CN219850865U - Full-automatic wire-edge double-channel net-sorting tester - Google Patents

Abstract

The utility model relates to the technical field of mobile phone network division testing, in particular to a line side double-channel full-automatic network division testing machine which comprises an electric cabinet arranged on one side of a production line and a large plate fixed on the electric cabinet, wherein a first X-axis component is fixed on a first side of the large plate, one end of the first X-axis component extends out of the large plate and is provided with a guide strip corresponding to the production line, an L-shaped mounting seat is fixed on a second side of the large plate, a pressing cylinder is arranged on the L-shaped mounting seat, an upper die is arranged on the pressing cylinder, a bottom die is fixed on the large plate below the upper die, a first movable block capable of sliding left and right is arranged on the first X-axis component, a second X-axis component capable of taking materials up and down is arranged on the first movable block, a suction head component capable of moving up and down is arranged at the first end of the second X-axis component, a discharging component capable of moving left and right, up and down and front and back is arranged in the electric cabinet. The utility model has the advantages of automatic test, high test precision and working efficiency.

Description

Full-automatic wire-edge double-channel net-sorting tester

Technical Field

The utility model relates to the technical field of mobile phone network division testing, in particular to a line-edge double-channel full-automatic network division testing machine.

Background

In the current network division testing scheme in the mobile phone assembling process, three main stream testing devices are respectively a manual network division testing jig, an automatic network division testing device and a network division testing instrument. The manual net-division testing jig is used for manually placing the product on the jig to test net-division, and then processing the product according to the feedback result of the jig, so that the defects of high labor, low working efficiency and low testing precision exist; the automatic network division testing equipment is diversified, has the structural differences of wired edges, on-line, single channels, double channels and various structures, but the overall flow is automatically fed and discharged and automatically tested, and has the defect of low testing precision; the net branch test instrument is a high-precision net branch test instrument, is generally matched with a manual or automatic net branch test fixture for use, has high test precision, but has the defect of high cost. Therefore, it is necessary to develop a line-edge dual-channel full-automatic network division tester with automatic test, high test precision and low cost.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides a line-side double-channel full-automatic network component testing machine, optimizes the operation mode of the existing automatic network component testing equipment, greatly enhances the stability and universality of the equipment, has the advantages of automatic testing, high testing precision and high working efficiency, and is mainly oriented to clients or projects for producing two rows of products on a production line.

In order to achieve the above purpose, the technical scheme of the utility model is as follows:

the utility model provides a full-automatic net branch test machine of line limit binary channels, including locating the regulator cubicle of assembly line one side and being fixed in the big board on the regulator cubicle, the first side of big board is fixed with first X axle subassembly, the big board is stretched out to the one end of first X axle subassembly, and be equipped with the gib block that corresponds with the assembly line, the second side of big board is fixed with L type mount pad, be equipped with the pressfitting cylinder on the L type mount pad, be equipped with the mould on the pressfitting cylinder, be fixed with the die block on the big board of last mould below, be equipped with first movable block of slidable about on the first X axle subassembly, be equipped with on the first movable block can about the activity ground second X axle subassembly, the first end of second X axle subassembly is equipped with can about the activity ground and gets the material suction head subassembly, the second end of second X axle subassembly is equipped with about, be equipped with the net branch testing arrangement in the regulator cubicle.

According to the above scheme, the first end of the first X-axis assembly is fixed on the large plate through the supporting seat, the second end of the first X-axis assembly extends to the upper part of the assembly line, and the guide bar is arranged at the second end of the first X-axis assembly and is positioned above the assembly line.

According to the scheme, the upper die and the L-shaped mounting seat are provided with the horizontal guide rod in sliding connection.

According to the scheme, the large plate is provided with the bottom die mounting hole for fixing the bottom die, and the bottom die mounting hole is positioned below the upper die.

According to the above scheme, the first X-axis assembly comprises a first sliding rail and a first driving motor, the first movable block is arranged on the first sliding rail in a sliding mode, and the first driving motor drives the first movable block to slide left and right on the first sliding rail.

According to the above scheme, the second X-axis assembly is driven to lift on the first movable block through the first lifting assembly, the first lifting assembly comprises a second sliding rail, a second movable block and a second driving motor, the second movable block is arranged on the second sliding rail in a sliding mode, the second driving motor drives the second movable block to lift on the second sliding rail, and the second X-axis assembly is fixedly connected with the second movable block.

According to the scheme, the first end of the second X-axis assembly is provided with the first lifting cylinder and the first connecting piece, the material taking suction head assembly is fixed on the first connecting piece, and the first lifting cylinder drives the first connecting piece to drive the material taking suction head assembly to move up and down.

According to the scheme, be equipped with third slide rail and fourth slide rail on the second X axle subassembly, the slip is equipped with the third movable block on the third slide rail, the slip is equipped with the fourth movable block on the fourth slide rail, fourth movable block and third movable block fixed connection, the third movable block passes through third driving motor drive and slides on the third slide rail side by side, and drive fourth movable block and slide on the fourth slide rail side by side, be equipped with the fifth movable block of slidable ground from top to bottom on the fourth movable block, the fifth movable block passes through fourth driving motor drive and reciprocates, the fifth movable block is connected with flexible cylinder through the connecting plate, flexible cylinder is connected with the second connecting piece, blowing suction head subassembly and second connecting piece fixed connection, the second connecting piece passes through flexible cylinder drive back-and-forth movement.

According to the scheme, be fixed with the aircraft bonnet on the big board, the aircraft bonnet is close to assembly line one side and is equipped with L type opening, and big board is close to assembly line one side and is equipped with NG product conveying assembly.

According to the scheme, a plurality of activities and a plurality of feet are arranged on the bottom of the electric cabinet.

The utility model has the beneficial effects that:

1) The replacement project is simple, because the automatic test is carried out in the equipment, the product is placed on the bottom die through the mechanical hand to be pressed, the positions of the bottom die and the upper die are completely fixed, and the automatic test can be used only by replacement without adjusting the positions;

2) The test precision is high, the former pressing equipment is usually a movable bottom die for faster efficiency, a certain pressing precision is sacrificed, and the utility model adopts a mode of fixing an upper die and a lower die, thereby ensuring the pressing precision;

3) The equipment is simple to install, 2-4 persons are often required to carry the equipment on the line, the debugging is required to be carried out for a period of time after the position is changed, and the line edge pressing equipment only needs to be pushed by one person, then the horizontal position is fixed, and then the equipment is guided;

4) The utility model adopts a manipulator material taking mode, can support single-row product material taking and discharging and double-row product material taking and discharging on a production line, has high flexibility, can be conveniently matched with the combination of front-stage equipment and back-stage equipment, can finish operations such as overturning after pressing through an adding mechanism, is very convenient for the work position arrangement of the production line, and can be perfectly compatible with the front-stage equipment and the back-stage equipment.

Drawings

FIG. 1 is a general block diagram of the present utility model;

FIG. 2 is an internal block diagram of the present utility model;

FIG. 3 is an assembly view of a first X-axis assembly, a first movable block, a first lift assembly, and a second X-axis assembly of the present utility model;

FIG. 4 is an assembly view of a second X-axis assembly, a second lift assembly, a take-up nozzle assembly, and a discharge nozzle assembly of the present utility model.

In the figure: 1. a movable wheel; 2. a foot margin; 3. a guide bar; 4. a first X-axis assembly; 5. a first movable block; 6. a first lifting assembly; 7. a second X-axis assembly; 8. a second lifting assembly; 9. a pick-up head assembly; 10. a discharging suction head assembly; 11. an NG product delivery component; 12. an electrical cabinet; 13. a hood; 14. a large plate; 15. a support base; 16. a first slide rail; 17. a first driving motor; 18. an L-shaped mounting seat; 19. installing hole sites on the bottom die; 20. a pressing cylinder; 21. a horizontal guide bar; 22. an upper die; 23. a second slide rail; 24. a second movable block; 25. a second driving motor; 26. a first lifting cylinder; 27. a first connector; 28. a fourth slide rail; 29. a third movable block; 30. a third slide rail; 31. a fourth movable block; 32. a fifth movable block; 33. a connecting plate; 34. a telescopic cylinder; 35. a second connector; 36. an L-shaped opening.

Detailed Description

The technical scheme of the utility model is described below with reference to the accompanying drawings and examples.

As shown in fig. 1 to 4, the full-automatic wire-edge dual-channel net-separating tester comprises a regulator cubicle 12 arranged on one side of a production line and a large plate 14 fixed on the regulator cubicle 12, wherein a first X-axis component 4 is fixed on a first side of the large plate 14, one end of the first X-axis component 4 extends out of the large plate 14 and is provided with a guide strip 3 corresponding to the production line, an L-shaped mounting seat 18 is fixed on a second side of the large plate 14, a pressing cylinder 20 is arranged on the L-shaped mounting seat 18, an upper die 22 is arranged on the pressing cylinder 20, a bottom die is fixed on the large plate 14 below the upper die 22, a first movable block 5 capable of sliding left and right is arranged on the first X-axis component 4, a second X-axis component 7 capable of moving up and down is arranged on the first movable block 5, a material-taking component 9 capable of moving up and down is arranged on a first end of the second X-axis component 7, a material-discharging suction head component 10 capable of moving up and down and a net-separating tester is arranged in the regulator cubicle 12. The above constitutes the basic structure of the present utility model.

By adopting the structural arrangement, the utility model has the advantages that the testing machine is erected on the side (one side) of the assembly line, compared with the prior art that the testing machine is erected on the assembly line, the space is reasonably utilized, the assembly line space is not occupied, the structure is more stable, and the shaking condition can not occur during the working. It should be noted that the utility model is mainly aimed at improving the existing automatic network component testing equipment, optimizes the operation mode of the existing automatic network component testing equipment, greatly enhances the stability and the universality of the equipment, has the advantages of automatic testing, high testing precision and lower cost, and is mainly oriented to clients or projects for producing two rows of products on a production line. More specifically, the working principle of the utility model is as follows: the product is conveyed to the position of the guide strip 3 on the assembly line, the product is guided through the guide strip 3 and limited, the product is adsorbed by the material taking suction head assembly 9 on the first X-axis assembly 4 and transferred to the bottom die, after the pressing cylinder 20 drives the upper die 22 to press the product on the bottom die, the product is subjected to net separation test through the testing device, the tested product is adsorbed by the material discharging suction head assembly 10 on the first X-axis assembly 4, wherein the OK product is returned to the assembly line and conveyed to the next procedure, and the NG product is recovered by the NG product conveying assembly.

It should be noted that, the pressing cylinder 20, the bottom die, the upper die, the material taking suction head assembly 9 and the material discharging suction head assembly 10 are all provided with two groups, which can test two products at the same time, and the working efficiency is high.

In this embodiment, the first end of the first X-axis assembly 4 is fixed on the large plate 14 by the support base 15, the second end of the first X-axis assembly 4 extends above the assembly line, and the guide bar 3 is disposed at the second end of the first X-axis assembly 4 and above the assembly line. By adopting the structure, the guide strip 3 is arranged at the second end of the first X-axis assembly 4 and positioned above the assembly line for a certain distance, so that the product is guided, and is conveniently adsorbed by the material taking suction head assembly 9 arranged on the first X-axis assembly 4.

In this embodiment, a horizontal guide rod 21 is slidably connected between the upper die 22 and the L-shaped mounting base 18. By adopting the structure, the upper die 22 can be kept horizontally lifted when lifted, and the pressing effect on the product is better.

In this embodiment, the large plate 14 is provided with a bottom die mounting hole 19 for fixing the bottom die, and the bottom die mounting hole 19 is located below the upper die 22. By adopting the structure, the bottom die is fixedly arranged below the upper die 22, so that the bottom die can be matched with the upper die 22 conveniently.

In this embodiment, the first X-axis assembly 4 includes a first slide rail 16 and a first driving motor 17, the first movable block 5 is slidably disposed on the first slide rail 16, and the first driving motor 17 drives the first movable block 5 to slide left and right on the first slide rail 16.

In this embodiment, the second X-axis assembly 7 is driven to lift on the first movable block 5 by the first lifting assembly 6, the first lifting assembly 6 includes a second slide rail 23, a second movable block 24, and a second driving motor 25, the second movable block 24 is slidably disposed on the second slide rail 23, the second driving motor 25 drives the second movable block 24 to lift on the second slide rail 23, and the second X-axis assembly 7 is fixedly connected with the second movable block 24.

In this embodiment, a first lifting cylinder 26 and a first connecting piece 27 are disposed at a first end of the second X-axis assembly 7, the material taking suction head assembly 9 is fixed on the first connecting piece 27, and the first lifting cylinder 26 drives the first connecting piece 27 to drive the material taking suction head assembly 9 to move up and down.

In this embodiment, the second X-axis assembly 7 is provided with a third sliding rail 30 and a fourth sliding rail 28, the third sliding rail 30 is provided with a third movable block 29 in a sliding manner, the fourth sliding rail 28 is provided with a fourth movable block 31 in a sliding manner, the fourth movable block 31 is fixedly connected with the third movable block 29, the third movable block 29 is driven by a third driving motor to slide left and right on the third sliding rail 30 and drive the fourth movable block 31 to slide left and right on the fourth sliding rail 28, the fourth movable block 31 is provided with a fifth movable block 32 capable of sliding up and down, the fifth movable block 32 is driven by a fourth driving motor to move up and down, the fifth movable block 32 is connected with a telescopic cylinder 34 through a connecting plate 33, the telescopic cylinder 34 is connected with a second connecting piece 35, the discharging suction head assembly 10 is fixedly connected with the second connecting piece 35, and the second connecting piece 35 is driven by the telescopic cylinder 34 to move back and forth. By adopting such a structural arrangement, the discharging suction head assembly 10 has the function of moving left, right, up, down, front and back, and more specifically, since the discharging suction head assembly 10 and the material taking suction head assembly 9 are arranged at the two ends of the second X-axis assembly 7, the discharging suction head assembly 10 has the function of moving left, right, up, down, front and back, and is not interfered with the material taking suction head assembly 9 during operation.

In this embodiment, the large plate 14 is fixed with a hood 13, an L-shaped opening 36 is provided on a side of the hood 13 close to the assembly line, and an NG product conveying assembly 11 is provided on a side of the large plate 14 close to the assembly line. By adopting the structure, the safety guarantee can be improved through the hood 13, and the NG product can be transferred and recovered through the NG product conveying assembly 11, so that the NG product can be prevented from returning to the production line.

In this embodiment, a plurality of movable wheels 1 and a plurality of feet 2 are provided on the bottom of the electrical cabinet 12. By adopting the structure, the whole machine of the testing machine can be conveniently moved and horizontally placed, and the foundation 2 has the function of adjusting the height.

It should be noted that the utility model can realize single-row and single-row discharge, single-row and double-row discharge, double-row and single-row discharge and double-row discharge, the existing semi-automatic equipment and automatic equipment do not realize the free material taking and discharging arrangement, no matter how the front-end equipment or personnel place the products, the equipment can realize automation, and no matter whether the rear-end equipment needs single row or double rows, the equipment can also be provided.

The embodiments of the present utility model have been described above with reference to the accompanying drawings, but the present utility model is not limited to the above-described embodiments, which are merely illustrative, not restrictive, and many forms may be made by those having ordinary skill in the art without departing from the spirit of the present utility model and the scope of the claims, which are all within the scope of the present utility model.

Claims (10)

1. A full-automatic wire-edge double-channel net-sorting tester is characterized in that: including locating regulator cubicle (12) of assembly line one side and being fixed in big board (14) on regulator cubicle (12), the first side of big board (14) is fixed with first X axle subassembly (4), big board (14) are stretched out to the one end of first X axle subassembly (4) to be equipped with gib block (3) that corresponds with the assembly line, the second side of big board (14) is fixed with L type mount pad (18), be equipped with pressfitting cylinder (20) on L type mount pad (18), be equipped with mould (22) on pressfitting cylinder (20), be fixed with die block on big board (14) of last mould (22) below, be equipped with first movable block (5) of slidable ground about being equipped with on first X axle subassembly (4), be equipped with on first movable block (5) can upper and lower movable ground second X axle subassembly (7), the first end of second X axle subassembly (7) is equipped with can upper and lower movable ground suction head subassembly (9), second X axle subassembly (7) is equipped with upper and lower movable ground and is equipped with in the side of left side of side, suction head (12) and is equipped with in the electric wire drawing device.

2. The line-edge dual-channel full-automatic net-splitting tester according to claim 1, wherein: the first end of the first X-axis assembly (4) is fixed on the large plate (14) through the supporting seat (15), the second end of the first X-axis assembly (4) extends to the upper part of the assembly line, and the guide strip (3) is arranged at the second end of the first X-axis assembly (4) and is positioned above the assembly line.

3. The line-edge dual-channel full-automatic net-splitting tester according to claim 1, wherein: a horizontal guide rod (21) in sliding connection is arranged between the upper die (22) and the L-shaped mounting seat (18).

4. The line-edge dual-channel full-automatic net-splitting tester according to claim 1, wherein: the large plate (14) is provided with a bottom die mounting hole (19) for fixing the bottom die, and the bottom die mounting hole (19) is positioned below the upper die (22).

5. The line-edge dual-channel full-automatic net-splitting tester according to claim 1, wherein: the first X-axis assembly (4) comprises a first sliding rail (16) and a first driving motor (17), the first movable block (5) is arranged on the first sliding rail (16) in a sliding mode, and the first driving motor (17) drives the first movable block (5) to slide left and right on the first sliding rail (16).

6. The line-edge dual-channel full-automatic net-splitting tester according to claim 1, wherein: the second X-axis assembly (7) is driven to lift on the first movable block (5) through the first lifting assembly (6), the first lifting assembly (6) comprises a second sliding rail (23), a second movable block (24) and a second driving motor (25), the second movable block (24) is slidably arranged on the second sliding rail (23), the second driving motor (25) drives the second movable block (24) to lift on the second sliding rail (23), and the second X-axis assembly (7) is fixedly connected with the second movable block (24).

7. The line-edge dual-channel full-automatic net-splitting tester according to claim 1, wherein: the first end of the second X-axis assembly (7) is provided with a first lifting cylinder (26) and a first connecting piece (27), the material taking suction head assembly (9) is fixed on the first connecting piece (27), and the first lifting cylinder (26) drives the first connecting piece (27) to drive the material taking suction head assembly (9) to move up and down.

8. The line-edge dual-channel full-automatic net-splitting tester according to claim 1, wherein: a third sliding rail (30) and a fourth sliding rail (28) are arranged on the second X-axis assembly (7), a third movable block (29) is arranged on the third sliding rail (30) in a sliding manner, a fourth movable block (31) is arranged on the fourth sliding rail (28) in a sliding manner, the fourth movable block (31) is fixedly connected with the third movable block (29), the third movable block (29) is driven by a third driving motor to slide left and right on the third sliding rail (30) and drive the fourth movable block (31) to slide left and right on the fourth sliding rail (28), the novel feeding device is characterized in that a fifth movable block (32) capable of sliding up and down is arranged on the fourth movable block (31), the fifth movable block (32) is driven by a fourth driving motor to move up and down, the fifth movable block (32) is connected with a telescopic cylinder (34) through a connecting plate (33), the telescopic cylinder (34) is connected with a second connecting piece (35), the feeding suction head assembly (10) is fixedly connected with the second connecting piece (35), and the second connecting piece (35) is driven by the telescopic cylinder (34) to move back and forth.

9. The line-edge dual-channel full-automatic net-splitting tester according to claim 1, wherein: an organic cover (13) is fixed on the large plate (14), an L-shaped opening (36) is formed in one side, close to the assembly line, of the cover (13), and an NG product conveying assembly (11) is arranged on one side, close to the assembly line, of the large plate (14).

10. The line-edge dual-channel full-automatic net-splitting tester according to claim 1, wherein: the bottom of the electrical cabinet (12) is provided with a plurality of movable wheels (1) and a plurality of feet (2).