CN213181815U - Full-automatic four-end final inspection equipment - Google Patents

Abstract

The utility model discloses a full-automatic four-end examines equipment eventually aims at providing a reasonable in design, work efficiency height and the high full-automatic four-end examines equipment eventually of qualification rate. The utility model discloses a workbench, be provided with the rolling disc on the workbench, circular array has a plurality of product to place the bank of cells on the rolling disc, and every product is placed the bank of cells and is all provided with four carriers, the periphery of rolling disc has set gradually vibration dish material loading subassembly, first electrical property detector, second electrical property detector, insulation detection ware, turner, laser marking ware and braid packing ware, first electrical property detector detects the head including first electrical property and third electrical property, second electrical property detector detects the head and detects the head including second electrical property and fourth electrical property, insulation detection ware including four with the corresponding insulation detection head of carrier. The utility model discloses be applied to 49S-SMD check out test set' S technical field.

Description

Full-automatic four-end final inspection equipment

Technical Field

The utility model relates to an examine equipment, in particular to full-automatic four-end examines equipment eventually.

Background

The existing 49S-SMD terminal detection and marking respectively adopt four split devices, namely insulation detection, electrical property test, laser marking and braid packaging, wherein the insulation detection is to detect the short circuit of a crystal and poor sealing property, and 1 detection is carried out each time; the electrical property detection is to detect the defective products with standard exceeding crystal specification parameters, and 1 product is detected each time; the laser marking is to mark the crystal by adopting a laser mode, and 1 crystal is marked each time; the braid package is to package products by adopting a carrier tape and a cover tape through a hot pressing mode, and 1 product is loaded each time.

The existing equipment has low production efficiency, is not matched with the capacity of previous engineering, needs to increase extra equipment cost, has low equipment capacity, needs 4 operators and needs to transfer products manually, and the products are easy to damage when being transferred manually, so that the reject ratio of the products is increased.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that overcome prior art not enough, provide a reasonable in design, work efficiency height and the high full-automatic four-end final inspection equipment of qualification rate.

The utility model adopts the technical proposal that: the utility model discloses a workbench, be provided with the rolling disc on the workbench, circular array has a plurality of product to place the bank of cells on the rolling disc, and every product is placed the bank of cells and is all provided with four carriers, the periphery of rolling disc has set gradually vibration dish material loading subassembly, first electrical property detector, second electrical property detector, insulation detection ware, turner, laser marking ware and braid packing ware, first electrical property detector detects the head including first electrical property and third electrical property, second electrical property detector detects the head and detects the head including second electrical property and fourth electrical property, insulation detection ware including four with the corresponding insulation detection head of carrier.

Further, still be provided with MCU control system on the workstation, the rolling disc, vibration dish material loading subassembly, first electrical property detector, second electrical property detector, insulating detector the turner, laser marker and braid wrapper all with MCU control system electric connection.

Further, vibration dish material loading subassembly include the travelling platform and set up in vibration dish on the travelling platform, be equipped with a plurality of quartz crystal in the vibration dish, be provided with two forward conveyer on the vibration dish, every forward conveyer's the outside all is provided with reverse conveyer, forward conveyer with be equipped with the guide sloping platform between the reverse conveyer, forward conveyer's top is provided with the inductor, the below of inductor all sets up first device of blowing.

Further, a first pneumatic lifting frame and a second pneumatic lifting frame are respectively arranged above and below the rotating disc, the first electrical property detector, the second electrical property detector and the insulation detector are respectively arranged on the first pneumatic lifting frame, the second pneumatic lifting frame comprises an air cylinder and a lifting block connected with the air cylinder, a first vacuum generator, a second vacuum generator and a third vacuum generator are sequentially arranged on the lifting block, a first vacuum suction nozzle and a third vacuum suction nozzle are arranged on the first vacuum generator, a second vacuum suction nozzle and a fourth vacuum suction nozzle are arranged on the second vacuum generator, the first vacuum suction nozzle, the third vacuum suction nozzle, the second vacuum suction nozzle and the fourth vacuum suction nozzle are respectively positioned right below the first electrical property detection head, the third electrical property detection head, the second electrical property detection head and the fourth electrical property detection head, and the third vacuum generator is provided with four fifth vacuum suction nozzles which are positioned right below the insulation detection head.

Furthermore, a product transferring mechanical arm is arranged between the tail end of the forward conveying device and the rotating disc, and two feeding suction nozzles are arranged at the lower end of the product transferring mechanical arm.

The utility model has the advantages that: because the utility model comprises a workbench, a rotating disc is arranged on the workbench, a plurality of product placing groove groups are arranged on the circular array of the rotating disc, each product placing groove group is provided with four carriers, the periphery of the rotating disc is sequentially provided with a vibrating disc feeding assembly, a first electrical property detector, a second electrical property detector, an insulation detector, a turner, a laser marking device and a braid packaging device, the first electrical property detector comprises a first electrical property detection head and a third electrical property detection head, the second electrical property detector comprises a second electrical property detection head and a fourth electrical property detection head, the insulation detector comprises four insulation detection heads corresponding to the carriers, so through reasonable structural design, the utility model can simultaneously carry out insulation detection, electrical property test, laser marking and braid packaging, avoid artifical transfer product, also reduced the cost of labor simultaneously, in addition the utility model discloses a first electrical property detector second electrical property detector with the detection efficiency can be improved greatly to the insulation detection ware.

Drawings

Fig. 1 is a side view of the present invention;

FIG. 2 is a side view of a vibratory pan feeding assembly.

Detailed Description

As shown in fig. 1 and 2, in this embodiment, the utility model discloses a workstation 1, be provided with rolling disc 2 on the workstation 1, circular array has a plurality of product to place bank of cells 3 on the rolling disc 2, and every product is placed bank of cells 3 and is all provided with four carriers 4, the periphery of rolling disc 2 has set gradually vibration dish material loading subassembly 5, first electrical property detector 6, second electrical property detector 7, insulation detector 8, turner 9, laser marker 10 and braid packing ware 11, first electrical property detector 6 is including first electrical property detection head 61 and third electrical property detection head 62, second electrical property detector 7 is including second electrical property detection head 71 and fourth electrical property detection head 72, insulation detector 8 including four with the corresponding insulating detection head 81 of carrier 4.

In this embodiment, an MCU control system is further disposed on the worktable 1, and the rotary disc 2, the vibration disc feeding assembly 5, the first electrical property detector 6, the second electrical property detector 7, the insulation detector 8, the flipper 9, the laser marker 10, and the braid wrapper 11 are all electrically connected to the MCU control system.

In this embodiment, the vibration tray feeding assembly 5 includes a moving table 51 and a vibration tray 52 disposed on the moving table 51, a plurality of quartz crystals are mounted in the vibration tray 52, two forward conveying devices 53 are disposed on the vibration tray 52, a reverse conveying device 54 is disposed between the two forward conveying devices 53, a material guiding ramp 55 is disposed between the forward conveying devices 53 and the reverse conveying device 54, an inductor 56 is disposed above the forward conveying device 53, a first air blowing device 57 is disposed below the inductor 56, a product transferring manipulator 13 is disposed between a tail end of the forward conveying device 53 and the rotating tray 2, two feeding nozzles 14 are disposed at a lower end of the product transferring manipulator 13, and 49S-SMD quartz crystals are automatically operated on the two forward conveying devices 53 after being delivered from the vibration tray 52, when the sensor 56 detects the 49S-SMD quartz crystal on the reverse side, the 49S-SMD quartz crystal on the reverse side is blown out of the forward conveying device by the first blowing device 57, falls on the reverse conveying device 54 through the material guide inclined table 55, and is conveyed back to the vibration disc 52 through the reverse conveying device 54, so that the crystal is conveyed circularly, manual conveying is saved, production efficiency is improved, and meanwhile, the material guide inclined table 55 can effectively solve the problem that the 49S-SMD quartz crystal is blown out and dropped to be impacted, and potential quality hazards of the 49S-SMD quartz crystal are prevented.

In this embodiment, a first pneumatic lifting frame 12 and a second pneumatic lifting frame are respectively arranged above and below the rotating disc 2, the first electrical property detector 6, the second electrical property detector 7 and the insulation detector 8 are respectively arranged on the first pneumatic lifting frame 12, the second pneumatic lifting frame comprises an air cylinder and a lifting block connected with the air cylinder, a first vacuum generator, a second vacuum generator and a third vacuum generator are sequentially arranged on the lifting block, a first vacuum suction nozzle and a third vacuum suction nozzle are arranged on the first vacuum generator, a second vacuum suction nozzle and a fourth vacuum suction nozzle are arranged on the second vacuum generator, and the first vacuum suction nozzle, the third vacuum suction nozzle, the second vacuum suction nozzle and the fourth vacuum suction nozzle are respectively located on the first electrical property detection head 61 and the third electrical property detection head 62, Directly below the second electrical property detection head 71 and the fourth electrical property detection head 72, the design is to prevent the 49S-SMD quartz crystal from being brought up by the first electrical property detection head 61, the third electrical property detection head 62, the second electrical property detection head 71 and the fourth electrical property detection head 72 after detection, which affects subsequent processing, the third vacuum generator is provided with four fifth vacuum suction nozzles directly below the insulation detection head 81, and the fifth vacuum suction nozzles are also to prevent the 49S-SMD quartz crystal from being brought up by the insulation detection head 81 after insulation detection, which affects subsequent processing.

In this embodiment, the utility model discloses a working process does: the vibration plate 52 conveys 49S-SMD quartz crystals by two forward conveying devices 53, then absorbs 49S-SMD quartz crystals by two feeding suction nozzles 14, transfers the crystals into the first and third carriers 4 of the product placing slot group 3 by the product transfer manipulator 13, then the moving table 51 drives the vibration plate feeding assembly 5 to move integrally, so that the product transfer manipulator 13 can transfer 49S-SMD quartz crystals into the second and fourth carriers 4 of the product placing slot group 3, after the transfer is completed, the rotating disc 2 rotates for one station, then the pneumatic lifting frame 12 descends and the pneumatic lifting frame ascends, thereby the first electrical property detector 6, the second electrical property detector 7 and the insulation detector 8 detect 49S-SMD quartz crystals in the carriers, the qualified 49S-SMD quartz crystals are directly turned over by the turner 9 to enter the laser marker 10 to carry out laser marking on the four 49S-SMD quartz crystals detected by the insulation detector 8, and the four 49S-SMD quartz crystals after marking are directly transferred to the braid wrapper 11 by a manipulator to be braided.

The utility model discloses be applied to 49S-SMD check out test set' S technical field.

While the embodiments of the present invention have been described in terms of practical embodiments, they are not intended to limit the scope of the invention, and modifications of the embodiments and combinations with other embodiments will be apparent to those skilled in the art in light of the present description.

Claims (5)

1. The utility model provides a full-automatic four-end examines equipment eventually which characterized in that: it comprises a workbench (1), a rotating disc (2) is arranged on the workbench (1), a plurality of product placing groove groups (3) are circularly arrayed on the rotating disc (2), each product placing groove group (3) is provided with four carriers (4), the periphery of the rotating disc (2) is sequentially provided with a vibrating disc feeding assembly (5), a first electrical property detector (6), a second electrical property detector (7), an insulation detector (8), a turner (9), a laser marking device (10) and a braid packaging device (11), the first electrical property detector (6) comprises a first electrical property detection head (61) and a third electrical property detection head (62), the second electrical property detector (7) comprises a second electrical property detection head (71) and a fourth electrical property detection head (72), the insulation detector (8) comprises four insulation detection heads (81) corresponding to the carrier (4).

2. The full-automatic four-head final inspection equipment according to claim 1, wherein: still be provided with MCU control system on workstation (1), rolling disc (2) vibration dish material loading subassembly (5) first electrical property detector (6) second electrical property detector (7) insulating detector (8) turner (9) laser marker (10) and braid wrapper (11) all with MCU control system electric connection.

3. The full-automatic four-head final inspection equipment according to claim 1, wherein: vibration dish material loading subassembly (5) including moving platform (51) with set up in vibration dish (52) on moving platform (51), a plurality of quartz crystal is equipped with in vibration dish (52), be provided with two forward conveyer (53) on vibration dish (52), two be provided with reverse conveyer (54) between forward conveyer (53), forward conveyer (53) with be equipped with guide sloping platform (55) between reverse conveyer (54), the top of forward conveyer (53) is provided with inductor (56), the below of inductor (56) all sets up first device (57) of blowing.

4. The full-automatic four-head final inspection equipment according to claim 1, wherein: the pneumatic lifting frame comprises a first pneumatic lifting frame (12) and a second pneumatic lifting frame (12) which are arranged above and below the rotating disc (2) respectively, a first electrical property detector (6), a second electrical property detector (7) and an insulation detector (8) are arranged on the first pneumatic lifting frame (12) respectively, the second pneumatic lifting frame comprises an air cylinder and a lifting block connected with the air cylinder, a first vacuum generator, a second vacuum generator and a third vacuum generator are sequentially arranged on the lifting block, a first vacuum suction nozzle and a third vacuum suction nozzle are arranged on the first vacuum generator, a second vacuum suction nozzle and a fourth vacuum suction nozzle are arranged on the second vacuum generator, and the first vacuum suction nozzle, the third vacuum suction nozzle, the second vacuum suction nozzle and the fourth vacuum suction nozzle are arranged on the first electrical property detection head (61), the third electrical property detection head (62) and the second vacuum suction nozzle, And four fifth vacuum suction nozzles are arranged on the third vacuum generator and are positioned under the insulation detection head (81).

5. A full automatic four-head final inspection apparatus according to claim 3, wherein: a product transferring mechanical arm (13) is arranged between the tail end of the forward conveying device (53) and the rotating disc (2), and two feeding suction nozzles (14) are arranged at the lower end of the product transferring mechanical arm (13).

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