrical measurement moving assembly 4, conveyor 5, blanking assembly 6.

Described table assembly 2 be arranged on frame 1 work top 11 in the middle part of, electrical measurement moving assembly 4 to be arranged on frame 1 work top 11 and to be positioned at the left side of table assembly 2, conveyor 5 to be arranged on frame 1 work top 11 and to be positioned at the right side of table assembly 2, blanking assembly 6 to be arranged on frame 1 work top 11 and to be positioned at the rear side of table assembly 2, CCD assembly 3 to be arranged on electrical measurement moving assembly 4 and be positioned at table assembly 2 top.

As Figure 4-Figure 7, described table assembly 2 comprises Cam splitter 21, base plate 22, substrate 23, motor 24, synchronous belt drive mechanism 25, sensor cam 26, sensor 27, protective cover 28, defective products box 29.At the end face of base plate 22, four cover elbow folder 221 and tools 222 are installed, the center of base plate 22 is fixedly mounted on the output shaft on Cam splitter 21 top, Cam splitter 21 is fixedly mounted on substrate 23, one end of Cam splitter 21 input shaft is connected with motor 24 output shaft by synchronous belt drive mechanism 25, a fixedly sleeved sensor cam 26 on the other end of Cam splitter 21 input shaft, sensor 27 to be fixedly mounted on substrate 23 by switch installation board 271 and relative with sensor cam 26, motor 24 is fixedly mounted on the bottom surface of substrate 23 by motor mounting plate 241, snapping one protective cover 28 outside synchronous belt drive mechanism 25, substrate 23 is installed a set of defective products box 29 and this defective products box 29 is positioned at the side of base plate 22, this table assembly 2 is for realizing ICT calibration rotational sequence.

As shown in figures s-11, described CCD assembly 3 comprises camera fixed head 31, light source 32, optical source cover board 33, camera adjustment plate 34, camera 35, fixed head 36.Described camera fixed head 31 is made up of seat board 311 and backup plate 312.The lower end of backup plate 312 is vertically fixed on seat board 311.Described light source 32 is arranged in the seat board 311 of camera fixed head 31, optical source cover board 33 is arranged on seat board 311 end face of camera fixed head 31 and is covered by light source 32, camera adjustment plate 34 side be vertically mounted on the seat board 311 of camera fixed head 31 in the mode that can finely tune up and down, camera 35 be fixedly mounted on camera adjustment plate 34 on and camera lens down; This CCD assembly 3 looks for coordinate contraposition automatically for what realize ICT electrical measurement.

As shown in Figure 12-Figure 15, described electrical measurement moving assembly 4 comprises electrical measurement support 41, module installing plate 42, Y-axis module 43, servomotor 44, Z axis cylinder 45, upper tool installing plate 46.Described module installing plate 42 is fixedly mounted on the top of electrical measurement support 41, Y-axis module 43 and servomotor 44 are all fixedly mounted on module installing plate 42 and the output shaft of servomotor 44 is connected by the screw mandrel of shaft coupling with Y-axis module 43, the cylinder body of Z axis cylinder 45 is fixed on the guide rail of Y-axis module 43, and upper tool installing plate 46 is fixedly mounted on the piston rod rod end of Z axis cylinder 45 by fixed head.This electrical measurement moving assembly 4 and CCD assembly 3 coordinate the automatic electrical measurement for realizing ICT.

As shown in Figure 16-Figure 21, described conveyor 5 comprises conveying frame 51, motor rack 52, conveying stepper motor 53, synchronous belt drive mechanism 54, active roller 55, return idler 56, flat belt 57 and slideway 58, motor shield 59.Described conveying frame 51 is made up of travelling belt support 511, front side board 512, back side panel 513; Described front side board 512 and the middle part of back side panel 513 are vertically fixed on travelling belt respectively and support the upper end of 511 and be parallel to each other.Described active roller 55 and return idler 56 are respectively by the rotating forward and backward two ends being arranged on front side board 512 and back side panel 513 in conveying frame 51 of bearing, conveying stepper motor 53 is arranged on motor rack 52 and the output shaft of conveying stepper motor 53 is connected with active roller 55 by synchronous belt drive mechanism 54, flat belt 57 solderless wrapped connection on active roller 55 and return idler 56, the oblique below being arranged on return idler 56, slideway 58 upper end.Described motor shield 59 is arranged on the outside of conveying stepper motor 53.This conveyor 5 is for realizing the automatic transport to ICT non-defective unit.

As shown in Figure 22-Figure 25, described synchronous belt drive mechanism 54 is made up of active synchronization wheel 541, driven synchronizing wheel 542, Timing Belt 543.Described active synchronization is taken turns on the 541 fixedly sleeved output shafts carrying stepper motor 53, and driven synchronizing wheel 542 is fixedly sleeved on the wheel shaft of active roller 55, and Timing Belt 543 solderless wrapped connection is on active synchronization wheel 541 and driven synchronizing wheel 542.

Described blanking assembly 6 comprises blanking support 61, module installing plate 62, X-axis module 63, servomotor 64, cylinder mounting plate 65, Z axis cylinder 66, vacuum cup 67.Described module installing plate 62 is fixedly mounted on the top of blanking support 61, X-axis module 63 and servomotor 64 are all fixedly mounted on module installing plate 62 and servomotor 64 is connected by the screw mandrel of shaft coupling with X-axis module 63, the cylinder body of Z axis cylinder 66 is fixedly mounted on by cylinder mounting plate 65 on the guide rail of X-axis module 63, and vacuum cup 67 is fixedly mounted on the piston rod rod end of Z axis cylinder 66.This blanking assembly 6 is for realizing the automatic distinguishing blanking of ICT non-defective unit and defective products.

The course of work of the present utility model:

As Figure 1 and Figure 4, on Manual feeding → the deliver to lower tool 222 on table assembly 2 location → table assembly 2 base plate 22 90-degree rotations → CCD assembly 3 on CCD para-position → electrical measurement moving assembly 4 vacuum cup 67 of moving the base plate 22 90-degree rotations → blanking assembly 6 of Y-axis → electrical measurement → table assembly 2 draw → carry out placing (each operation can work simultaneously, does not mutually have conflict relationship) according to non-defective unit and defective products.

The above, be only the utility model preferred embodiment, elbow folder on table assembly and the tricks of tool can be determined according to needs, therefore the scope of the utility model enforcement can not be limited with this, namely the equivalence change done according to the utility model claim and description with modify, all should still belong in scope that the utility model patent contains.

Claims (9)

1. an ICT test machine, is characterized in that: comprise frame, table assembly, CCD assembly, electrical measurement moving assembly, conveyor, blanking assembly; Described table assembly is arranged on the middle part of frame work top, electrical measurement moving assembly to be arranged on frame work top and to be positioned at the left side of table assembly, conveyor to be arranged on frame work top and to be positioned at the right side of table assembly, blanking assembly to be arranged on frame work top and to be positioned at the rear side of table assembly, CCD assembly to be arranged on electrical measurement moving assembly and be positioned at table assembly top.

2. ICT test machine according to claim 1, is characterized in that: described table assembly comprises Cam splitter, base plate, substrate, motor, synchronous belt drive mechanism, sensor cam, sensor; At the end face of base plate, many cover elbow folders and tool are installed, the center of base plate is fixedly mounted on the output shaft on Cam splitter top, Cam splitter is fixedly mounted on substrate, one end of Cam splitter input shaft is connected with motor output shaft by synchronous belt drive mechanism, a fixedly sleeved sensor cam on the other end of Cam splitter input shaft, sensor to be fixedly mounted on substrate by switch installation board and relative with sensor cam, and motor is fixedly mounted on the bottom surface of substrate by motor mounting plate.

3. ICT test machine according to claim 2, is characterized in that: on substrate, install a set of defective products box and this defective products box is positioned at the side of base plate.

4. ICT test machine according to claim 1, is characterized in that: described CCD assembly comprises camera fixed head, light source, optical source cover board, camera adjustment plate, camera; Described camera fixed head is made up of seat board and backup plate, and the lower end of backup plate is vertically fixed on seat board; Described light source is arranged in the seat board of camera fixed head, optical source cover board is arranged on the seat board end face of camera fixed head and is covered by light source, camera adjustment plate side be vertically mounted in the mode that can finely tune up and down on the seat board of camera fixed head, camera be fixedly mounted on camera adjustment plate on and camera lens down.

5. ICT test machine according to claim 1, is characterized in that: described electrical measurement moving assembly comprises electrical measurement support, module installing plate, Y-axis module, servomotor, Z axis cylinder, upper tool installing plate; Described module installing plate is fixedly mounted on the top of electrical measurement support, Y-axis module and servomotor are all fixedly mounted on module installing plate and the output shaft of servomotor is connected by the screw mandrel of shaft coupling with Y-axis module, the cylinder body of Z axis cylinder is fixed on the guide rail of Y-axis module, and upper tool installing plate is fixedly mounted on the piston rod rod end of Z axis cylinder by fixed head.

6. ICT test machine according to claim 1, is characterized in that: described conveyor comprises conveying frame, motor rack, conveying stepper motor, synchronous belt drive mechanism, active roller, return idler, flat belt and slideway; Described active roller and return idler are respectively by the rotating forward and backward two ends being arranged on conveying frame of bearing, conveying stepper motor is arranged on motor rack and the output shaft of conveying stepper motor is connected with active roller by synchronous belt drive mechanism, flat belt solderless wrapped connection on active roller and return idler, the oblique below being arranged on return idler, slideway upper end.

7. ICT test machine according to claim 6, is characterized in that: described conveying frame is made up of travelling belt support, front side board, back side panel; Described front side board and the middle part of back side panel are vertically fixed on the upper end of travelling belt support respectively and are parallel to each other.

8. ICT test machine according to claim 6, is characterized in that: described synchronous belt drive mechanism is made up of active synchronization wheel, driven synchronizing wheel, Timing Belt; Described active synchronization wheel is fixedly sleeved on the output shaft of conveying stepper motor, and driven synchronizing wheel is fixedly sleeved on the wheel shaft of active roller, and Timing Belt solderless wrapped connection is on active synchronization wheel and driven synchronizing wheel.

9. ICT test machine according to claim 1, is characterized in that: described blanking assembly comprises blanking support, module installing plate, X-axis module, servomotor, cylinder mounting plate, Z axis cylinder, vacuum cup; Described module installing plate is fixedly mounted on the top of blanking support, X-axis module and servomotor are all fixedly mounted on module installing plate and servomotor is connected by the screw mandrel of shaft coupling with X-axis module, the cylinder body of Z axis cylinder is fixedly mounted on by cylinder mounting plate on the guide rail of X-axis module, and vacuum cup is fixedly mounted on the piston rod rod end of Z axis cylinder.