CN117046763A

CN117046763A - RJ connector test packaging equipment and process method

Info

Publication number: CN117046763A
Application number: CN202311318416.3A
Authority: CN
Inventors: 梁利娇
Original assignee: Suzhou Colfly Electronic Technology Co ltd
Current assignee: Suzhou Colfly Electronic Technology Co ltd
Priority date: 2023-10-12
Filing date: 2023-10-12
Publication date: 2023-11-14

Abstract

The utility model discloses RJ connector test packaging equipment and a process method, which belong to the field of connector manufacturing and comprise a baseplate frame, a detection cylinder fixedly connected to the baseplate frame, a detector fixedly connected to the detection cylinder, a carrying component fixedly connected to the baseplate frame, and a clamping detection component arranged on the carrying component, wherein the clamping detection component comprises a clamping component and a detection component, the carrying component is used for carrying a connector, and the clamping detection component is used for clamping and detecting the connector. The utility model can simplify the carrying flow of the connector, and can cooperate with the detection assembly to carry out detection, coordinate and cooperate, thus improving the working efficiency; the drawing quality of the connector can be detected, defective products and good products can be automatically distinguished, the operation efficiency is improved, and the labor intensity of personnel is reduced; the debugging is quick, easy operation, packs the good product automation, further improves the operating efficiency.

Description

RJ connector test packaging equipment and process method

Technical Field

The utility model relates to the field of connector manufacturing, in particular to RJ connector test packaging equipment and a process method.

Background

RJ connectors are a type of connector commonly used in the network and communications arts, where "RJ" stands for Registered Jack. It is commonly used to connect ethernet, telephone lines, modems, audio devices, and other types of data communication devices. The most common RJ connectors include RJ11, RJ45, RJ48, and the like. When RJ connectors are produced, a series of tests are required to ensure that the quality is acceptable and that the RJ connectors are commercially available, including visual inspection, electrical performance testing, mechanical performance testing, etc. of the connectors. The conventional common problems when using connectors are: the connector is not firmly clamped and easily slipped out of the connector under the condition of unexpected stress, so that the connection stability is poor. But this problem has been basically solved as the more filling is made in recent years, but a new problem is that: when the connector is stressed accidentally, the connector and the connector are clamped firmly, so that the connector is possibly damaged, and the connector cannot be pulled out completely, so that the pulling strength of the connector needs to be detected after the connector is manufactured, the connector is not damaged easily under a certain pulling force, and the connection stability of the connector and the connector is ensured.

The Chinese patent of the prior art with the publication number of CN216035430U provides an automatic connector detection packaging machine, which mainly comprises a frame, wherein a connector overturning station, a first detection station, a second detection station, a third detection station, a defective product removing station, a clamping cover assembling station and a connector packaging station are sequentially arranged on the frame along the conveying direction of the connector. The advantages are that: the device can automatically detect the connector, remove defective products and package. However, the device does not disclose specific detection items of the connector, and the steps are complicated when the connector is carried, and smooth operation can be performed only by adjusting the matching relation among a plurality of components.

Disclosure of Invention

The technical problems to be solved by the utility model are as follows: the test packaging equipment and the process method can automatically detect whether the connector is conducted or not and whether the drawing quality is qualified or not and package the connector.

Aiming at the technical problems, the utility model adopts the following technical scheme: the utility model provides a RJ connector test equipment for packing, includes fixed connection detection cylinder on bottom plate frame, the bottom plate frame, detects fixed connection detector on the cylinder, bottom plate frame fixed connection on be provided with the transport part, be provided with the centre gripping on the transport part and detect the part, the centre gripping detect the part including clamping assembly, detection assembly, the transport part be used for carrying the connector, the centre gripping detect the part be used for centre gripping, detection connector.

The clamping assembly comprises two clamping sliding seats, clamping blocks are connected to the clamping sliding seats in a sliding manner, a detection spring I is fixedly connected to the clamping blocks, the detection spring I is fixedly connected to the clamping sliding seats, and a clamping connector is arranged close to each other through the two clamping blocks; the detection assembly comprises a bolt seat, the bolt seat is rotationally connected to the bottom plate frame, a plurality of bolts are fixedly connected to the bolt seat, a lock pin is rotationally connected to the bolts, a torsion spring is arranged between the lock pin and the bolts, the lock pin is matched with the connector, the bolts are slidingly connected with an active ejector rod and a passive ejector rod, the passive ejector rod is respectively matched with the lock pin and the active ejector rod, a reset spring is fixedly connected to the active ejector rod, the reset spring is fixedly connected to the bolt seat, an adjusting shaft is movably connected to the bolt seat, a plurality of adjusting projections are fixedly connected to the adjusting shaft, and the active ejector rod is matched with the adjusting projections; the detection assembly further comprises a detection rod, the detection rod is slidably connected to the bottom plate frame, the detection rod is fixedly connected with a detection spring II, the detection spring II is fixedly connected to the bottom plate frame, one end of the detection rod is magnetically attracted to be connected with the adjusting shaft, the section of the other end of the detection rod is triangular, and the clamping sliding seat on the same side is matched with two oblique sides of the triangle.

Preferably, the clamping assembly further comprises a clamping shell, the clamping shell is fixedly connected with a clamping cylinder, the clamping cylinder is fixedly connected with a push rod, two ends of the push rod are respectively and rotatably connected with a clamping rod III, the clamping rod III is slidably connected with a clamping rod I, the clamping rod III is fixedly connected with a clamping force spring, the clamping force spring is fixedly connected with the clamping rod I, the clamping rod I is rotatably connected with the clamping rod II, the clamping rod II is fixedly connected with a half gear, the half gear is rotatably connected with the clamping shell, the clamping slide is slidably connected with the clamping shell, a rack is arranged on the clamping slide, and the half gear is always meshed with the rack on the clamping slide on the same side.

Preferably, the detection assembly further comprises a bevel gear shaft II, the bevel gear shaft II is rotatably connected to the bottom plate frame, a belt II is sleeved between the bevel gear shaft II and the latch seat, the bottom plate frame is fixedly connected with a blanking rod, and the blanking rod is matched with the connector.

Preferably, the transport part include the transport support, rotate on the transport support and connect the spout axle, a spout dish of spout axle both ends fixed connection respectively sets up two notches on the notch dish, be provided with two crisscross spouts on the spout axle, the both ends of spout link to each other with a notch on two notch dishes respectively, sliding connection carries the axle on the spout axle, carry axle one end rotation is connected with the carrier, fixed connection centre gripping shell on the carrier, carry the axle other end rotation is connected the dial ring, the one end sliding connection bevel gear axle I that the carrier is close to the dial ring, bevel gear axle I rotates and connects on the bottom plate frame, bevel gear axle I meshes with bevel gear axle II, make carrier control centre gripping detection part carry the connector through rotating spout axle and longitudinal movement dial ring.

Preferably, the two notches on the notch disc are mutually perpendicular, the carrying support is rotationally connected with the adjusting rod, the adjusting rod is rotationally connected to the adjusting ring, and the carrying rod is slidably connected to the adjusting ring.

Preferably, the drive arc rod is rotationally connected to the baseplate frame, the drive straight rod is fixedly connected to the drive arc rod, the drive arc rod is mutually perpendicular to the drive straight rod, the drive straight rod is matched with a chute on a chute shaft, the drive arc rod is matched with a notch on a notch disc, the baseplate frame is fixedly connected with a carrying motor, and a belt I is sleeved between the driving disc and the carrying motor.

Preferably, the driving arc rod is fixedly connected with a driving disc, a closed-loop chute is arranged on the driving disc, the baseplate frame is rotationally connected with a poking rod, one end of the poking rod is slidably connected with the poking ring, and the other end of the poking rod is slidably connected with the closed-loop chute on the driving disc.

Preferably, the floor frame on set up the cover and be equipped with the conveyer belt, conveying motor fixed connection is on the floor frame, conveying motor is used for driving the conveyer belt, the floor frame on fixed connection storage box, the storage box is used for intermittent type input packing carton, the packing carton is used for loading the connector, the floor frame on be provided with and seal the membrane ware, seal the membrane ware and be used for encapsulating the packing carton, be provided with finished product collection box, defective products collection box on the floor frame, finished product collection box is used for collecting qualified connector, defective products collection box is used for collecting unqualified connector.

A test packaging process method for RJ connectors comprises the following steps:

firstly, putting a packing box loaded with connectors into a storage box, transporting the packing box to a preset position by a conveyer belt, clamping the connectors by a clamping assembly, and controlling the clamping assembly to carry the connectors by a carrying component;

step two, after the connector is carried to a detection position, starting a detection cylinder to enable the detector to conduct detection on the connector, and after the conduction detection is finished, detecting the drawing quality of the connector through a detection assembly;

and thirdly, after the drawing quality is detected, the carrying component controls the clamping component to put the connector in the original packaging box, and then the connector is packaged by the film sealing device.

Compared with the prior art, the utility model has the beneficial effects that:

(1) According to the RJ connector test packaging equipment and the process method, the carrying component is arranged, so that the carrying flow of the connector can be simplified, the detection can be carried out by matching with the detection component, the matching can be carried out, and the operation efficiency is improved;

(2) According to the RJ connector test packaging equipment and the process method, the clamping detection component is arranged, so that the drawing quality of the connector can be detected, defective products and good products can be automatically distinguished, the operation efficiency is improved, and the labor intensity of personnel is reduced;

(3) The RJ connector test packaging equipment and the process method are quick in debugging, simple in operation and capable of automatically packaging good products, and further improving the operation efficiency.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model.

Fig. 2 is a schematic diagram of the whole structure of the present utility model in front view.

Fig. 3 is a schematic top view of the overall structure of the present utility model.

Fig. 4 is a schematic view of a partial structure of the present utility model.

Fig. 5 is a schematic view of a handling member.

Fig. 6 is a schematic diagram of a second carrying member.

FIG. 7 is a schematic view of the structure of the grooved shaft and the grooved plate.

Fig. 8 is a schematic view of the structure of the clamping detecting member.

Fig. 9 is a schematic view of a clamping assembly.

Fig. 10 is a right-view cross-sectional view of the sensing assembly structure.

FIG. 11 is a schematic diagram of a detection assembly.

Fig. 12 is a front angular cross-sectional view of a sensing assembly configuration.

Fig. 13 is a sectional view of the structure of the detecting unit in a moving state.

Fig. 14 is a schematic view of the structure of the active jack and the adjusting bump.

Reference numerals: 2-carrying parts; 3-clamping the detection component; a 4-connector; 101-a floor frame; 102-a storage box; 103-a finished product collection box; 104-a conveyor belt; 105-packaging box; 106, a film sealer; 107-a conveying motor; 108, a defective product collecting box; 109-a detector; 110-detecting a cylinder; 201-drive a disc; 202-driving an arc rod; 203-slot plate; 204-driving a straight rod; 205-handling a rack; 206-a runner shaft; 207-belt I; 208-a handling motor; 209—a toggle lever; 210-bevel gear shaft I; 211-a dial ring; 212-adjusting the rod; 213-a regulatory ring; 214-a carrying bar; 215-a carrying shaft; 301-clamping a housing; 302-belt II; 303-bevel gear shaft II; 304-clamping cylinder; 305-push rod; 306-clamping rod I; 307-clamping force springs; 308-clamping rod II; 309-half gear; 310-clamping a slide; 311-clamping blocks; 312-detecting a spring I; 313-latch seats; 314-a detection bar; 315-detecting a spring II; 316-adjusting the shaft; 3161-adjusting the bumps; 317-pins; 318-locking pin; 319-active ejector pins; 320-passive ejector pins; 321-a return spring; 322-clamping bar iii; 323-blanking rod.

Detailed Description

The technical scheme of the utility model is further described below by means of specific embodiments in combination with the accompanying drawings.

Wherein the drawings are for illustrative purposes only and are shown in schematic, non-physical, and not intended to limit the utility model; for the purpose of better illustrating embodiments of the utility model, certain elements of the drawings may be omitted, enlarged or reduced and do not represent the size of the actual product; it will be appreciated by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

Examples: as shown in fig. 1-4, a detection cylinder 110 is fixedly connected to a bottom plate frame 101, a detector 109 is fixedly connected to the detection cylinder 110, a carrying component 2 is arranged on the bottom plate frame 101 in a fixedly connected manner, a clamping detection component 3 is arranged on the carrying component 2, the clamping detection component 3 comprises a clamping component and a detection component, the carrying component 2 is used for carrying a connector 4, and the clamping detection component 3 is used for clamping and detecting the connector 4; the conveying belt 104 is sleeved on the bottom plate frame 101, the conveying motor 107 is fixedly connected to the bottom plate frame 101, the conveying motor 107 is used for driving the conveying belt 104, the storage box 102 is fixedly connected to the bottom plate frame 101, the storage box 102 is used for intermittently throwing the packing box 105, the packing box 105 is used for loading the connector 4, the bottom plate frame 101 is provided with the film sealing device 106, the film sealing device 106 is used for packaging the packing box 105, the bottom plate frame 101 is provided with the finished product collecting box 103 and the defective product collecting box 108, the finished product collecting box 103 is used for collecting the qualified connector 4, and the defective product collecting box 108 is used for collecting the defective connector 4.

As shown in fig. 5 to 7, the carrying member 2 includes a carrying bracket 205, a sliding groove shaft 206 is rotatably connected to the carrying bracket 205, two ends of the sliding groove shaft 206 are fixedly connected to a notch disc 203, two notches are provided on the notch disc 203, two staggered sliding grooves are provided on the sliding groove shaft 206, two ends of the sliding grooves are respectively connected to one notch on the two notch disc 203, a carrying shaft 215 is slidably connected to the sliding groove shaft 206, one end of the carrying shaft 215 is rotatably connected to a carrying rod 214, a clamping housing 301 is fixedly connected to the carrying rod 214, the other end of the carrying shaft 215 is rotatably connected to a shifting ring 211, one end of the carrying shaft 215, which is close to the shifting ring 211, is slidably connected to a bevel gear shaft i 210, the bevel gear shaft i 210 is rotatably connected to the bottom plate frame 101, the bevel gear shaft i 210 is meshed with the bevel gear shaft ii, and the carrying rod 214 is controlled to carry the connector 4 by the clamping detection member 3 by rotating the sliding groove shaft 206 and longitudinally moving the shifting ring 211; two notches on the notch disc 203 are mutually perpendicular, an adjusting rod 212 is rotationally connected on the carrying bracket 205, the adjusting rod 212 is rotationally connected on an adjusting ring 213, and the carrying rod 214 is slidingly connected on the adjusting ring 213; the driving arc rod 202 is rotationally connected to the bottom plate frame 101, the driving straight rod 204 is fixedly connected to the driving arc rod 202, the driving arc rod 202 is mutually perpendicular to the driving straight rod 204, the driving straight rod 204 is matched with a chute on the chute shaft 206, the driving arc rod 202 is matched with a chute on the chute disc 203, the bottom plate frame 101 is fixedly connected to the carrying motor 208, and a belt I207 is sleeved between the driving disc 201 and the carrying motor 208; the driving arc rod 202 is fixedly connected with the driving disc 201, the driving disc 201 is provided with a closed-loop chute, the bottom plate frame 101 is rotatably connected with the poking rod 209, one end of the poking rod 209 is slidably connected with the poking ring 211, and the other end of the poking rod 209 is slidably connected with the closed-loop chute on the driving disc 201. The belt I207 is driven by the carrying motor 208 to enable the driving disc 201 to rotate, at the moment, the driving straight rod 204 and the driving arc rod 202 are respectively and intermittently matched with a chute on the chute shaft 206 and a notch on the notch disc 203, when one end of the driving straight rod 204 is matched with the chute on the chute shaft 206, the chute shaft 206 can rotate ninety degrees, then one end of the driving disc 201 is matched with the notch on the notch disc 203, at the moment, the chute shaft 206 is kept motionless, then the other end of the driving straight rod 204 is matched with the other notch on the chute shaft 206, at the moment, the chute shaft 206 is reversed for ninety degrees, and at the last, the other end of the driving arc rod 202 is matched with the other notch on the notch disc 203, at the moment, the chute shaft 206 is kept motionless; meanwhile, along with the rotation of the driving disc 201, the position where the toggle rod 209 contacts with the closed-loop chute changes, so that the toggle rod 209 drives the toggle ring 211 to intermittently reciprocate up and down, namely, when the chute shaft 206 is kept motionless, the toggle rod 209 drives the toggle ring 211 to move, and when the chute shaft 206 rotates, the toggle rod 209 does not drive the toggle ring 211 to move. When the slide shaft 206 rotates the carrying shaft 215 due to the adjustment lever 212, the carrying lever 214 revolves and rotates at the same time, thereby adjusting the position of the holding detecting member 3.

As shown in fig. 8-14, the clamping assembly comprises two clamping sliding seats 310, clamping blocks 311 are slidably connected to the clamping sliding seats 310, detection springs i 312 are fixedly connected to the clamping blocks 311, the detection springs i 312 are fixedly connected to the clamping sliding seats 310, and the connector 4 is clamped by the mutual approaching of the two clamping blocks 311; the detection assembly comprises a latch seat 313, the latch seat 313 is rotatably connected to the bottom plate frame 101, a plurality of latches 317 are fixedly connected to the latch seat 313, a latch 318 is rotatably connected to the latches 317, a torsion spring is arranged between the latch 318 and the latches 317, the latch 318 is matched with the connector 4, an active ejector rod 319 and a passive ejector rod 320 are slidably connected to the latches 317, the passive ejector rod 320 is respectively matched with the latch 318 and the active ejector rod 319, a reset spring 321 is fixedly connected to the active ejector rod 319, the reset spring 321 is fixedly connected to the latch seat 313, an adjusting shaft 316 is movably connected to the latch seat 313, a plurality of adjusting convex blocks 3161 are fixedly connected to the adjusting shaft 316, and the active ejector rod 319 is matched with the adjusting convex blocks 3161; the detection assembly further comprises a detection rod 314, the detection rod 314 is slidably connected to the bottom plate frame 101, a detection spring II 315 is fixedly connected to the detection rod 314, the detection spring II 315 is fixedly connected to the bottom plate frame 101, one end of the detection rod 314 is magnetically connected to the adjusting shaft 316, the cross section of the other end of the detection rod is triangular, and the clamping sliding seat 310 on the same side is matched with two oblique sides of the triangle; the clamping assembly further comprises a clamping shell 301, a clamping cylinder 304 is fixedly connected to the clamping shell 301, a push rod 305 is fixedly connected to the clamping cylinder 304, two ends of the push rod 305 are respectively and rotatably connected with a clamping rod III 322, a clamping rod I306 is slidably connected to the clamping rod III 322, a clamping force spring 307 is fixedly connected to the clamping rod III 322, the clamping force spring 307 is fixedly connected to the clamping rod I306, the clamping rod I306 is rotatably connected to a clamping rod II 308, the clamping rod II 308 is fixedly connected to a half gear 309, the half gear 309 is rotatably connected to the clamping shell 301, a clamping slide seat 310 is slidably connected to the clamping shell 301, a rack is arranged on the clamping slide seat 310, and the half gear 309 is always meshed with the rack on the clamping slide seat 310 on the same side; the detection assembly further comprises a bevel gear shaft II 303, the bevel gear shaft II 303 is rotatably connected to the bottom plate frame 101, and a belt II 302 is sleeved between the bevel gear shaft II 303 and the latch seat 313. When the clamping assembly drives the connector 4 to descend, the clamping slide seat 310 is firstly pressed on one oblique side of a triangle at one end of the detection rod 314, at the moment, the detection spring II 315 is compressed, the detection rod 314 is far away from the clamping slide seat 310, the sliding of the detection rod 314 pulls the adjusting shaft 316 due to the magnetic attraction effect, therefore, after the adjusting shaft 316 is pulled, the adjusting lug 3161 does not support the active mandril 319 any more, at the moment, under the effect of the reset spring 321, the active mandril 319 is pressed on the adjusting shaft 316, the lock pin 318 is tightly attached to the bolt 317 under the effect of the torsion spring, then the clamping slide seat 310 passes over the detection rod 314, the detection rod 314 begins to slowly reset after the extrusion of the clamping slide seat 310, at the moment, the bolt 317 is inserted into the connector 4, then, along with the completion of the reset of the detection rod 314, the active mandril 319 is supported by the adjusting lug 3161 again, namely, the active mandril 319 pushes the driven mandril 320 to jack 318, the connector 4 is clamped, when the clamping assembly drives the connector 4 to be far away from the bolt 317, at the moment, the connector 4 is not moved by the active mandril 319, the clamping block 311 is not moved, the detection spring I is stretched on the adjusting shaft 316, the lock pin 318 is stretched, the lock pin 314 is tightly attached to the bolt 317, the lock pin is pulled by the other end is pulled by the connector 4, the connector 314 is normally, the connector is pulled, the other end is not contacted with the connector 4, namely, the connector is normally, the connector is pulled by the connector is connected with the connector 4, and is by the connector by the end, and is by the connector, and is connected by the connector, and has the end, and is normally, and has the connector, and has been connected with the connector 4; if the drawing quality of the connector 4 is not qualified, when the adjusting bump 3161 no longer supports the active ejector rod 319, the lock pin 318 cannot be reset due to deformation and damage of the connector 4, and at this time, with the increase of the tension of the detecting spring i 312, the connector 4 will be separated from the clamping block 311, i.e. the clamping assembly is shifted in normal operation, but the connector 4 remains on the plug 317; if the connector 4 cannot be conducted when detected by the detector 109, i.e. the connector 4 is failed, then when the detecting rod 314 is displaced, the magnetic connection between the detecting rod 314 and the adjusting shaft 316 is broken, and at this time, the adjusting shaft 316 cannot move along with the detecting rod 314, i.e. the locking pin 318 always blocks the connector 4, so that the connector 4 is forcibly separated from the clamping block 311, i.e. the clamping assembly is shifted in normal operation, but the connector 4 remains on the locking pin 317. On the other hand, the bevel gear shaft i 210 rotates to drive the bevel gear shaft ii 303, the bevel gear shaft ii 303 rotates the latch seat 313 through the belt ii 302, the unidirectional rotation stroke of the latch seat 313 is smaller than one circle, when the latch seat 313 rotates, the detection rod 314 and the adjusting shaft 316 are still in a magnetic attraction state, namely the driving ejector rod 319 radially slides onto the adjusting shaft 316 along the adjusting projection 3161, if the conduction detection of the connector 4 is not qualified, but the drawing quality is qualified, the locking pin 318 does not clamp the connector 4 after the latch seat 313 rotates, and the connector 4 falls into the defective product collecting box 108 under the action of gravity to be collected; if the drawing quality of the connector 4 is not acceptable, the latch 317 will drive the connector 4 to rotate when the latch seat 313 rotates, but the blanking rod 323 will block the connector 4 but will not block the latch 317, so that the connector 4 will be forcibly stripped from the latch 317 and then fall into the defective product collecting box 108 to be collected due to the action of the blanking rod 323.

Working principle: intermittently dispensing the packing box 105 with the connector 4 on the conveyer belt 104 through the storage box 102, enabling the conveyer belt 104 to run through the conveyer motor 107, transporting the packing box 105 to the position below the clamping assembly, enabling the clamping cylinder 304 to be started when the carrying shaft 215 drives the clamping assembly to contact the connector 4 due to the running of the carrying motor 208, enabling the two clamping sliding seats 310 to clamp the connector 4, enabling the clamping force to be provided by the clamping force spring 307, enabling the carrying shaft 215 to drive the clamping assembly to move upwards, enabling the conveyer belt 104 to stop running, enabling the carrying shaft 215 to rotate ninety degrees, enabling the pin 317 to be inserted into the connector 4 after downward movement is completed, enabling the carrying motor 208 to stop running, enabling the detection cylinder 110 to be started, enabling the detector 109 to conduct detection on the connector 4, enabling the detector 109 to be far away from the connector 4, at this time, the carrying motor 208 continues to operate, the carrying shaft 215 starts to drive the clamping assembly to keep away from the latch seat 313, if the drawing quality of the connector 4 is detected to be qualified and the connection detection is qualified, the clamping assembly will drive the connector 4 to go upward, the connector 4 will be smoothly separated from the latch 317, then turn ninety degrees and then go downward, at this time, the clamping cylinder 304 is reset, so that the clamping block 311 releases the connector 4, at this time, the connector 4 will fall into the original package 105, then the conveying motor 107 continues to operate, so that the conveying belt 104 conveys the original package 105, and conveys a new package 105 to the lower part of the clamping assembly, then the clamping assembly starts to perform a new round of circulation operation, and the detected connector 4 is conveyed to the film sealer 106 along with the package 105, at this time, the film sealer 106 encapsulates the package 105, and then conveys through the conveying belt 104, the packaged package 105 is dropped into the finished product collection box 103 to be collected; on the other hand, if either or both of the conduction detection and the drawing quality detection of the connector 4 are failed, the defective product falls into the defective product collection box 108 to be collected when the latch base 313 rotates.

The present utility model is not limited to the above-described embodiments, and various modifications are possible within the scope of the present utility model without inventive labor, as those skilled in the art will recognize from the above-described concepts.

Claims

1. The utility model provides a RJ connector test equipment for packing, includes underfloor frame (101), fixed connection detects cylinder (110) on underfloor frame (101), detects fixed connection detector (109) on cylinder (110), its characterized in that: the base plate frame (101) is fixedly connected with a carrying component (2), the carrying component (2) is provided with a clamping detection component (3), the clamping detection component (3) comprises a clamping assembly and a detection assembly, the carrying component (2) is used for carrying the connector (4), and the clamping detection component (3) is used for clamping and detecting the connector (4);

the clamping assembly comprises two clamping sliding seats (310), a clamping block (311) is connected to the clamping sliding seats (310) in a sliding manner, a detection spring I (312) is fixedly connected to the clamping block (311), the detection spring I (312) is fixedly connected to the clamping sliding seats (310), and a clamping connector (4) is clamped through the mutual approaching of the two clamping blocks (311); the detection assembly comprises a bolt seat (313), the bolt seat (313) is rotationally connected to a bottom plate frame (101), a plurality of bolts (317) are fixedly connected to the bolt seat (313), a lock pin (318) is rotationally connected to the bolts (317), torsion springs are arranged between the lock pin (318) and the bolts (317), the lock pin (318) is matched with a connector (4), the bolts (317) are in sliding connection with a driving ejector rod (319) and a driven ejector rod (320), the driven ejector rod (320) is respectively matched with the lock pin (318) and the driving ejector rod (319), a reset spring (321) is fixedly connected to the driving ejector rod (319), an adjusting shaft (316) is movably connected to the bolt seat (313), a plurality of adjusting projections (3161) are fixedly connected to the adjusting shaft (316), and the driving ejector rod (319) is matched with the adjusting projections (3161). The detection assembly also comprises a detection rod (314), the detection rod (314) is slidably connected to the bottom plate frame (101), a detection spring II (315) is fixedly connected to the detection rod (314), the detection spring II (315) is fixedly connected to the bottom plate frame (101), one end of the detection rod (314) is magnetically attracted to be connected with the adjusting shaft (316), the section of the other end of the detection rod is triangular, and the clamping sliding seat (310) on the same side is matched with two oblique sides of the triangle.

2. An RJ connector test packaging device according to claim 1, wherein: the clamping assembly further comprises a clamping shell (301), a clamping cylinder (304) is fixedly connected to the clamping shell (301), a push rod (305) is fixedly connected to the clamping cylinder (304), two ends of the push rod (305) are respectively connected with a clamping rod III (322) in a rotating mode, a clamping rod I (306) is connected to the clamping rod III (322) in a sliding mode, a clamping force spring (307) is fixedly connected to the clamping rod I (306), the clamping rod I (306) is connected to a clamping rod II (308) in a rotating mode, the clamping rod II (308) is fixedly connected to a half gear (309), the half gear (309) is connected to the clamping shell (301) in a rotating mode, a clamping slide seat (310) is connected to the clamping shell (301) in a sliding mode, racks are arranged on the clamping slide seat (310), and the half gear (309) is meshed with racks on the clamping slide seat (310) on the same side all the time.

3. An RJ connector test packaging device according to claim 1, wherein: the detection assembly further comprises a bevel gear shaft II (303), the bevel gear shaft II (303) is rotationally connected to the bottom plate frame (101), a belt II (302) is sleeved between the bevel gear shaft II (303) and the bolt seat (313), a blanking rod (323) is fixedly connected to the bottom plate frame (101), and the blanking rod (323) is matched with the connector (4).

4. An RJ connector test pack apparatus as claimed in claim 2, wherein: the utility model provides a transport part (2) including transport support (205), rotate on transport support (205) and connect smooth groove shaft (206), a notch dish (203) of fixed connection is respectively set up on notch dish (203) in chute shaft (206), be provided with two crisscross spouts on smooth groove shaft (206), the both ends of spout link to each other with a notch on two notch dish (203) respectively, sliding connection transport axle (215) on smooth groove shaft (206), transport axle (215) one end rotation is connected with carrier bar (214), fixed connection centre gripping shell (301) on carrier bar (214), the one end sliding connection bevel gear axle (211) of carrier bar (215) other end rotation, bevel gear axle (210) are close to one end sliding connection bevel gear axle I (210) of bevel gear axle (211), bevel gear axle I (210) are rotated and are connected on bottom plate frame (101), bevel gear axle I (210) mesh with bevel gear axle II (303), make carrier bar (214) control centre gripping detection part (3) carry connector (4) through rotating smooth groove shaft (206) and vertical removal.

5. The RJ connector test packaging device of claim 4, wherein: two notches on notch dish (203) mutually perpendicular, transport support (205) on rotate and connect regulation pole (212), regulation pole (212) rotate and connect on adjusting ring (213), transport pole (214) sliding connection is on adjusting ring (213).

6. The RJ connector test packaging device of claim 4, wherein: the base plate frame (101) on rotate and connect drive arc pole (202), fixed connection drives straight-bar (204) on drive arc pole (202), drive straight-bar (204) mutually perpendicular, drive straight-bar (204) and spout on spout axle (206) form the cooperation, drive arc pole (202) and notch on notch dish (203) form the cooperation, fixed connection transport motor (208) on base plate frame (101), cover between drive dish (201) and transport motor (208) establishes belt I (207).

7. The RJ connector test packaging device of claim 6, wherein: the driving arc rod (202) on fixed connection driving disc (201), be provided with closed-loop chute on driving disc (201), bottom plate frame (101) on rotate and connect toggle rod (209), the one end sliding connection of toggle rod (209) is on toggle ring (211), the other end sliding connection is in the closed-loop chute on driving disc (201).

8. An RJ connector test packaging device according to claim 1, wherein: the utility model provides a floor frame (101) on set up the cover and be equipped with conveyer belt (104), conveyer motor (107) fixed connection is on floor frame (101), conveyer motor (107) are used for driving conveyer belt (104), floor frame (101) on fixed connection magazine (102), magazine (102) are used for intermittent type to put in packing carton (105), packing carton (105) are used for loading connector (4), floor frame (101) on be provided with and seal membrane ware (106), seal membrane ware (106) are used for encapsulating packing carton (105), be provided with finished product collection box (103), defective products collection box (108) on floor frame (101), finished product collection box (103) are used for collecting qualified connector (4), defective products collection box (108) are used for collecting unqualified connector (4).

9. A method of RJ connector test packaging using the apparatus of any one of claims 1-8, comprising the steps of:

firstly, putting a packing box (105) loaded with connectors (4) through a storage box (102), transporting the packing box to a preset position by a conveyer belt (104), clamping the connectors (4) through a clamping assembly, and controlling the clamping assembly to carry the connectors (4) through a carrying component (2);

step two, after the connector (4) is conveyed to a detection position, starting a detection cylinder (110) to enable a detector (109) to conduct detection on the connector (4), and detecting the drawing quality of the connector (4) through a detection assembly after the conducting detection is completed;

and thirdly, after the drawing quality detection is finished, the carrying component (2) controls the clamping component to put the connector (4) in the original packaging box (105), and then the connector is packaged by the film sealing device (106).