CN220913320U - Multifunctional automatic test marking device - Google Patents

Abstract

The utility model discloses a multifunctional automatic test marking device, which comprises a feeding and discharging conveying line, a conveying mechanical arm, a first, a second and a third feeding modules, an on-off test and high-pressure test mechanism and a laser marking machine, wherein a product is conveyed to the first or the second feeding module through the conveying mechanical arm after being input by the feeding conveying line and is detected by the on-off test and high-pressure test mechanism in sequence, the on-off test mechanism comprises a first upper probe seat and a lower probe seat which are arranged in a lifting manner and are used for conducting inspection on the product in a matching manner, the high-pressure test mechanism comprises a second upper probe seat which is arranged in a lifting manner, one side of each upper probe seat is provided with a positioning plate, and one side of each second upper probe seat is provided with a marking top; and the finished product passing the test is conveyed to a third feeding module by a conveying mechanical arm, is conveyed to a laser marking machine for marking, and is conveyed to a discharging conveying line for outputting, wherein a dust collector is arranged on one side of the third feeding module. The whole working procedure of the utility model is simple and clear, can be automatically and orderly carried out, and has higher efficiency and lower cost.

Description

Multifunctional automatic test marking device

Technical Field

The utility model relates to the technical field of electronic device detection, in particular to a multifunctional automatic test marking device.

Background

After the product is assembled through a series of procedures, the product is subjected to multiple detection, the qualified product can leave the factory, the detection content mainly comprises on-off test and high-voltage test of the product, OK products are output after laser marking, and unqualified products can be screened out to prevent the product from flowing into the market. At present, a manual detection mode or a large-scale detection system is often used for carrying out the final test procedure, so that the efficiency is low, the procedure is complex, and the cost is high.

Disclosure of utility model

The utility model aims to solve the technical problems that the efficiency is low, the process is complex and the cost is high due to the fact that the traditional manual detection or large-scale detection system performs the final test process in the prior art.

The technical scheme of the utility model is as follows: the utility model provides a multi-functional automatic test marking device, includes feeding transfer chain, ejection of compact transfer chain, transport arm, first pay-off module, second pay-off module, break-make testing mechanism, high-pressure testing mechanism, third pay-off module, laser marking machine, and the product is carried to first pay-off module or second pay-off module through the transport arm after being input by feeding transfer chain, detects through break-make testing mechanism, high-pressure testing mechanism in proper order, break-make testing mechanism includes first upper probe seat and lower probe seat, upper and lower probe seat liftable setting is used for the cooperation to carry out the conduction inspection to the product, high-pressure testing mechanism includes the second upper probe seat of liftable setting, and one side of two upper probe seats is equipped with the locating plate that is used for fixing a position the product respectively, and one side of second upper probe seat still is equipped with the mark top that is used for marking OK article; and the finished product passing the test is conveyed to a third feeding module by a conveying mechanical arm, is conveyed to a laser marking machine for marking, and is conveyed to a discharging conveying line for outputting, and a dust collector is further arranged on one side of the third feeding module.

Further, in the utility model, the feeding conveying line and the discharging conveying line are respectively arranged at two sides of the conveying mechanical arm, and the conveying mechanical arm is provided with a first clamping jaw and a second clamping jaw.

Further, the first feeding module comprises a first linear module, a first sliding plate connected with the first linear module and a first discharging jig arranged on the first sliding plate, and the second feeding module comprises a second linear module, a second sliding plate connected with the second linear module, a yielding plate arranged on the second sliding plate and a second discharging jig arranged on the yielding plate, wherein the yielding plate is driven by the yielding cylinder.

Furthermore, in the utility model, the first upper probe seat and the second upper probe seat are respectively arranged on the supporting vertical frame through the upper lifting cylinder, the lower probe seat is driven to lift by the lower lifting cylinder, and each probe seat is provided with a plurality of probes wrapping the probe sleeve.

Further, in the utility model, the positioning plate is arranged on the telescopic block, the telescopic block is driven by the telescopic cylinder, the telescopic cylinder is arranged on the movable module, the marking ejection head is arranged on the ejection head supporting block, the ejection head supporting block is driven by the ejection cylinder to stretch and retract, and the ejection cylinder is arranged on the corresponding movable module.

Further, the third feeding module comprises a third linear module, a third sliding plate connected with the third linear module, a DD motor arranged on the third sliding plate, and a third discharging jig driven to rotate by the DD motor.

Furthermore, the laser marking machine is arranged on the adjusting seat, the adjusting seat is slidably arranged on the adjusting installation seat, and the adjusting installation seat is provided with an adjusting hand wheel in threaded connection with the adjusting seat.

Further, the device also comprises a high-voltage tester and a laser marking machine display, wherein the high-voltage tester is arranged above the on-off testing mechanism and the high-voltage testing mechanism.

Compared with the prior art, the utility model has the following advantages: the utility model has small whole scale and compact structure, the product can be automatically input, and the detection operation can be simultaneously carried out in two paths, so that the operation efficiency is greatly improved, the on-off test and the high-voltage test of the two paths of products can be sequentially carried out, interference can not be generated between the two paths of products, the OK products after the two tests can be marked, so that whether the products are qualified or not can be checked and distinguished at any time, the qualified products can be further subjected to laser marking at the designated position, and finally conveyed to the discharging conveying line for automatic output, the whole test procedure is simple and clear, the automatic sequential operation can be carried out, and the efficiency is higher and the cost is lower compared with a large-scale test system.

Drawings

FIG. 1 is a perspective view of the present utility model;

FIG. 2 is a perspective view of another view of the present utility model;

FIG. 3 is a schematic diagram of a specific structure of the first feeding module and the second feeding module according to the present utility model;

FIG. 4 is a schematic diagram of the specific structure of the on-off test mechanism and the high-voltage test mechanism according to the present utility model;

fig. 5 is a schematic structural diagram of a third feeding module and a laser marking machine according to the present utility model.

Wherein: 1. a feed conveyor line; 2. a discharge conveyor line; 3. a handling robot arm; 31. a first jaw; 32. a second jaw; 4. a first feeding module; 41. a first linear module; 42. a first slide plate; 43. a first discharging jig; 5. a second feeding module; 51. a second linear module; 52. a second slide plate; 53. a abdicating plate; 54. a second discharging jig; 6. an on-off test mechanism; 61. a first upper probe seat; 62. a lower probe seat; 7. a high-voltage testing mechanism; 71. a second upper probe seat; 8. a third feeding module; 81. a third linear module; 82. a third slide plate; 83. a DD motor; 84. a third discharging jig; 9. a laser marking machine; 10. an upper lifting cylinder; 11. a supporting stand; 12. a lower lifting cylinder; 13. a probe sleeve; 14. a probe; 15. a positioning plate; 16. marking a top; 17. a telescopic block; 18. a mobile module; 19. a top support block; 20. an ejection cylinder; 21. an adjusting seat; 22. adjusting the mounting seat; 23. an adjusting hand wheel; 24. a dust collector; 25. a high voltage tester; 26. a laser marking machine display; A. and (5) a product.

Detailed Description

The following describes specific embodiments of the present utility model with reference to the drawings.

Examples:

The utility model relates to a specific embodiment of a multifunctional automatic test marking device, which is shown in the accompanying drawing, and mainly comprises a feeding conveying line 1, a discharging conveying line 2, a carrying mechanical arm 3, a first feeding module 4, a second feeding module 5, an on-off testing mechanism 6, a high-voltage testing mechanism 7, a third feeding module 8 and a laser marking machine 9, wherein the specific embodiment is shown in the accompanying drawing.

The feeding conveying line 1 and the discharging conveying line 2 are respectively arranged on two sides of the conveying mechanical arm 3, the conveying mechanical arm 3 is provided with a first clamping jaw 31 and a second clamping jaw 32, and the grabbing and placing of a single product A and the replacement of two products A can be realized.

The product A is conveyed to the first feeding module 4 or the second feeding module 5 through the conveying mechanical arm 3 after being input by the feeding conveying line 1, and is detected through the on-off testing mechanism 6 and the high-voltage testing mechanism 7 in sequence. The first feeding module 4 and the second feeding module 5 are arranged on one side of the carrying mechanical arm 3 side by side, and the on-off testing mechanism 6 and the high-voltage testing mechanism 7 are arranged on one side of the first feeding module 4 side by side.

Referring to fig. 3, the first feeding module 4 includes a first linear module 41, a first sliding plate 42 connected to the first linear module 41, and a first discharging jig 43 mounted on the first sliding plate 42, and after the product a is placed in the first discharging jig 43, the product a can be conveyed by the first linear module 41. The second feeding module 5 comprises a second linear module 51, a second sliding plate 52 connected with the second linear module 51, a yielding plate 53 arranged on the second sliding plate 52 and a second discharging jig 54 arranged on the yielding plate 53, wherein the yielding plate 53 is driven by an avoidance cylinder, after the second discharging jig 54 is put into a product A, the product A can be conveyed through the second linear module 51, and meanwhile, the yielding can be realized through the cooperation of the avoidance cylinder and the yielding plate 53, so that the product A is prevented from interfering with the first discharging jig 43.

Referring to fig. 4, the on-off test mechanism 6 includes a first upper probe holder 61, a lower probe holder 62, and the high-voltage test mechanism 7 includes a second upper probe holder 71. The first upper probe seat 61 and the second upper probe seat 71 are respectively installed on the supporting stand 11 through the upper lifting cylinder 10, and the lower probe seat 62 is driven to lift by the lower lifting cylinder 12. Each probe seat is provided with a plurality of probes 14 wrapping the probe sleeves 13, in this embodiment, the total number of the probes 14 is fourteen, the probes are arranged in two rows, seven probes in each row are arranged in a one-to-one correspondence with the screws on the product A.

When the product A is subjected to on-off test, the first upper probe seat 61 descends, the lower probe seat 62 is lifted, and the upper and lower probes 14 are respectively contacted with the screws to conduct inspection on the product A. When the product a is tested at high voltage, the second upper probe seat 71 is lowered, the probe 14 is contacted with the screws, and a grid is arranged between the two screws and used for blocking the voltage between the two screws, and if the grid is not broken or broken due to high voltage, the product is qualified.

Further, as shown in fig. 4, a positioning plate 15 for positioning the product a is respectively provided on one side of the first upper probe seat 61 and one side of the second upper probe seat 71, the positioning plate 15 is mounted on a telescopic block 17, the telescopic block 17 is driven by a telescopic cylinder, and the telescopic cylinder is mounted on the moving module 18. After the product A is placed in the first discharging jig 43 or the second discharging jig 54, the position in the jig needs to be adjusted, the positioning plate 15 is telescopic, and the product A can be pushed to one side of the jig by driving the moving module 18 to move, so that the product A is ready for detection.

One side of the second upper probe seat 71 is also provided with a marking plug 16 for marking OK products, the marking plug 16 is arranged on a plug supporting block 19, the plug supporting block 19 is driven to stretch and retract by an ejection cylinder 20, and the ejection cylinder 20 is arranged on a corresponding moving module 18. The positioning plate 15 on one side of the second upper probe seat 71 and the marking plug 16 can synchronously move through the moving module 18, and the qualified product A detected by the on-off testing mechanism 6 and the high-voltage testing mechanism 7 can be ejected by the marking plug 16 to perform marking treatment on the product.

The finished product passing the test is carried to a third feeding module 8 by a carrying mechanical arm 3, is carried to a laser marking machine 9 for marking, and is carried to a discharging conveying line 2 for outputting, the third feeding module 8 is arranged on one side of the second feeding module 5, and the laser marking machine 9 is arranged at one end of the third feeding module 8.

Referring to fig. 5, the third feeding module 8 includes a third linear module 81, a third sliding plate 82 connected to the third linear module 81, a DD motor 83 mounted on the third sliding plate 82, and a third discharging jig 84 driven to rotate by the DD motor 83. After the qualified product A is placed in the third discharging jig 84, the qualified product A can be moved to a designated position through the third linear module 81 and rotated by a corresponding angle under the drive of the DD motor 83, so that the laser marking machine 9 can perform laser marking on the designated position of the product. A dust collector 24 is also arranged on one side of the third feeding module 8 for sucking the chips generated by the imprinting.

Further, the laser marking machine 9 is of an adjustable structure, and is mounted on an adjusting seat 21, the adjusting seat 21 is slidably mounted on an adjusting mounting seat 22, and an adjusting hand wheel 23 in threaded connection with the adjusting seat 21 is arranged on the adjusting mounting seat 22. The adjusting seat 21 can slide along the adjusting installation seat 22 by rotating the adjusting hand wheel 23, so that the laser marking machine 9 is driven to move, and the laser marking machine is adjusted to a proper position for operation.

In addition, the device also comprises a high-voltage tester 25 and a laser marking machine display 26, wherein the high-voltage tester 25 is arranged above the on-off testing mechanism 6 and the high-voltage testing mechanism 7.

When the multifunctional automatic test marking device specifically works, a product A is input by the feeding conveying line 1, a conveying mechanical arm 3 firstly grabs a product and puts the product into a first discharging jig 43, the first discharging jig 43 moves to the position of the on-off test mechanism 6, the product is firstly pushed to one side of the jig by using a positioning plate 15, then on-off test is carried out, the product which is unqualified in the on-off test cannot flow into a high-pressure test procedure, the product which is qualified in the on-off test continues to move to the position of the high-pressure test mechanism 7 for high-pressure test, the product which is unqualified in the high-pressure test cannot flow into a subsequent laser marking procedure, and the pressure-resistant OK product which is tested under the high-pressure test is marked by a marking top 16. Meanwhile, when the first product moves to the high-voltage testing mechanism 7, the carrying mechanical arm 3 grabs the second product from the feeding conveying line 1 and puts the second product into the second discharging jig 54, and the on-off test is performed first, and the product is pushed to one side of the jig by using the positioning plate 15 before the test, so that the test rule is the same as the above. After the first product completes two tests and marks, the carrying mechanical arm 3 continues to grasp a third product from the feeding conveying line 1, one clamping jaw takes out the qualified first product, the other clamping jaw puts the third product to be detected in, the taken out qualified first product is then carried into the third discharging jig 84 and conveyed to the laser marking machine 9 for laser marking, at this time, the carrying mechanical arm 3 returns to the feeding conveying line 1 to take out the product, the information given by each station is waited for product exchange, and finally the laser marked finished product is carried to the discharging conveying line 2 for output by the carrying mechanical arm 3.

The above embodiments are merely for illustrating the technical concept and features of the present utility model, and are not intended to limit the scope of the present utility model to those skilled in the art to understand the present utility model and implement the same. All modifications made according to the spirit of the main technical proposal of the utility model should be covered in the protection scope of the utility model.

Claims (8)

1. The utility model provides a multi-functional automatic test marking device which characterized in that: the automatic feeding device comprises a feeding conveying line (1), a discharging conveying line (2), a carrying mechanical arm (3), a first feeding module (4), a second feeding module (5), an on-off testing mechanism (6), a high-voltage testing mechanism (7), a third feeding module (8) and a laser marking machine (9), wherein a product (A) is conveyed onto the first feeding module (4) or the second feeding module (5) through the carrying mechanical arm (3) after being input by the feeding conveying line (1), and sequentially passes through the on-off testing mechanism (6) and the high-voltage testing mechanism (7) for detection, the on-off testing mechanism (6) comprises a first upper probe seat (61) and a lower probe seat (62), the upper probe seat and the lower probe seat can be arranged in a lifting manner for conducting inspection on a product (A), one side of each of the two upper probe seats is respectively provided with a positioning plate (15) for positioning the product (A), and one side of each second upper probe seat (71) is also provided with a marking plug (16) for marking OK; the finished product passing the test is carried to a third feeding module (8) by a carrying mechanical arm (3) to be carried to a laser marking machine (9) for marking and then carried to a discharging conveying line (2) for outputting, and a dust collector (24) is arranged on one side of the third feeding module (8).

2. The multi-functional automatic test marking device according to claim 1, wherein: the feeding conveying line (1) and the discharging conveying line (2) are respectively arranged at two sides of the conveying mechanical arm (3), and the conveying mechanical arm (3) is provided with a first clamping jaw (31) and a second clamping jaw (32).

3. The multi-functional automatic test marking device according to claim 1, wherein: the first feeding module (4) comprises a first linear module (41), a first sliding plate (42) connected with the first linear module (41), and a first discharging jig (43) arranged on the first sliding plate (42), and the second feeding module (5) comprises a second linear module (51), a second sliding plate (52) connected with the second linear module (51), a yielding plate (53) arranged on the second sliding plate (52) by driving an avoidance cylinder, and a second discharging jig (54) arranged on the yielding plate (53).

4. The multi-functional automatic test marking device according to claim 1, wherein: the first upper probe seat (61) and the second upper probe seat (71) are respectively arranged on the supporting vertical frame (11) through an upper lifting cylinder (10), the lower probe seat (62) is driven to lift by a lower lifting cylinder (12), and each probe seat is provided with a plurality of probes (14) wrapping the probe sleeve (13).

5. The multi-functional automatic test marking device according to claim 1, wherein: the locating plate (15) is installed on the telescopic block (17), the telescopic block (17) is driven by a telescopic cylinder, the telescopic cylinder is installed on the movable module (18), the marking plug (16) is installed on the plug supporting block (19), the plug supporting block (19) is driven by the ejection cylinder (20) to stretch out and draw back, and the ejection cylinder (20) is installed on the corresponding movable module (18).

6. The multi-functional automatic test marking device according to claim 1, wherein: the third feeding module (8) comprises a third linear module (81), a third sliding plate (82) connected with the third linear module (81), a DD motor (83) arranged on the third sliding plate (82), and a third discharging jig (84) driven by the DD motor (83) to rotate.

7. The multi-functional automatic test marking device according to claim 1, wherein: the laser marking machine (9) is arranged on the adjusting seat (21), the adjusting seat (21) is slidably arranged on the adjusting installation seat (22), and the adjusting installation seat (22) is provided with an adjusting hand wheel (23) in threaded connection with the adjusting seat (21).

8. The multi-functional automatic test marking device according to claim 1, wherein: the device also comprises a high-voltage tester (25) and a laser marking machine display (26), wherein the high-voltage tester (25) is arranged above the on-off testing mechanism (6) and the high-voltage testing mechanism (7).