CN219442861U

CN219442861U - Circuit board detection table

Info

Publication number: CN219442861U
Application number: CN202320331139.9U
Authority: CN
Inventors: 黄仁浪; 陈斐健; 张龙生; 丘岳龙; 王富恒; 石邵阳
Original assignee: Meizhou Benchuang Electronics Co ltd
Current assignee: Meizhou Benchuang Electronics Co ltd
Priority date: 2023-02-24
Filing date: 2023-02-24
Publication date: 2023-08-01
Anticipated expiration: 2033-02-24

Abstract

The utility model discloses a circuit board detection table; belonging to the technical field of circuit board production; the technical key point of the device comprises a detection platform, wherein one side of the detection platform is an operation station, and three side walls of the detection platform except the operation station are provided with guide recycling grooves with inclined bottoms; a dust baffle is arranged at the upper end of the lateral wall of the outer side of the guide recycling tank, and a collecting box for collecting waste is arranged below the guide recycling tank; a dust hood is arranged on the detection platform, and a dust extraction pipeline connected with external negative pressure is arranged at the upper end of the dust hood; the utility model aims to provide a circuit board detection table with a simple structure and a dust removal function; the method is used for detecting the circuit board.

Description

Circuit board detection table

Technical Field

The present utility model relates to a test bench, and more particularly, to a circuit board test bench.

Background

The circuit board is a flexible printed circuit board which is made of polyimide or polyester film as a base material and has the characteristics of high reliability, light weight, thin thickness and good bending property, and the birth and development of the soft and hard combined board and the PCB, thereby accelerating the generation of the new product of the soft and hard combined board. Therefore, the soft and hard combined board is a circuit board which is formed by combining a flexible circuit board and a hard circuit board together according to related technological requirements through the procedures of pressing and the like and has FPC characteristics and PCB characteristics.

The circuit board detection is an important link in the circuit board production and manufacturing process, and dust on the surface of the circuit board needs to be removed firstly when the circuit board is detected, so that the influence of covered dust on the detection of the circuit board is avoided. The existing detection table lacks a dust removing device, and dust is easy to generate when the dust on the surface of the circuit board is removed, so that the surrounding environment is polluted.

Meanwhile, fragments generated in the detection process and part of cleaned dust can be left on the surface of the detection table, the detection table is cleaned through cleaning equipment after detection of all circuit boards is completed, the fragments, dust and the like are easily attached to the surface of the circuit board in the detection process, the detection efficiency is easily affected when the detection is performed, and dust is easily generated again when the detection table is cleaned.

Disclosure of Invention

The utility model aims to overcome the defects in the prior art and provide a circuit board detection table with a simple structure and a dust removal function.

The technical scheme of the utility model is realized as follows: the circuit board detection table comprises a detection platform, wherein one side of the detection platform is an operation station, and guide recovery grooves with inclined bottoms are arranged on the side walls of the three sides of the detection platform except the operation station; a dust baffle is arranged at the upper end of the lateral wall of the outer side of the guide recycling tank, and a collecting box for collecting waste is arranged below the guide recycling tank; the dust hood is arranged on the detection platform, and a dust extraction pipeline connected with external negative pressure is arranged at the upper end of the dust hood.

In the above-mentioned circuit board detection platform, the material guiding recovery groove comprises a first collection groove arranged on the side wall of the detection platform at two sides of the operation station, and the bottom of the first collection groove is inclined towards one end far away from the operation station; an air nozzle inclined downwards is arranged at the end part of the first collecting tank, which is close to the operation station.

The detection platform is characterized in that a second collecting tank which is communicated with the first collecting tank and is in a funnel shape at the lower end is arranged on the side wall of the detection platform opposite to the operation station, a discharging hole is formed in the lower end of the second collecting tank, and the material collecting box is arranged below the discharging hole.

In the above-mentioned circuit board detection platform, the first collecting tank includes a first tank body, and an open end is formed at an end of the first tank body opposite to the operation station; a first mounting plate connected with the detection platform through bolts is arranged on the side wall of the first groove body; the second collecting tank comprises a second tank body, and a second mounting plate connected with the detection platform through bolts is arranged on the side wall of the second tank body; the first groove body is provided with a splicing part with the same thickness as the side wall of the second groove body at the opening end, and the second groove body is provided with a splicing notch which is matched with the first groove body.

In the above circuit board detection table, a plurality of detection lamps for auxiliary detection are distributed on the inner wall of the dust hood along the circumferential direction.

After the structure is adopted, dust on the surface of the circuit board and impurities such as scraps generated in the overhaul process are directly swept to the periphery by hands of workers or sweeping tools, the raised dust is pumped to the outside by the dust pumping pipeline for collection, and the scraps which cannot be pumped up can collide with the dust baffle and then enter the material guiding recovery tank, so that the pollution to the surrounding environment can be effectively reduced, the operation is convenient and simple, the detection platform table top can be cleaned while the detection is carried out, and the detection efficiency is not influenced.

Drawings

The utility model is described in further detail below in connection with the embodiments in the drawings, but is not to be construed as limiting the utility model in any way.

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is a schematic cross-sectional structure of the present utility model.

FIG. 3 is a schematic diagram of the structure of the guide recovery tank of the present utility model.

Fig. 4 is a schematic view of the structure of the first collecting tank of the present utility model.

Fig. 5 is a schematic view of the structure of the second collecting tank of the present utility model.

In the figure: 1. a detection platform; 2. a guide recovery tank; 3. a dust-blocking plate; 4. a material collecting box; 5. a dust hood; 6. a dust extraction pipeline; 7. a first collection tank; 7a, a first groove body; 7b, a first mounting plate; 7c, splicing parts; 8. an air nozzle; 9. a second collection tank; 9a, a second groove body; 9b, a second mounting plate; 9c, splicing the notch; 10. a discharge hole; 11. the lamp is detected.

Detailed Description

Referring to fig. 1-5, the circuit board detection table of the utility model comprises a detection platform 1, and is characterized in that one side of the detection platform 1 is an operation station, and three side walls of the detection platform 1 except the operation station are provided with a material guiding recovery groove 2 with an inclined bottom; the upper end of the lateral wall of the outer side of the guide recycling tank 2 is provided with a dust baffle 3, and the lower part of the guide recycling tank 2 is provided with a collection box 4 for collecting waste materials; the dust hood 5 is erected on the detection platform 1, and a dust extraction pipeline 6 connected with external negative pressure is arranged at the upper end of the dust hood 5. The dust on the surface of the circuit board and the impurities such as scraps generated in the overhaul process can be swept away by a worker directly by hands or a sweeping tool to the periphery, the raised dust is pumped to the outside by the dust pumping pipeline to be collected, and the scraps which cannot be pumped up can collide with the dust baffle and then enter the guide recycling tank.

In this embodiment, preferably, the material guiding and recycling tank 2 includes a first collecting tank 7 disposed on the side wall of the detecting platform 1 at two sides of the operation station, and the bottom of the first collecting tank 7 is inclined towards one end far away from the operation station; an air nozzle 8 inclined downwards is arranged at the end part of the first collecting tank 7 near the operation station. Through setting up the air nozzle and carrying the impurity of piece, dust that gets into in the first collecting vat below, reduce impurity and remain in the first collecting vat.

The side wall of the detection platform 1 on the side opposite to the operation station is provided with a second collection groove 9 which is communicated with the first collection groove 7 and the lower end of which is in a funnel shape, the lower end of the second collection groove 9 is provided with a discharge hole 10, and the material collecting box 4 is arranged below the discharge hole 10. The impurities entering the first collecting tank towards two sides during cleaning enter the second collecting tank for unified collection and then enter the material collecting tank, and only one material collecting tank is required to be arranged for collection.

Further preferably, the first collecting tank 7 comprises a first tank body 7a, and the end of the first tank body 7a at the end opposite to the operation station is an open end; a first mounting plate 7b connected with the detection platform 1 through bolts is arranged on the side wall of the first groove body 7 a. The second collecting tank 9 comprises a second tank body 9a, and a second mounting plate 9b connected with the detection platform 1 through bolts is arranged on the side wall of the second tank body 9 a. The first groove body 7a is provided with a splicing part 7c with the same thickness as the side wall of the second groove body 9a at the opening end, and the second groove body 9a is provided with a splicing notch 9c which is matched with the first groove body 7 a. After the structure is adopted, the first collecting tank and the second collecting tank are of split type structure, and cleaning is convenient.

In this embodiment, a plurality of detection lamps 11 for auxiliary detection are distributed on the inner wall of the dust hood 5 along the circumferential direction. The dust excluding hood and dust guard set up and block light easily, lead to the difficult detection circuit board of observing of workman, carry out supplementary detection through setting up the measuring lamp on the dust excluding hood inner wall.

During operation, to wait to detect the circuit board and place on testing platform, start outside negative pressure equipment and carry out the convulsions through drawing dust pipeline, open the pilot lamp, the workman carries out operations such as surface dust cleaning, detection to the circuit board in proper order.

The above examples are provided for convenience of description of the present utility model and are not to be construed as limiting the utility model in any way, and any person skilled in the art will make partial changes or modifications to the utility model by using the disclosed technical content without departing from the technical features of the utility model.

Claims

1. The circuit board detection table comprises a detection platform (1) and is characterized in that one side of the detection platform (1) is an operation station, and a material guiding recovery groove (2) with an inclined bottom is arranged on the side wall of the three sides of the detection platform (1) except the operation station; a dust baffle (3) is arranged at the upper end of the lateral wall of the outer side of the guide recycling groove (2), and a collecting box (4) for collecting waste is arranged below the guide recycling groove (2);

the dust hood (5) is erected on the detection platform (1), and a dust extraction pipeline (6) connected with external negative pressure is arranged at the upper end of the dust hood (5).

2. A circuit board detection table according to claim 1, wherein the guide recovery tank (2) comprises a first collection tank (7) arranged on the side wall of the detection platform (1) at two sides of the operation station, and the bottom of the first collection tank (7) is inclined towards one end far away from the operation station; an air nozzle (8) inclined downwards is arranged at the end part of the first collecting groove (7) close to the operation station;

the side wall of the detection platform (1) on one side opposite to the operation station is provided with a second collection groove (9) which is communicated with the first collection groove (7) and the lower end of which is in a funnel shape, the lower end of the second collection groove (9) is provided with a discharge hole (10), and the material collecting box (4) is arranged below the discharge hole (10).

3. A circuit board inspection station according to claim 2, characterized in that the first collecting tank (7) comprises a first tank body (7 a), the end of the first tank body (7 a) at the end opposite to the operating station being an open end; a first mounting plate (7 b) connected with the detection platform (1) through bolts is arranged on the side wall of the first groove body (7 a);

the second collecting tank (9) comprises a second tank body (9 a), and a second mounting plate (9 b) connected with the detection platform (1) through bolts is arranged on the side wall of the second tank body (9 a);

the opening end of the first groove body (7 a) is provided with a splicing part (7 c) with the same thickness as the side wall of the second groove body (9 a), and the second groove body (9 a) is provided with a splicing notch (9 c) which is matched with the first groove body (7 a).

4. The circuit board detection table according to claim 1, wherein a plurality of detection lamps (11) for auxiliary detection are circumferentially distributed on the inner wall of the dust hood (5).