CN218630083U - Connector assembly detection device - Google Patents

Abstract

The utility model discloses a connector equipment detection device, including frame, the pillar of setting in the frame and the bottom plate of setting on the pillar, be provided with straight track, equipment mechanism, detection mechanism, link gear, the mechanism that directly shakes, receiving agencies on the bottom plate, directly shake and still be provided with wrong material mechanism between mechanism and the straight track. The linkage mechanism comprises a base arranged on the bottom plate, a first linear guide rail arranged on the base and parallel to the linear rail, a connecting plate arranged on the first linear guide rail in a sliding mode, a first air cylinder, a second linear guide rail arranged on the connecting plate and perpendicular to the linear rail, a sliding plate arranged on the second linear guide rail in a sliding mode, and a second air cylinder, wherein at least four claw claws are arranged on the sliding plate. The advantages are that: the equipment mechanism, detection mechanism, straight track, receiving agencies and link gear's setting and concrete implementation mode can be convenient for the equipment and the detection of connector shell and core print, and whole equipment structure is simple, the integrated level is high, effectively improve work efficiency.

Description

Connector assembly detection device

Technical Field

The utility model relates to an equipment check out test set field specifically is a connector equipment detection device.

Background

Connectors are also known as connectors, plugs and sockets. Generally referred to as an electrical connector. I.e., a device that connects two active devices, carrying a current or signal. A connector is a component that is frequently contacted by an electrical engineering technician. The function of the circuit is very simple, namely, a bridge for communication is erected between the blocked parts or isolated and non-communicated circuits in the circuit, so that current flows, and the circuit realizes the preset function. Connectors are indispensable components in electronic devices, and one or more connectors are always found by observing 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. For example, connectors for court lights and hard drives, and connectors for rocket lights are quite different. However, in any connector, it is necessary to ensure smooth, continuous and reliable flow of current. In general terms, the connections to which connectors are connected are not limited to electrical current, and today with the rapid development of optoelectronics, optical fiber systems are used where the signal carrying carriers are light, glass and plastic instead of wires in the ordinary electrical circuit, but connectors are also used in the optical signal path, which function as circuit connectors.

The connector has a housing with a core print disposed therein and a circuit disposed in the core print. Aiming at the connector assembled by adopting a clamping connection mode between the shell and the core seat, the traditional mode is that the shell and the core seat are assembled and then are detected on a detection assembly line, and an indexing turntable is adopted to rotate to a corresponding detection station during detection, so that the whole device is complex in structure, long in time consumption of assembly and detection, and low in production efficiency.

In view of the above, it is desirable to provide a connector assembly detection device.

SUMMERY OF THE UTILITY MODEL

The utility model provides a pair of connector equipment detection device, the effectual problem that has solved current connector production efficiency low and detection device structure complicacy.

The utility model adopts the technical proposal that:

the utility model provides a connector equipment detection device, includes the frame, sets up pillar and the bottom plate of setting on the pillar in the frame, be provided with straight track and be used for installing straight orbital track seat on the bottom plate, be located straight track one side has set gradually equipment mechanism and detection mechanism, is located straight track opposite side is provided with and is used for driving the gliding link gear of connector on straight track, is located be provided with on the bottom plate of straight track front end and directly shake the mechanism, be located be provided with receiving agencies on the bottom plate of straight track rear end, directly shake and still be provided with wrong material mechanism between mechanism and the straight track. The linkage mechanism comprises a base arranged on a bottom plate, a first linear guide rail arranged on the base and parallel to the linear guide rail, a connecting plate arranged on the first linear guide rail in a sliding mode, a first air cylinder arranged on the base and used for driving the connecting plate to slide relative to the first linear guide rail, a second linear guide rail arranged on the connecting plate and perpendicular to the linear guide rail, a sliding plate arranged on the second linear guide rail in a sliding mode, and a second air cylinder fixedly arranged on the connecting plate and used for driving the sliding plate to slide relative to the second linear guide rail, wherein at least four claw claws arranged at equal intervals are arranged on the sliding plate.

Further, the method comprises the following steps: the equipment mechanism is including setting up mounting bracket on the bottom plate, vertical setting No. three linear guide on mounting bracket, slide and set up No. one slide on No. three linear guide, slide and set up No. two slides at a slide lateral part, fixed setting be used for driving the gliding No. three cylinders of No. three linear guide of a slide relatively on mounting bracket, fixed setting at the briquetting of a slide lower extreme and the fixed cylinder clamping jaw that sets up in No. two slide bottoms, the briquetting is located the straight track top, the cylinder clamping jaw is located the straight track and keeps away from one side of taking off the claw, the cylinder clamping jaw corresponds with one at least, the cylinder clamping jaw includes the cylinder body and sets up two claw toes on the cylinder body, two claw toes are used for pressing from both ends face of tight connector along the straight track direction of motion.

Further, the method comprises the following steps: the detection mechanism comprises a testing crystal head assembly and a probe assembly matched with the testing crystal head assembly, the testing crystal head assembly comprises a second mounting frame arranged on a bottom plate, a fourth linear guide rail vertically arranged on the second mounting frame, a sliding plate arranged on the fourth linear guide rail in a sliding manner, a fourth air cylinder fixedly arranged on the second mounting frame and used for driving the sliding plate to slide relative to the fourth linear guide rail, a guide pillar arranged on the sliding plate in a sliding manner, a stripper plate fixedly connected with the lower end of the guide pillar, a crystal head fixedly arranged on the sliding plate, and a spring sleeved on the guide pillar, a through hole for lifting the crystal head is formed in the stripper plate, the probe assembly comprises a fifth air cylinder arranged on a track seat, a probe seat arranged on the output end of the fifth air cylinder, and a plurality of probes arranged on the probe seat, two ends of the springs respectively abut against the stripper plate and the sliding plate, and an opening corresponding to the probes is formed in the straight track.

Further, the method comprises the following steps: the receiving agencies include that the slant sets up the non-defective products roll-off track on the bottom plate, set up the transfer slider at non-defective products roll-off track and straight track back port, set up and be used for driving gliding No. six cylinders of transfer slider and set up the garbage collection box in the slider below on the bottom plate.

Further, the method comprises the following steps: the material staggering mechanism comprises a push block and a seven-cylinder which is arranged on the bottom plate and used for driving the push block to slide between the outlet of the straight vibrating mechanism and the inlet of the straight track.

Utility model's beneficial effect: the equipment mechanism, detection mechanism, straight track, receiving agencies and link gear's setting and concrete implementation mode can be convenient for the equipment and the detection of connector shell and core print, and whole equipment structure is simple, the integrated level is high, effectively improve work efficiency.

Drawings

Fig. 1 is an overall schematic view of a connector assembly detection device provided in an embodiment of the present application.

Fig. 2 is a schematic view of fig. 1 with the gantry removed.

Fig. 3 is a schematic view of an assembly mechanism of a connector assembly detection device according to an embodiment of the present application.

Fig. 4 is a schematic view of a linkage mechanism of a connector assembly detection device provided in an embodiment of the present application.

Fig. 5 is a schematic view of a detection mechanism of a connector assembly detection device provided in an embodiment of the present application.

Fig. 6 is a schematic diagram of a material error mechanism of a connector assembly detection device according to an embodiment of the present application.

Fig. 7 is a schematic connector diagram of a connector assembly detection device according to an embodiment of the present application.

Labeled as: 1. a frame; 2. a support post; 3. a base plate; 4. a rail seat; 5. a straight track; 6. an assembly mechanism; 7. a detection mechanism; 8. a linkage mechanism; 9. a direct vibration mechanism; 10. a material receiving mechanism; 11. a material staggering mechanism; 81. a first linear guide rail; 82. a first cylinder; 83. a second linear guide rail; 84. a second cylinder; 85. a connecting plate; 86. a sliding plate; 87. picking the claw; 61. a first mounting frame; 62. a third linear guide rail; 63. a first slide plate; 64. a second sliding plate; 65. a third cylinder; 66. briquetting; 67. a cylinder clamping jaw; 671. a claw and a toe; 711. a second mounting rack; 712. a fourth linear guide rail; 713. a slide plate; 714. a cylinder number four; 715. a guide post; 716. a material removing plate; 717. a crystal head; 718. a spring; 721. a fifth cylinder; 722. a probe base; 723. a probe; 101. the good products slide out of the track; 102. a transfer slide block; 103. a number six cylinder; 104. a waste collection box; 111. a push block; 112. a cylinder No. seven; 500. a housing; 600. a core print; 5001. a bayonet; 6001. and (5) buckling.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, embodiments accompanied with figures are described in detail below. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein, as those skilled in the art will be able to make similar modifications without departing from the spirit and scope of the present invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

As shown in fig. 1, 2 and 4, a connector assembly detection device provided in an embodiment of the present application structurally includes a frame 1, a pillar 2 disposed on the frame 1, and a bottom plate 3 disposed on the pillar 2, the bottom plate 3 is provided with a straight rail 5 and a rail seat 4 for mounting the straight rail 5, an assembly mechanism 6 and a detection mechanism 7 are sequentially disposed on one side of the straight rail 5, a linkage mechanism 8 for driving a connector to slide on the straight rail 5 is disposed on the other side of the straight rail 5, a straight vibration mechanism 9 is disposed on the bottom plate 3 at the front end of the straight rail 5, a material receiving mechanism 10 is disposed on the bottom plate 3 at the rear end of the straight rail 5, a material staggering mechanism 11 is further disposed between the straight rail 5 and the straight vibration mechanism 9, the linkage mechanism 8 includes a base disposed on the bottom plate 3, a first linear guide rail 81 disposed on the base and parallel to the straight rail 5, a connection plate 85 slidably disposed on the first linear guide rail 81, a first linear guide rail 82 disposed on the base for driving the connection plate 85 relative to the first linear guide rail 81, a sliding plate 82 disposed on the base, a second linear guide plate 86 disposed on the second linear guide plate 86 for driving the sliding plate 83, and a sliding plate 86 disposed on the second linear guide plate 86 for driving a sliding plate 86, and the sliding plate 86 disposed on the second linear guide plate 86, and the sliding plate 86.

As shown in fig. 7, the connector includes a housing 500 and a core print 600, a circuit of the connector is disposed on the core print 600, a plurality of latches 6001 are disposed on two sides of the core print 600, and a bayonet 5001 for latching with the latches 6001 is disposed on the housing 500. The straight vibration mechanism 9 delivers the connector in a state where the housing 500 is placed on the core print 600, and the core print 600 is not engaged with the housing 500.

When the connector is actually used, the direct vibration mechanism 9 conveys the connector, after the connector is conveyed to the material staggering mechanism 11, the material staggering mechanism 11 conveys the connector into the straight track 5, and in the process, the direct vibration mechanism 9 stops conveying; then the material staggering mechanism 11 resets, the direct vibration mechanism 9 continues to convey, the connector is clamped by one of the picking claws 87 when being conveyed to the straight track 5, the assembling mechanism 6 and the detecting mechanism 7 correspond to one picking claw 87, then the first air cylinder 82 drives the connecting plate 85 to drive the picking claw 87 to move along the conveying direction of the straight track 5, the material receiving mechanism 10 receives the connector transmitted by the detecting mechanism 7, the detecting mechanism 7 receives the connector assembled by the assembling mechanism 6, the assembling mechanism 6 receives the connector which is not assembled, after the first air cylinder 82 completes one stroke, the second air cylinder 84 drives the sliding plate 86 to move towards one side far away from the straight track 5 along the second linear guide rail 83, and the first air cylinder 82 drives the connecting plate 85 to move reversely along the conveying direction of the straight track 5, so that the material staggering mechanism 11 corresponds to one picking claw 87.

In the above design, the assembling mechanism 6, the detecting mechanism 7, the straight rail 5, the receiving mechanism 10 and the linkage mechanism 8 are arranged and specifically implemented, so that the connector shell 500 and the core print 600 can be conveniently assembled and detected, the whole equipment is simple in structure, high in integration level and capable of effectively improving the working efficiency.

Specifically, the method comprises the following steps: as shown in fig. 3, the assembling mechanism 6 includes a first mounting frame 61 disposed on the bottom plate 3, a third linear guide rail 62 vertically disposed on the first mounting frame 61, a first sliding plate 63 slidably disposed on the third linear guide rail 62, a second sliding plate 64 slidably disposed on a side portion of the first sliding plate 63, a third air cylinder 65 fixedly disposed on the first mounting frame 61 and used for driving the first sliding plate 63 to slide relative to the third linear guide rail 62, a pressing block 66 fixedly disposed at a lower end of the first sliding plate 63, and an air cylinder clamping jaw 67 fixedly disposed at a bottom of the second sliding plate 64, where the pressing block 66 is located above the straight rail 5, the air cylinder clamping jaw 67 is located at a side of the straight rail 5 away from the removing jaw 87, the air cylinder clamping jaw 67 corresponds to at least one removing jaw 87, the air cylinder clamping jaw 67 includes a cylinder body and two ends 671 disposed on the cylinder body, and the two ends 671 of the two claws 671 are used for clamping the connector along a moving direction of the straight rail 5.

In practical use, after the connector is conveyed to a position corresponding to the assembling mechanism 6 by the grabbing claws 87, the third air cylinder 65 drives the first sliding plate 63 to move downwards along the third linear guide rail 62, the second sliding plate 64 moves downwards synchronously, when the air cylinder clamping jaw 67 moves downwards to be in contact with the linear guide rail and the two claw toes 671 are respectively positioned on the two sides of the core seat 600, the air cylinder clamping jaw 67 clamps the core seat 600, the first sliding plate 63 continuously driven by the third air cylinder 65 moves downwards, the pressing block 66 applies pressure to the shell 500, the buckle 6001 is clamped into the clamping opening 5001, then the air cylinder clamping jaw 67 loosens the clamping of the core seat 600, and the third air cylinder 65 drives the first sliding plate 63 and the second sliding plate 64 to reset.

In the above design, the structural design and the specific implementation of the assembling mechanism 6 can enable the connector to be clamped during assembling, so as to ensure that the connector is more stable during assembling.

Specifically, the method comprises the following steps: as shown in fig. 1, 2 and 5, the detecting mechanism 7 includes a testing crystal head assembly and a probe assembly engaged with the testing crystal head assembly, the testing crystal head assembly includes a second mounting frame 711 disposed on the bottom plate 3, a fourth linear guide 712 vertically disposed on the second mounting frame 711, a sliding plate 713 slidably disposed on the fourth linear guide 712, a fourth cylinder 714 fixedly disposed on the second mounting frame 711 for driving the sliding plate 713 to slide relative to the fourth linear guide 712, a guide post 715 slidably disposed on the sliding plate 713, a stripper plate 716 fixedly connected to a lower end of the guide post 715, a crystal head 717 fixedly disposed on the sliding plate 713, and a spring 718 sleeved on the guide post 715, the stripper plate 716 is provided with a through hole for lifting the crystal head 717, the probe assembly includes a fifth cylinder disposed on the rail seat 4, a seat 722 disposed on an output end of the fifth cylinder 721, and a plurality of probes 723 disposed on the probe seat, two ends of the spring 718 respectively abut against the stripper plate 716 and the sliding plate 713, and an opening corresponding to the probe 723 is disposed on the straight rail 5.

It should be noted that the external connector tester is used to perform the electrical conduction test.

In practical use, when the connector is conveyed to a position corresponding to the detecting mechanism 7, the fourth cylinder 714 drives the sliding plate 713 to slide downwards along the fourth linear guide 712, so that the crystal head 717 penetrates through the shell 500 to extend into the core print 600 to be electrically connected with one end of the contact in the core print 600, the fifth cylinder 721 drives the probe seat 722 to move upwards, so that the probe 723 is electrically connected with the other end of the contact in the core print 600, and then the conductivity of the connector is displayed by using the joint tester.

In the above design, the structural arrangement and the specific implementation of the detection device can enable the continuity of the connection to be detected in time.

Specifically, the method comprises the following steps: as shown in fig. 2, the receiving mechanism 10 includes a good product sliding-out rail 101 obliquely disposed on the bottom plate 3, a transfer slider 102 disposed at a rear end of the good product sliding-out rail 101 and the straight rail 5, a number six cylinder 103 disposed on the bottom plate 3 for driving the transfer slider 102 to slide, and a waste collecting box 104 disposed below the slider.

During practical use, when the detection mechanism 7 detects that the connector conductivity is poor, the sixth air cylinder 103 drives the transfer slider 102 to separate from the straight rail 5 and slide out of the good product from the rail 101, so that the poor connector directly falls into the waste collecting box 104 after passing through the straight rail 5. When the detection mechanism 7 detects that the connector is good, the number six cylinder 103 drives the transfer slider 102 to be positioned between the straight rail 5 and the good product slide-out rail 101, so that the connector is drawn into the good product slide-out rail 101 from the straight rail 5 through the transfer slider 102.

In the above design, the material receiving mechanism 10 is arranged so that the classified collection between the good products and the defective products does not need an independent transfer mechanism, and the structure of the whole material receiving mechanism 10 is simpler and more compact.

Specifically, the method comprises the following steps: as shown in fig. 6, the material staggering mechanism 11 comprises a pushing block 111 and a number seven cylinder 112 arranged on the bottom plate 3 and used for driving the pushing block 111 to slide between the outlet of the straight vibrating mechanism 9 and the inlet of the straight track 5.

In actual use, after the connector flows out of the straight vibrating mechanism 9, the seven-gauge cylinder 112 drives the push block 111 so that the connector is pushed into the straight rail 5.

In the above design, the design of the material staggering mechanism 11 can enable the connectors flowing out of the straight vibrating mechanism 9 to enter the straight track 5 more accurately and conveniently.

In the following detailed description, it is to be understood that the above-described embodiments are merely exemplary of the present invention, and are not intended to limit the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principles of the present invention should be included within the scope of the present invention.

Claims (5)

1. The utility model provides a connector equipment detection device, includes frame (1), sets up pillar (2) on frame (1) and sets up bottom plate (3) on pillar (2), its characterized in that: the automatic connector feeding device is characterized in that a straight rail (5) and a rail seat (4) used for installing the straight rail (5) are arranged on the bottom plate (3), an assembling mechanism (6) and a detection mechanism (7) are sequentially arranged on one side of the straight rail (5), a linkage mechanism (8) used for driving a connector to slide on the straight rail (5) is arranged on the other side of the straight rail (5), a straight vibrating mechanism (9) is arranged on the bottom plate (3) at the front end of the straight rail (5), a receiving mechanism (10) is arranged on the bottom plate (3) at the rear end of the straight rail (5), a material staggering mechanism (11) is further arranged between the straight vibrating mechanism (9) and the straight rail (5), the linkage mechanism (8) comprises a base arranged on the bottom plate (3), a first linear guide rail (81) which is arranged on the base and is parallel to the straight rail (5), a connecting plate (85) arranged on the first linear guide rail (81) in a sliding manner, a first linear guide (82) which is arranged on the base and is arranged on the straight rail (5) in a manner, a first linear guide rail (85) which is arranged on the base and is used for driving the connecting plate (85) and a second linear guide (86) which is arranged on the straight rail (83), and a second linear guide plate (86) which is arranged on the second linear guide (83) and is arranged on the straight rail (83), and a sliding plate (86) which is arranged on the straight rail (86) and a sliding plate (86) which is used for driving connecting plate (83) and is arranged on the sliding plate (85) The sliding device comprises a sliding second cylinder (84), and the sliding plate (86) is provided with at least four claw claws (87) arranged at equal intervals.

2. The connector assembly detection device of claim 1, wherein: the assembling mechanism (6) comprises a first mounting frame (61) arranged on the bottom plate (3), a third linear guide rail (62) vertically arranged on the first mounting frame (61), a first sliding plate (63) slidingly arranged on the third linear guide rail (62), a second sliding plate (64) slidingly arranged on the side part of the first sliding plate (63), and a third cylinder (65) fixedly arranged on the first mounting frame (61) and used for driving the first sliding plate (63) to slide relative to the third linear guide rail (62), a pressing block (66) fixedly arranged at the lower end of the first sliding plate (63) and a cylinder clamping jaw (67) fixedly arranged at the bottom of the second sliding plate (64), wherein the pressing block (66) is arranged above the straight rail (5), the cylinder clamping jaw (67) is arranged on one side of the straight rail (5) far away from the claw (87), the cylinder clamping jaw (67) at least corresponds to one claw (87), the cylinder clamping jaw (67) comprises a cylinder body and two toe claws (671) arranged on the cylinder body, and the two toe claws (671) are used for clamping the two ends of the connector (5) to move along the straight rail (5).

3. The connector assembly detection device of claim 1, wherein: the detection mechanism (7) comprises a testing crystal head assembly and a probe assembly matched with the testing crystal head assembly, the testing crystal head assembly comprises a second mounting frame (711) arranged on a bottom plate (3), a fourth linear guide rail (712) vertically arranged on the second mounting frame (711), a sliding plate (713) slidably arranged on the fourth linear guide rail (712), a stripper plate (716) fixedly arranged on the second mounting frame (711) and used for driving the sliding plate (713) to slide relative to the fourth linear guide rail (712), a guide pillar (713) slidably arranged on the sliding plate (713), a stripper plate (716) fixedly connected with the lower end of the guide pillar (715), a crystal head (717) fixedly arranged on the sliding plate (713), and a spring (718) sleeved on the guide pillar (715), the stripper plate (716) is provided with a through hole for lifting the crystal head (717), the stripper plate (716) comprises a fifth cylinder (722) arranged on a rail seat (4), a probe seat (721) arranged on the output end of the fifth cylinder (721), and a plurality of probe seats (718) arranged on the probe seat (718), and two ends of the stripper plate (715) are respectively corresponding to the probe plate (723) and the sliding plate (713) and the probe seat (716) and the probe plate (716) is provided with an opening (723).

4. The connector assembly detection device of claim 1, wherein: the receiving agencies (10) include that the slant sets up in non-defective products roll-off track (101) on bottom plate (3), set up transfer slider (102) at non-defective products roll-off track (101) and straight track (5) rear end mouth, set up and be used for driving gliding No. six cylinder (103) of transfer slider (102) and set up garbage collection box (104) in the slider below on bottom plate (3).

5. The connector assembly detection device according to claim 1, wherein: the material staggering mechanism (11) comprises a push block (111) and a seven-cylinder (112) which is arranged on the bottom plate (3) and used for driving the push block (111) to slide between the outlet of the straight vibrating mechanism (9) and the inlet of the straight track (5).

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