CN218424206U - High-speed communication connector assembling and detecting machine - Google Patents

Abstract

The utility model discloses a high-speed communication connector assembly detector, which comprises a frame, a controller, a first feeding device, a second feeding device, a section inserting device, a turning device, a high-voltage measuring device and a CCD (charge coupled device) detecting device; the turnover device is positioned between the output end of the first conveying track and the input end of the second conveying track; the high-voltage electric measuring device is arranged on the rack and is positioned beside the second conveying track; the CCD detection device is arranged on the frame and is positioned beside the second conveying track. Through being provided with high-voltage electricity measuring device and CCD detection device for when the communication connector equipment was accomplished, can directly carry out high-voltage electricity and survey and CCD and detect, full automatization's detection mode compares in current semi-automatization detection mode, and detection efficiency is higher, can realize accomplishing the detection to all equipment products, and can accomplish inside high-voltage electricity to the product simultaneously and detect with outside CCD, it is also more comprehensive to product detection, avoid the defective work to flow.

Description

High-speed communication connector assembling and detecting machine

Technical Field

The utility model belongs to the technical field of the connector processing technique and specifically relates to indicate a high-speed communication connector equipment detects machine.

Background

A connector is a component that is often contacted by those skilled in our electrical engineering. Its effect is very simple: a bridge for communication is erected between the blocked part or isolated and non-communicated circuits in the circuit, so that current flows, and the circuit achieves the preset function. Connectors are indispensable parts in electronic equipment, and one or more connectors are always discovered by observing along a current flowing path. The connector forms and structures are widely varied, and there are various types of connectors depending on the application, frequency, power, application environment, and the like. The communication connector belongs to a network transmission medium interconnection device, and the performance of the adopted connector can influence the whole communication system. The communication connector products are available in many models and standards, and mainly include optical fiber connectors and electrical connection devices.

Because need be in the same place a plurality of parts equipment among the communication connector assembling process, current communication connector assembling machine equipment is accomplished the back, can only detect through the communication connection who accomplishes the equipment adopts this kind of semi-automatization mode of manual fit detection tool, and not only detection efficiency is low, can't detect all products moreover, detects inadequately comprehensively, flows the defective products easily. Therefore, there is a need to develop a new technical solution to solve the above problems.

SUMMERY OF THE UTILITY MODEL

In view of the above, the present invention provides a high-speed communication connector assembling and detecting machine, which can effectively solve the problems of low automation degree, incomplete detection and easy outflow of defective products in the existing communication connector detecting method.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a high-speed communication connector assembly detection machine comprises a rack, a controller, a first feeding device, a second feeding device, a section inserting device, a turnover device, a high-voltage measuring device and a CCD detection device, wherein the first feeding device is connected with the high-voltage measuring device through the turnover device; the rack is provided with a workbench, and a first conveying track and a second conveying track are arranged on the workbench; the controller is arranged on the workbench; the first feeding device is arranged beside the rack and connected with the controller, and the output end of the first feeding device is communicated with the input end of the first conveying track; the second feeding device is arranged on the rack and connected with the controller, and the output end of the second feeding device is positioned beside the first conveying track; the inserting section device is arranged on the rack and connected with the controller, and the output end of the inserting section device is movable between the output end of the second feeding device and the first conveying track; the turnover device is arranged on the rack and connected with the controller, and the turnover device is positioned between the output end of the first conveying track and the input end of the second conveying track; the high-voltage electric measuring device is arranged on the rack and is positioned beside the second conveying track, and the high-voltage electric measuring device is connected with the controller; the CCD detection device is arranged on the rack and located beside the second conveying track, and the CCD detection device is connected with the controller.

As a preferred scheme, the first feeding device comprises a bracket, a vibrating disc and a material distributing mechanism, wherein the bracket is arranged beside the frame; the vibration disc is arranged on the support and connected with the controller, the output end of the vibration disc is located beside the input end side of the first conveying track, the material distribution mechanism is arranged on the rack and located beside the output end side of the vibration disc, and the material distribution mechanism is connected with the controller.

As a preferred scheme, the material distributing mechanism comprises a material distributing frame, a material distributing head and a material distributing driving mechanism; the material distributing frame is arranged on the frame and is positioned beside the output end side of the vibrating disk; the material distributing head is arranged on the material distributing frame and moves back and forth between the output end of the vibrating disc and the input end of the first conveying track, a first accommodating groove matched with a product is formed in the material distributing head, the material distributing driving mechanism is arranged on the rack and drives the material distributing head to move back and forth, and the material distributing driving mechanism is connected with the controller.

As a preferred scheme, the second feeding device comprises a feeding frame, a feeding disc, a third conveying track, a feeding mechanism and a cutting mechanism; the feeding frame is arranged on the frame, and the feeding disc can be arranged on the feeding frame in a reciprocating rotation manner; the third conveying track is arranged on the rack and is parallel to the first conveying track, and the input end of the third conveying track is communicated with the output end of the upper material tray; the feeding mechanism is arranged on the rack and positioned beside the third conveying track, and comprises a feeding frame, a feeding head and a feeding driving mechanism; the feeding frame is arranged on the rack and positioned beside the third conveying track; the feeding head can be transversely and movably arranged on the feeding frame back and forth and extends downwards into the third conveying track; the feeding driving mechanism is arranged on the feeding frame and drives the feeding head to transversely move back and forth, and the feeding driving mechanism is connected with the controller; the cutting mechanism is arranged on the rack and is positioned beside the third conveying track, and the cutting mechanism comprises a cutting frame, a cutting head and a cutting driving mechanism; the stock cutting frame is arranged beside the third conveying track; the material cutting head can be movably arranged on the material cutting frame up and down and back and forth and is positioned right above the third conveying track; the material cutting driving mechanism is arranged on the rack and drives the material cutting head to move back and forth up and down, and the material cutting driving mechanism is connected with the controller.

As a preferable scheme, the section inserting device comprises a section inserting frame, a movable plate, a first driving mechanism, a chuck and a second driving mechanism; the inserting section frame is arranged on the rack and is positioned beside the output end side of the second feeding device; the movable plate can be longitudinally and movably arranged on the inserting section frame back and forth; the first driving mechanism is arranged on the inserting section frame and drives the movable plate to longitudinally move back and forth, and the first driving mechanism is connected with the controller; the clamping head can be arranged on the movable plate in a clamping manner and can move back and forth along with the movable plate longitudinally, and the clamping head moves back and forth between the output end of the second feeding device and the side of the first conveying track; the second driving mechanism is arranged on the movable plate and drives the chuck to clamp, and the second driving mechanism is connected with the controller.

As a preferable scheme, the second feeding devices are two that are arranged in front and at the back along the extending direction of the first conveying track, and each second feeding device is correspondingly provided with an inserting device.

As a preferred scheme, the turnover device comprises a first material pushing mechanism, a second material pushing mechanism, a turnover head and a turnover driving mechanism; the first material pushing mechanism is arranged on the rack and positioned beside the output end side of the first conveying track, the first material pushing mechanism comprises a first material pushing frame, a first material pushing head and a first material pushing driving mechanism, and the first material pushing frame is arranged on the rack and positioned beside the output end side of the first conveying track; the first material pushing head can be longitudinally and movably arranged on the first material pushing frame back and forth and is positioned beside the output end side of the first conveying track; the first material pushing driving mechanism is arranged on the first material pushing frame and drives the first material pushing head to move back and forth longitudinally, and the first material pushing driving mechanism is connected with the controller; the second material pushing mechanism comprises a second material pushing frame, a second material pushing head and a second material pushing driving mechanism; the second material pushing frame is arranged on the rack and is positioned beside the input end side of the second conveying track; the second material pushing head is longitudinally and movably arranged on the second material pushing frame back and forth and is positioned beside the input end side of the second conveying track; the second material pushing driving mechanism is arranged on the second material pushing frame and drives the second material pushing head to move back and forth longitudinally, and the second material pushing driving mechanism is connected with the controller; the turnover head is arranged on the rack in a way of being capable of turning back and forth up and down and is turned between the first material pushing mechanism and the second material pushing mechanism, and a second accommodating groove matched with a product is formed in the turnover head; the overturning driving mechanism is arranged on the rack and drives the overturning head to overturn up and down, and the overturning driving mechanism is connected with the controller.

As a preferred scheme, the high-voltage electric measuring device comprises an electric measuring inserting piece module and an electric measuring module; the electric testing insert die group is arranged on the rack and positioned beside the second conveying track, and comprises a first electric testing frame, an insert head and an insert driving mechanism; the first electric measuring frame is arranged on the rack and is positioned beside the second conveying track; the inserting sheet head can be longitudinally movably arranged on the first electric testing frame back and forth and inwards extend into the second conveying track, the inserting sheet driving mechanism is arranged on the first electric testing frame and drives the inserting sheet head to longitudinally move back and forth, and the inserting sheet driving mechanism is connected with the controller; the electrical measurement module comprises a second electrical measurement frame, an electrical measurement head and an electrical measurement driving mechanism; the second electric measuring frame is arranged on the rack and is positioned beside the second conveying track, wherein the second electric measuring frame corresponds to the longitudinal position of the first electric measuring frame; the electric measuring head can be movably arranged on the second electric measuring frame up and down and back and forth and extend into the second conveying track, the electric measuring driving mechanism is arranged on the second electric measuring frame and drives the electric measuring head to move up and down and back and forth, and the electric measuring driving mechanism is connected with the controller.

As a preferred scheme, the high-voltage electric measuring device further comprises an electric measuring host, the electric measuring head and the electric measuring inserting piece are electrically connected with the electric measuring host, and the electric measuring host is connected with the controller.

As a preferred scheme, the device also comprises a material removing device, wherein the material removing device comprises a material removing frame, a material removing head, a material removing driving mechanism and a waste material box; the material removing frame is arranged on the rack and is positioned beside the second conveying track; the material removing head can be longitudinally and movably arranged on the material removing frame back and forth and extends inwards into the second conveying track; the material removing driving mechanism is arranged on the material removing frame and drives the material removing head to move back and forth longitudinally, and the material removing driving mechanism is connected with the controller; the waste box is arranged on the frame and is positioned right below the material removing head.

Compared with the prior art, the utility model obvious advantage and beneficial effect have, particularly, can know by above-mentioned technical scheme:

through being provided with high-voltage electricity measuring device and CCD detection device for when the communication connector equipment was accomplished, can directly carry out high-voltage electricity and survey and CCD and detect, full automatization's detection mode compares in current semi-automatization detection mode, and detection efficiency is higher, can realize accomplishing the detection to all equipment products, and can accomplish inside high-voltage electricity to the product simultaneously and detect with outside CCD, it is also more comprehensive to product detection, avoid the defective work to flow.

To illustrate the structural features and functions of the present invention more clearly, the present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

Drawings

FIG. 1 is a schematic perspective view of a preferred embodiment of the present invention;

FIG. 2 is a partially assembled schematic view of a preferred embodiment of the present invention;

FIG. 3 is a schematic perspective view of a material distributing mechanism according to a preferred embodiment of the present invention;

FIG. 4 is a perspective view of the insertion device according to the preferred embodiment of the present invention;

FIG. 5 is another partial assembly view of the preferred embodiment of the present invention;

FIG. 6 is a partial assembly view of another embodiment of the present invention.

The attached drawings indicate the following:

10. frame 11, workstation

12. First conveying rail 13 and second conveying rail

20. Controller 30 and first feeding device

301. First accommodation groove 31 and bracket

32. Vibration disc 33 and material distribution mechanism

331. Material distributing frame 332 and material distributing head

333. Divide material actuating mechanism 40, second loading attachment

41. Loading frame 42 and loading tray

43. Third conveying track 44 and feeding mechanism

441. Feeding rack 442 and feeding head

443. Feeding driving mechanism 45 and cutting mechanism

451. Material cutting frame 452 and material cutting head

453. Blank actuating mechanism 50, insert section device

51. Inserting section frame 52 and movable plate

53. First drive mechanism 54, chuck

55. Second drive mechanism 60, turning device

61. First pushing mechanism 611 and first pushing frame

612. First pushing head 613 and first pushing driving mechanism

62. Second material pushing mechanism

621. The second material pushing frame 622 and the second material pushing head

623. Second pushing driving mechanism 63 and turning head

64. Overturning driving mechanism 601 and second accommodating groove

70. High-voltage electric measuring device 71 and electric measuring insert module

711. First electric testing frame 712, insert head

713. Insert driving mechanism 72 and electrical measurement module

721. Second electric measuring frame 722 and electric measuring head

723. Electric measurement driving mechanism 80 and CCD detection device

90. Remove material device 91, remove work or material rest

92. Remove stub bar 93, remove material actuating mechanism

94. A waste material box.

Detailed Description

Referring to fig. 1 to 6, a specific structure of a preferred embodiment of the present invention is shown, which includes a frame 10, a controller 20, a first feeding device 30, a second feeding device 40, a segment inserting device 50, a turning device 60, a high voltage measuring device 70, and a CCD detecting device 80.

The frame 10 has a table 11, and the table 11 is provided with a first conveying rail 12 and a second conveying rail 13.

The controller 20 is provided on the table 11.

The first feeding device 30 is arranged beside the rack 10 and connected with the controller 20, and the output end of the first feeding device 30 is communicated with the input end of the first conveying rail 12; in this embodiment, the first feeding device 30 includes a bracket 31, a vibrating tray 32, and a material separating mechanism 33, where the bracket 31 is disposed beside the rack 10; the vibrating disk 32 is arranged on the bracket 31 and connected with the controller 20, the output end of the vibrating disk 32 is positioned beside the input end side of the first conveying track 12, the material distributing mechanism 33 is arranged on the frame 10 and beside the output end side of the vibrating disk 32, and the material distributing mechanism 33 is connected with the controller 20; the material distribution mechanism 33 comprises a material distribution frame 331, a material distribution head 332 and a material distribution driving mechanism 333; the material distributing frame 331 is arranged on the frame 10 and is positioned beside the output end side of the vibrating disk 32; the distributing head 332 is disposed on the distributing frame 331 and moves back and forth between the output end of the vibrating tray 32 and the input end of the first conveying rail 12, the distributing head 332 is provided with a first accommodating groove 301 matched with the product, the distributing driving mechanism 333 is disposed on the frame 10 and drives the distributing head 332 to move back and forth, and the distributing driving mechanism 333 is connected with the controller 20.

The second feeding device 40 is arranged on the frame 10 and connected with the controller 20, and the output end of the second feeding device 40 is positioned beside the first conveying track 12; in this embodiment, the second feeding device 40 includes a feeding frame 41, a feeding tray 42, a third conveying track 43, a feeding mechanism 44, and a cutting mechanism 45; the feeding frame 41 is arranged on the frame 10, and the feeding tray 42 is arranged on the feeding frame 41 in a reciprocating rotation manner; the third conveying track 43 is arranged on the frame 41 and is parallel to the first conveying track 12, and the input end of the third conveying track 43 is communicated with the output end of the feeding tray 42; the feeding mechanism 44 is arranged on the frame 10 and beside the third conveying track 43, and the feeding mechanism 44 includes a feeding frame 441, a feeding head 442 and a feeding driving mechanism 443; the feeding frame 441 is arranged on the frame 10 and beside the third conveying track 43; the feeding head 442 is movably arranged on the feeding frame 441 transversely back and forth and extends into the third conveying track 43; the feeding driving mechanism 443 is arranged on the feeding frame 441 and drives the feeding head 442 to transversely move back and forth, and the feeding driving mechanism 443 is connected with the controller 20; the material cutting mechanism 45 is arranged on the frame 10 and positioned beside the third conveying track 43, and the material cutting mechanism 45 comprises a material cutting frame 451, a material cutting head 452 and a material cutting driving mechanism 453; the blanking rack 451 is disposed beside the third conveying rail 43; the material cutting head 452 is movably arranged on the material cutting frame 451 up and down and back and forth and is positioned right above the third conveying track 43; the material cutting driving mechanism 453 is arranged on the frame 10 and drives the material cutting head 452 to move up and down, and the material cutting driving mechanism 453 is connected with the controller 20; the second feeding devices 40 are two arranged in tandem along the extending direction of the first conveying rail 12.

The section inserting device 50 is arranged on the frame 10 and connected with the controller 20, and the output end of the section inserting device 50 is movable between the output end of the second feeding device 40 and the first conveying track 12; in the present embodiment, the segment inserting device 50 includes a segment inserting frame 51, a movable plate 52, a first driving mechanism 53, a clamping head 54, and a second driving mechanism 55; the segment inserting frame 51 is arranged on the frame 10 and is positioned beside the output end side of the second feeding device 40; the movable plate 52 is longitudinally and movably arranged on the inserting section frame 51 back and forth; the first driving mechanism 53 is disposed on the inserting frame 51 and drives the movable plate 52 to move back and forth longitudinally, and the first driving mechanism 53 is connected to the controller 20; the clamping head 54 is clampingly arranged on the movable plate 52 and moves back and forth along with the movable plate 52 longitudinally, and the clamping head 54 moves back and forth between the output end of the second feeding device 40 and the side of the first conveying track 12; the second driving mechanism 55 is disposed on the movable plate 52 and drives the chuck 54 to clamp, and the second driving mechanism 55 is connected to the controller 20; each second feeding device 40 is correspondingly provided with one segment inserting device 50, and the number of the second feeding devices 40 and the number of the segment inserting devices 50 can be other according to the actual processing requirement, which is not limited.

The turnover device 60 is arranged on the frame 10 and connected with the controller 20, and the turnover device 60 is positioned between the output end of the first conveying rail 12 and the input end of the second conveying rail 13; in this embodiment, the turning device 60 includes a first pushing mechanism 61, a second pushing mechanism 62, a turning head 63, and a turning driving mechanism 64; the first pushing mechanism 61 is arranged on the rack 10 and located near the output end side of the first conveying rail 12, the first pushing mechanism 61 includes a first pushing frame 611, a first pushing head 612 and a first pushing driving mechanism 613, the first pushing frame 611 is arranged on the rack 10 and located near the output end side of the first conveying rail 12; the first pushing head 612 is longitudinally and movably arranged on the first pushing frame 611 back and forth and is located beside the output end side of the first conveying rail 12; the first pushing driving mechanism 613 is disposed on the first pushing frame 611 and drives the first pushing head 612 to move back and forth longitudinally, and the first pushing driving mechanism 613 is connected to the controller 20; the second pushing mechanism 62 includes a second pushing frame 621, a second pushing head 622, and a second pushing driving mechanism 623; the second material pushing frame 621 is arranged on the frame 10 and is located beside the input end side of the second conveying track 13; the second material pushing head 622 is longitudinally and movably arranged on the second material pushing frame 621 back and forth and is positioned beside the input end side of the second conveying track 13; the second material pushing driving mechanism 623 is arranged on the second material pushing frame 621 and drives the second material pushing head 622 to move back and forth longitudinally, and the second material pushing driving mechanism 623 is connected with the controller 20; the turning head 63 is arranged on the rack 10 in a manner of turning up and down back and forth and is turned between the first material pushing mechanism 61 and the second material pushing mechanism 62, and a second accommodating groove 601 matched with a product is formed in the turning head 63; the turnover driving mechanism 64 is arranged on the frame 10 and drives the turnover head 63 to turn over up and down, and the turnover driving mechanism 64 is connected with the controller 20.

The high-voltage electric measuring device 70 is arranged on the frame 10 and is positioned beside the second conveying track 13, and the high-voltage electric measuring device 70 is connected with the controller 20; in this embodiment, the high voltage measurement apparatus 70 includes an electrical measurement insert module 71 and an electrical measurement module 72; the electrical measurement insert die set 71 is arranged on the frame 10 and located beside the second conveying track 13, and the electrical measurement insert die set 71 comprises a first electrical measurement frame 711, an insert head 712 and an insert driving mechanism 713; the first electrical testing frame 711 is arranged on the frame 10 and is positioned beside the second conveying track 13; the insert head 712 can be longitudinally and movably arranged on the first electrical testing frame 711 back and forth and extends inwards into the second conveying track 13, the insert driving mechanism 713 is arranged on the first electrical testing frame 711 and drives the insert head 712 to longitudinally move back and forth, and the insert driving mechanism 713 is connected with the controller 20; the electrical measurement module 72 includes a second electrical measurement frame 721, an electrical measurement head 722 and an electrical measurement driving mechanism 723; the second electrical measuring rack 721 is arranged on the frame 10 and beside the second conveying track 13, wherein the second electrical measuring rack 721 corresponds to the first electrical measuring rack 711 in longitudinal position; the electrical probe 722 is movably arranged on the second electrical measuring frame 721 up and down and back and forth and extends into the second conveying track 13, the electrical measurement driving mechanism 723 is arranged on the second electrical measuring frame 721 and drives the electrical probe 722 to move up and down and back and forth, and the electrical measurement driving mechanism 723 is connected with the controller 20; the high voltage electrical measuring device 70 further comprises an electrical measuring host 73, the electrical measuring head 722 and the electrical measuring insert 712 are electrically connected to the electrical measuring host 73, and the electrical measuring host 73 is connected to the controller 20.

The CCD detection device 80 is disposed on the frame 10 and beside the second conveying rail 13, and the CCD detection device 80 is connected to the controller 20.

Further, the device comprises a material removing device 90, wherein the material removing device 90 comprises a material removing frame 91, a material removing head 92, a material removing driving mechanism 93 and a waste material box 94; the blanking frame 91 is arranged on the frame 10 and is positioned beside the second conveying track 13; the material removing head 92 is longitudinally and movably arranged on the material removing frame 91 back and forth and extends inwards into the second conveying track 13; the material removing driving mechanism 93 is arranged on the material removing frame 91 and drives the material removing head 92 to move back and forth longitudinally, and the material removing driving mechanism 93 is connected with the controller 20; the waste bin 94 is positioned on the frame 10 directly below the drop head 92.

Detailed description the working principle of the present embodiment is as follows:

during processing, when a plastic part is fed through the vibrating disc 32 of the first feeding device 30, when the plastic part is conveyed to the output end of the vibrating disc 32, the plastic part is pushed into the first conveying rail 12 by the distributing mechanism 33 and conveyed backwards, when the plastic part is conveyed to the second feeding device 40, the MD part in the material strip is cut by the cutting head 452 and conveyed backwards to the inserting device 50, the MD part is inserted into the plastic part in the first conveying rail 12 by the inserting device 50, then another MD part is inserted into the plastic part by another second feeding device 40 and another inserting device 50, then the MD part is conveyed backwards by the first conveying rail 12, when the plastic part is conveyed to the overturning device 60, the electrical part conveying the product is completed by the first conveying rail 12 to the electrical measuring rail 12, then the electrical measuring rail is matched with another inserting device 50 to insert the MD part into the plastic part, then the product is conveyed backwards by the first conveying rail 12 to the second conveying rail 70, the product is conveyed to the side conveying module 13 by the overturning device, the CCD conveying head is matched with the CCD conveying head, the product is conveyed to the side conveying module 13, and the product is conveyed to the side of the overturning module 13, and the product is conveyed to the side of the CCD conveying module 13, and the product is detected, and the product is conveyed by the CCD conveying module 13, and the product is detected by the CCD conveying module 13, and the product is completed by the product conveying head 70, and the product is completed by the product conveying module 13, and the product is completed.

The utility model discloses a design focus lies in: through being provided with high-tension electricity measuring device and CCD detection device, when making the communication connector equipment accomplish, can directly carry out high-tension electricity and survey and CCD and detect, full automatization detection mode compares in current semi-automatization detection mode, detection efficiency is higher, can realize accomplishing the detection to all equipment products, and can accomplish inside high-tension electricity to the product simultaneously and outside CCD detects, it is also more comprehensive to detect the product, avoid the defective work to flow.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any slight modification, equivalent change and modification made to the above embodiments according to the technical spirit of the present invention are all within the scope of the technical solution of the present invention.

Claims (10)

1. The utility model provides a high-speed communication connector equipment detects machine which characterized in that: the device comprises a rack, a controller, a first feeding device, a second feeding device, a section inserting device, a turning device, a high-voltage electric measuring device and a CCD (charge coupled device) detecting device; the rack is provided with a workbench, and a first conveying track and a second conveying track are arranged on the workbench; the controller is arranged on the workbench; the first feeding device is arranged beside the rack and connected with the controller, and the output end of the first feeding device is communicated with the input end of the first conveying track; the second feeding device is arranged on the rack and connected with the controller, and the output end of the second feeding device is positioned beside the first conveying track; the inserting section device is arranged on the rack and connected with the controller, and the output end of the inserting section device is movable between the output end of the second feeding device and the first conveying track; the turnover device is arranged on the rack and connected with the controller, and the turnover device is positioned between the output end of the first conveying track and the input end of the second conveying track; the high-voltage electric measuring device is arranged on the rack and is positioned beside the second conveying track, and the high-voltage electric measuring device is connected with the controller; the CCD detection device is arranged on the rack and positioned beside the second conveying track, and the CCD detection device is connected with the controller.

2. The high-speed communication connector assembly inspection machine of claim 1, wherein: the first feeding device comprises a bracket, a vibrating disc and a distributing mechanism, and the bracket is arranged beside the side of the frame; the vibration disc is arranged on the support and connected with the controller, the output end of the vibration disc is located beside the input end side of the first conveying track, the material distribution mechanism is arranged on the rack and located beside the output end side of the vibration disc, and the material distribution mechanism is connected with the controller.

3. The high-speed communication connector assembly inspection machine of claim 2, wherein: the material distribution mechanism comprises a material distribution frame, a material distribution head and a material distribution driving mechanism; the material distributing frame is arranged on the rack and positioned beside the output end side of the vibrating disk; the material distributing head is arranged on the material distributing frame and moves back and forth between the output end of the vibrating disc and the input end of the first conveying track, a first accommodating groove matched with a product is formed in the material distributing head, the material distributing driving mechanism is arranged on the rack and drives the material distributing head to move back and forth, and the material distributing driving mechanism is connected with the controller.

4. The high-speed communication connector assembly inspection machine of claim 1, wherein: the second feeding device comprises a feeding frame, a feeding disc, a third conveying rail, a feeding mechanism and a cutting mechanism; the feeding frame is arranged on the frame, and the feeding disc can be arranged on the feeding frame in a reciprocating rotation manner; the third conveying track is arranged on the rack and is parallel to the first conveying track, and the input end of the third conveying track is communicated with the output end of the upper material tray; the feeding mechanism is arranged on the rack and positioned beside the third conveying track, and comprises a feeding frame, a feeding head and a feeding driving mechanism; the feeding frame is arranged on the rack and is positioned beside the third conveying track; the feeding head can be transversely and movably arranged on the feeding frame back and forth and extends downwards into the third conveying track; the feeding driving mechanism is arranged on the feeding frame and drives the feeding head to transversely move back and forth, and the feeding driving mechanism is connected with the controller; the cutting mechanism is arranged on the rack and is positioned beside the third conveying track, and the cutting mechanism comprises a cutting frame, a cutting head and a cutting driving mechanism; the stock cutting frame is arranged beside the third conveying track; the material cutting head can be movably arranged on the material cutting frame up and down and back and forth and is positioned right above the third conveying track; the material cutting driving mechanism is arranged on the rack and drives the material cutting head to move back and forth up and down, and the material cutting driving mechanism is connected with the controller.

5. The high-speed communication connector assembly inspection machine of claim 1, wherein: the section inserting device comprises a section inserting frame, a movable plate, a first driving mechanism, a chuck and a second driving mechanism; the inserting section frame is arranged on the rack and is positioned beside the output end side of the second feeding device; the movable plate can be longitudinally and movably arranged on the inserting section frame back and forth; the first driving mechanism is arranged on the inserting section frame and drives the movable plate to longitudinally move back and forth, and the first driving mechanism is connected with the controller; the chuck is arranged on the movable plate in a clamping manner and can move back and forth along with the movable plate longitudinally, and the chuck moves back and forth between the output end of the second feeding device and the side of the first conveying track; the second driving mechanism is arranged on the movable plate and drives the chuck to clamp, and the second driving mechanism is connected with the controller.

6. The high-speed communication connector assembly inspection machine of claim 1, wherein: the second feeding devices are two which are arranged in the front and back direction of the extending direction of the first conveying track, and each second feeding device is correspondingly provided with an inserting section device.

7. The high-speed communication connector assembly inspection machine of claim 1, wherein: the turnover device comprises a first material pushing mechanism, a second material pushing mechanism, a turnover head and a turnover driving mechanism; the first material pushing mechanism is arranged on the rack and is positioned beside the output end side of the first conveying track, the first material pushing mechanism comprises a first material pushing frame, a first material pushing head and a first material pushing driving mechanism, and the first material pushing frame is arranged on the rack and is positioned beside the output end side of the first conveying track; the first material pushing head can be longitudinally and movably arranged on the first material pushing frame back and forth and is positioned beside the output end side of the first conveying track; the first material pushing driving mechanism is arranged on the first material pushing frame and drives the first material pushing head to move back and forth longitudinally, and the first material pushing driving mechanism is connected with the controller; the second material pushing mechanism comprises a second material pushing frame, a second material pushing head and a second material pushing driving mechanism; the second material pushing frame is arranged on the rack and is positioned beside the input end side of the second conveying track; the second material pushing head is longitudinally and movably arranged on the second material pushing frame back and forth and is positioned beside the input end side of the second conveying track; the second material pushing driving mechanism is arranged on the second material pushing frame and drives the second material pushing head to move back and forth longitudinally, and the second material pushing driving mechanism is connected with the controller; the turnover head is arranged on the rack in a manner of being capable of being turned up and down back and forth and is turned over between the first material pushing mechanism and the second material pushing mechanism, and a second accommodating groove matched with a product is formed in the turnover head; the turnover driving mechanism is arranged on the rack and drives the turnover head to turn over up and down, and the turnover driving mechanism is connected with the controller.

8. The high-speed communication connector assembly inspection machine of claim 1, wherein: the high-voltage electric measurement device comprises an electric measurement inserting piece module and an electric measurement module; the electric testing insert die group is arranged on the rack and positioned beside the second conveying track, and comprises a first electric testing frame, an insert head and an insert driving mechanism; the first electric measuring frame is arranged on the rack and is positioned beside the second conveying track; the inserting sheet head can be longitudinally movably arranged on the first electric testing frame back and forth and inwards extend into the second conveying track, the inserting sheet driving mechanism is arranged on the first electric testing frame and drives the inserting sheet head to longitudinally move back and forth, and the inserting sheet driving mechanism is connected with the controller; the electrical measurement module comprises a second electrical measurement frame, an electrical measurement head and an electrical measurement driving mechanism; the second electric measuring frame is arranged on the rack and is positioned beside the second conveying track, wherein the second electric measuring frame corresponds to the longitudinal position of the first electric measuring frame; the electric measuring head can be movably arranged on the second electric measuring frame up and down and back and forth and extend into the second conveying track, the electric measuring driving mechanism is arranged on the second electric measuring frame and drives the electric measuring head to move up and down and back and forth, and the electric measuring driving mechanism is connected with the controller.

9. The high-speed communication connector assembly inspection machine of claim 8, wherein: the high-voltage electric measuring device also comprises an electric measuring host, the electric measuring head and the electric measuring insertion sheet are electrically connected with the electric measuring host, and the electric measuring host is connected with the controller.

10. The high-speed communication connector assembly inspection machine of claim 1, wherein: the device also comprises a material removing device, wherein the material removing device comprises a material removing frame, a material removing head, a material removing driving mechanism and a waste material box; the material removing frame is arranged on the rack and is positioned beside the second conveying track; the material removing head can be longitudinally and movably arranged on the material removing frame back and forth and extends inwards into the second conveying track; the material removing driving mechanism is arranged on the material removing frame and drives the material removing head to move back and forth longitudinally, and the material removing driving mechanism is connected with the controller; the waste box is arranged on the frame and is positioned right below the material removing head.

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