CN116851299B - Test device for router - Google Patents

Abstract

The invention relates to the technical field of testing devices, in particular to a testing device which comprises an operation table, a material conveying conveyor belt and an electric cylinder, wherein the operation table is provided with a table top, one side of the table top is provided with the material conveying conveyor belt, one side of the material conveying conveyor belt is provided with the electric cylinder, and an operation frame is arranged above the material conveying conveyor belt; the invention can not only enable the plug to complete the function of electrically connecting and testing the interface of the router to be tested, but also synchronously drive the positioning and clamping module to calibrate and clamp the position of the router to be tested through the power transmission of the linkage rod, and complete the process of positioning and clamping the router and testing the connecting interface at one time; and can carry out classification to qualified router and unqualified router automatically, can carry unqualified router to unqualified article transport station from detecting the station through location centre gripping module cooperation transport module, improved detection efficiency, also reduced tester's intensity of labour.

Description

Test device for router

Technical Field

The invention relates to the technical field of testing devices, in particular to a testing device for a router.

Background

The industrial grade router is an internet of things wireless communication router, and can transmit network signals to only required ports. The gateway may translate standard ethernet and industrial ethernet protocols, wireless and wired interfaces, or ethernet and fieldbus communication protocols. Processor performance is from 200 to 1500 MIPS or more, with on-chip memory capacity typically greater than 256 KB level two caches. The factory automation equipment has a firm structure, is suitable for a severe industrial environment without fan cooling, and is specially used for data transmission equipment in the industrial field.

After the industrial router is manufactured, various tests before delivery, such as a circuit communication test, a signal strength test and the like, are required to be carried out, the test of the router in the prior art is generally carried out manually, a tester needs to manually plug a communication connector, a power plug and the like, the position of the router to be tested is adjusted and fixed, the industrial router is large in general volume and mass, the labor intensity is certainly increased by manual operation, the manual plug connector is easy to skew, the plug connector is damaged, and the detection result may have errors and is inaccurate.

The Chinese patent with publication number CN109672592A discloses a router test fixture, which comprises a base, a bearing plate, a plug-in mechanism and a test antenna assembly, wherein the bearing plate is arranged on the base and is suitable for loading a router to be tested and can slide between a first position and a second position along the front-back direction; the plugging mechanism is arranged on the base and is used for plugging or unplugging the communication connector into or out of the communication interface on the router to be tested when the bearing plate is positioned at the first position, and plugging or unplugging the power connector into or out of the power interface on the router to be tested. The router test jig provided by the embodiment of the invention can realize automatic test and improve the test efficiency; but this patent may also have the following problems:

(1) The automatic feeding and automatic limiting functions of the router cannot be realized, the weight of the industrial router is large, a tester is required to manually take materials up and down, the detection efficiency is not improved, and the labor intensity of the tester is also increased.

(2) In the testing process, automatic positioning connection of the router interface and the plug cannot be realized synchronously, and positioning clamping of the router needs to be completed manually.

(3) After the router is tested, the router needs to be manually disassembled in an auxiliary way, and qualified and unqualified routers cannot be automatically classified and conveyed, so that the router is not beneficial to rapid test of the router function.

Accordingly, there is a need to provide an apparatus for automatic testing and classification of routers to overcome the above-mentioned problems.

Disclosure of Invention

Aiming at the problems that automatic positioning connection of a router interface and a plug connector cannot be synchronously realized, manual auxiliary operation is needed, qualified and unqualified routers cannot be automatically classified and conveyed and the like in the prior art, the invention provides a testing device for routers.

The technical scheme adopted for solving the technical problems is as follows: the utility model provides a testing arrangement for router, includes operation panel, defeated material conveyer belt and electronic jar, the operation panel is provided with the mesa, mesa one side is provided with defeated material conveyer belt, defeated material conveyer belt one side is provided with electronic jar, defeated material conveyer belt top is provided with the operation panel, operation panel one side is connected with the plug wire test module, and the operation panel opposite side is provided with the transport module, the output shaft transmission of electronic jar is connected in the plug wire test module, the transport module middle part is provided with location centre gripping module; the conveying module can enable the positioning clamping module to slide along the threaded rod through the power of the motor; the plug wire testing module is assembled to be pushed by the electric cylinder to push the sliding plug wire assembly to an interface of the router to be tested for electrical connection test; the linkage rod is arranged in a way that one end of the linkage rod is fixedly connected with the output shaft of the electric cylinder and the plug wire testing module, and the other end of the linkage rod is connected with the positioning and clamping module through a clamping column in a transmission way; the positioning clamping module is assembled to calibrate and clamp the position of the router to be tested by driving the parallelogram assembly arranged at the bottom of the fixed block to synchronously rotate, and the clamping plate assembly arranged at one side of the electric telescopic module limits the sliding of the sliding toothed plate to assist the parallelogram assembly to clamp the router to be tested, and the positioning clamping module is matched with the conveying module to convey the unqualified router from the detection station to the unqualified product conveying station; the parallelogram assembly is assembled to assist the plug wire testing module to position the interface of the router to be tested, so that the plug connector in the plug wire testing module can be accurately inserted into the interface of the router to be tested, and the two second connecting rods of the parallelogram assembly are always parallel; cardboard subassembly, including the lug, the lug is fixed in electric flexible module's stiff end and keeps away from defeated material conveyer belt one side, and lug middle part sliding connection has the traveller, and the traveller upper end sets up to spacing end, and traveller bottom mounting has the fixture block, be provided with thrust spring between fixture block and the lug, thrust spring cup joints in the traveller, and the fixture block bottom has been seted up and has gone up the latch, spacing through-hole has been seted up to the position that the fixed block is located the fixture block under, lug sliding connection is in spacing through-hole, and has seted up down the latch at slip pinion rack top, lower latch and last latch assorted.

Preferably, the conveying module comprises a conveying frame, a threaded rod and a motor, one end of the conveying frame is fixedly connected to the side wall of the operating frame, the other end of the conveying frame is fixed to the table top, the side wall of one end of the conveying frame, which is fixed to the table top, is fixed with the motor, the output end of the motor is fixed with the threaded rod, one end of the threaded rod is rotationally connected to the inner wall of the conveying frame, the other end of the threaded rod is rotationally connected to the side wall of the operating frame, and a defective product conveying belt is arranged below the conveying frame.

Preferably, the location centre gripping module includes electric flexible module, slip pinion rack, fixed block and parallelogram subassembly, the stiff end threaded connection at electric flexible module top is in the threaded rod, and electric flexible module and carriage sliding connection, and electric flexible module's flexible end fixedly connected with fixed block, fixed block bottom middle part is provided with the joint spout, the inside slip joint of joint spout has the slip pinion rack, and the joint groove has been seted up to slip pinion rack one end bottom, and the inside joint of joint groove has the joint post, joint post fixed connection in the gangbar, and slip pinion rack bilateral symmetry and transmission are connected with parallelogram subassembly.

Preferably, the parallelogram assembly comprises a meshing gear, a first connecting rod, a second connecting rod, a tension spring and a third connecting rod; the meshing gear is meshed with the sliding toothed plate, the meshing gear is connected with the fixed block in a gear shaft mode, a first connecting rod is fixed on one side, away from the sliding toothed plate, of the meshing gear, a second connecting rod is connected with one end of the first connecting rod in a shaft mode, a third connecting rod is connected with the middle of the second connecting rod in a shaft mode, the third connecting rod is connected with the fixed block in a shaft mode, away from one end of the second connecting rod, of the second connecting rod in a shaft mode, the shaft joint of the first connecting rod, the second connecting rod, the third connecting rod and the fixed block is constructed into a parallelogram structure, a limiting clamping block is fixed on the side wall, away from one end of the first connecting rod, of the second connecting rod, a plurality of rubber anti-slip assemblies are arranged on the side wall of the limiting clamping block, the rubber anti-slip assemblies are assembled to be stressed and compressible, a tension spring is connected between the third connecting rod and the fixed block in a rotating mode, and the tension spring is assembled to be always in a stretching state.

Preferably, the plug wire testing module comprises a sliding plug wire assembly, a plug wire sliding rail, a connecting sliding rail, a linkage rod and a plug wire sliding groove; the plug wire sliding rails are symmetrically provided with two groups and are connected to the operation frame in a sliding manner, and bolts are arranged on the side walls of the plug wire sliding rails for fastening; sliding connection has the slip plug wire subassembly between two sets of plug wire slide rails, slip plug wire subassembly one side sliding connection has the connection slide rail, the connection slide rail bottom is fixed with the gangbar

Preferably, the sliding plug wire assembly comprises a sliding base which is connected between two groups of plug wire sliding rails in a sliding mode, a fixed cover plate which is fixed at the top of the sliding base through bolts, and a plug connector which corresponds to the interface position of the router to be tested, wherein the plug connector is located between the sliding base and the fixed cover plate, the plug connector is adjusted through loosening bolts above the fixed cover plate, the plug connector is electrically connected to the network tester, limiting blocks are welded at the bottom of the sliding base and the top of the fixed cover plate, and the middle of each limiting block is connected to the connecting sliding rail in a sliding mode.

Preferably, the motor outside is provided with first protection casing, the threaded rod both sides all are provided with the second protection casing, and first protection casing and second protection casing all coupling are in the carriage lateral wall, plug wire test module outside is provided with the third protection casing, third protection casing coupling is in the handling frame lateral wall.

Preferably, the level sensor and the network tester are respectively fixed at the top of the operation frame, the plug connectors in the plug wire testing module are electrically connected to the network tester, and the electric cylinder, the motor, the electric telescopic module, the material conveying conveyor belt, the defective product conveyor belt, the level sensor and the network tester are electrically connected to the signal processor.

The invention has the beneficial effects that:

(1) The test device for the router adopts the matching of the positioning clamping module and the plug wire test module, so that the plug connector can complete the function of electrically connecting and testing the interface of the router to be tested, and synchronously push the positioning clamping module to calibrate and clamp the position of the router to be tested through the power transmission of the linkage rod, thereby completing the process of positioning and clamping the router and testing the connection interface at one time; and the tested routers can be automatically classified and conveyed to the qualified routers and the unqualified routers, and the unqualified routers can be conveyed to the unqualified product conveying station from the detecting station through the positioning clamping module and the conveying module, so that the condition that testers manually distinguish and take materials up and down is avoided, the detecting efficiency is improved, and the labor intensity of the testers is also reduced.

(2) According to the testing device for the router, the parallelogram assembly is adopted, the limiting clamping blocks connected by the two second connecting rods are always parallel and can adapt to routers to be tested of different sizes, additional adjustment is not needed, the positioning of the interfaces of the router by the plug-in connectors can be assisted, the subsequent positioning clamping is not affected even if the router is inclined to a certain extent when conveyed on the conveying conveyor belt, the manual auxiliary steps are reduced, the detection efficiency is improved, and meanwhile, the clamping plate assembly is matched to have the function of grabbing and limiting unqualified routers.

Drawings

The invention will be further described with reference to the drawings and examples.

FIG. 1 is an overall schematic diagram of a test apparatus for a router according to the present invention;

FIG. 2 is a schematic diagram of a structure above a table top of a test device for a router according to the present invention;

fig. 3 is a schematic diagram of acceptable product transportation of a test device for a router according to the present invention;

fig. 4 is a schematic diagram of reject conveyance of a test apparatus for a router according to the present invention;

FIG. 5 is a schematic diagram of a test station of a test apparatus for routers according to the present invention;

FIG. 6 is a bottom view of FIG. 5;

FIG. 7 is a schematic diagram of a reject transport station of a test apparatus for routers according to the present invention;

fig. 8 is a schematic diagram of a connection structure between a plug wire testing module and a positioning and clamping module of a testing device for a router according to the present invention;

FIG. 9 is an enlarged view at A of FIG. 8;

FIG. 10 is a schematic diagram of a connection structure between a transport module and a positioning and clamping module of a test device for a router according to the present invention;

fig. 11 is an enlarged view at B of fig. 10.

In the figure: 00. a router; 1. an operation table; 01. a table top; 2. a material conveying conveyor belt; 3. an operation rack; 4. an electric cylinder; 5. a plug wire testing module; 51. sliding the plug wire assembly; 511. a sliding base; 512. a plug; 513. fixing the cover plate; 514. a limiting block; 52. plug wire sliding rail; 53. the connecting slide rail; 54. a linkage rod; 55. plug wire sliding grooves; 6. positioning and clamping the module; 61. sliding toothed plates; 611. a clamping groove; 62. a fixed block; 63. a parallelogram assembly; 631. a meshing gear; 632. a first link; 633. a second link; 634. a tension spring; 635. a third link; 64. limiting clamping blocks; 641. a rubber anti-slip assembly; 65. a card assembly; 651. a clamping block; 652. a thrust spring; 653. a bump; 654. a spool; 655. an upper latch; 656. limiting through holes; 657. a lower latch; 66. an electric telescopic module; 661. a telescoping end; 67. a clamping column; 68. the clamping chute; 7. defective product conveying belt; 8. a transport module; 81. a carriage; 82. a threaded rod; 83. a motor; 9. a first shield; 10. a second shield; 11. a third shield; 12. a level sensor; 13. a network tester; 14. detecting a station; 15. and a defective product conveying station.

Detailed Description

The invention is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

Examples

As shown in fig. 1-11, the test device for the router comprises an operation table 1, a material conveying conveyor belt 2 and an electric cylinder 4, wherein the operation table 1 is provided with a table top 01, one side of the table top 01 is provided with the material conveying conveyor belt 2, one side of the material conveying conveyor belt 2 is provided with the electric cylinder 4, an operation frame 3 is arranged above the material conveying conveyor belt 2, the operation frame 3 and the electric cylinder 4 are adjacent and are fixed above the table top 01, one side of the operation frame 3 is connected with a plug wire test module 5, the other side of the operation frame 3 is provided with a conveying module 8, an output shaft of the electric cylinder 4 is in transmission connection with the plug wire test module 5, and the middle part of the conveying module 8 is provided with a positioning and clamping module 6; the conveying module 8 can enable the positioning and clamping module 6 to slide along the threaded rod 82 by the power of the motor 83, and can assist the positioning and clamping module 6 in conveying the tested router 00; the plug wire testing module 5 is assembled to be pushed by the electric cylinder 4 to push the sliding plug wire assembly 51 to the interface of the router 00 to be tested for electrical connection so as to facilitate the functional test of the router 00.

In this embodiment, the linkage rod 54 is configured such that one end of the linkage rod is fixedly connected to the output shaft of the electric cylinder 4 and the plug wire testing module 5, and the other end of the linkage rod is connected to the positioning and clamping module 6 through the transmission of the clamping column 67, and through the transmission of the linkage rod 54, the plug wire testing module 5 can complete the function of electrically connecting and testing the interface of the router 00 to be tested, and simultaneously transmit power to push the positioning and clamping module 6 to calibrate and clamp the position of the router 00 to be tested, so that the positioning of the router 00 and the testing effect of the connecting interface are completed at one time; the positioning and clamping module 6 is assembled to perform position calibration and clamping on the router 00 to be tested by driving the parallelogram assembly 63 arranged at the bottom of the fixed block 62 to rotate synchronously, and limits sliding of the sliding toothed plate 61 by the clamping plate assembly 65 arranged at one side of the electric telescopic module 66, so that the auxiliary parallelogram assembly 63 clamps the router 00 to be tested, and the auxiliary parallelogram assembly 63 is matched with the conveying module 8 to convey the unqualified router 00 from the detection station 14 to the unqualified product conveying station 15.

As shown in fig. 5-10, the parallelogram assembly 63 is configured to assist the patch cord testing module 5 in positioning the interface of the router 00 to be tested, so that the plug connector 512 in the patch cord testing module 5 can be accurately inserted into the interface of the router 00 to be tested, and when the parallelogram assembly 63 rotates, the limit clamping blocks 64 connected by the two second connecting rods 633 are always parallel to adapt to routers 00 to be tested with different sizes, and no additional adjustment is needed.

In this embodiment, the conveying module 8 includes a conveying frame 81, a threaded rod 82 and a motor 83, one end of the conveying frame 81 is fixedly connected to the side wall of the operating frame 3, the other end of the conveying frame 81 is fixed to the table top 01, the motor 83 is fixed to the side wall of one end of the conveying frame 81 fixed to the table top 01, the threaded rod 82 is fixed to the output end of the motor 83, one end of the threaded rod 82 is rotatably connected to the inner wall of the conveying frame 81, the other end of the threaded rod 82 is rotatably connected to the side wall of the operating frame 3, and a defective product conveying belt 7 is arranged below the conveying frame 81; the conveying module 8 can convey the router 00 to be detected, the detection result of which is unqualified, to the unqualified product conveying station 15 for classified conveying by matching with the positioning clamping module 6 from the detection station 14, so that automatic classification after detection is realized.

As shown in fig. 8-11, the positioning and clamping module 6 includes an electric telescopic module 66, a sliding toothed plate 61, a fixed block 62 and a parallelogram assembly 63, the fixed end at the top of the electric telescopic module 66 is connected with a threaded rod 82 in a threaded manner, the electric telescopic module 66 is connected with a conveying frame 81 in a sliding manner, a telescopic end 661 of the electric telescopic module 66 is fixedly connected with the fixed block 62, a clamping chute 68 is arranged in the middle of the bottom end of the fixed block 62, the sliding toothed plate 61 is clamped in the clamping chute 68 in a sliding manner, a clamping groove 611 is formed in the bottom of one end of the sliding toothed plate 61, a clamping column 67 is clamped in the clamping groove 611, the clamping column 67 is fixedly connected with a linkage rod 54, the sliding toothed plate 61 is symmetrically and in a transmission manner, the parallelogram assembly 63 is connected with one side, far away from the conveying belt 2, of the electric telescopic module 66, and a clamping plate assembly 65 is arranged.

In the present embodiment, the parallelogram assembly 63 includes an engagement gear 631, a first link 632, a second link 633, a tension spring 634, and a third link 635; the meshing gear 631 is meshed with the sliding toothed plate 61, the meshing gear 631 is axially connected with the fixed block 62, one side, far away from the sliding toothed plate 61, of the meshing gear 631 is fixedly provided with a first connecting rod 632, one end of the first connecting rod 632 is axially connected with a second connecting rod 633, the middle part of the second connecting rod 633 is axially connected with a third connecting rod 635, one end, far away from the second connecting rod 633, of the third connecting rod 635 is axially connected with the fixed block 62, the axial joints of the first connecting rod 632, the second connecting rod 633, the third connecting rod 635 and the fixed block 62 are constructed into a parallelogram structure, the first connecting rod 632 and the third connecting rod 635 always synchronously rotate, one end, far away from the first connecting rod 632, of the second connecting rod 633 is fixedly provided with a limiting clamping block 64, the side wall of the limiting clamping block 64 is provided with a plurality of rubber anti-skid assemblies 641, a tension spring 634 is rotationally connected between the third connecting rod 635 and the fixed block 62, the tension spring 634 is assembled to be always in a stretched state, the first connecting rod 632, the second connecting rod 633 and the third connecting rod 633 can be helped, the third connecting rod 635 and the third connecting rod 635 are restored to an initial state, through the arrangement of the parallelogram assembly 63, even if the subsequent inclination of the router 00 on the conveying belt 2 is enabled, and the subsequent manual positioning is not affected by the subsequent detection step is improved.

In this embodiment, the rubber skid 641 is mounted to be force compressible, and the compressed length of the rubber skid 641 is greater than the depth of the interface of the router 00 to be tested.

As shown in fig. 10 and 11, the clamping plate assembly 65 comprises a clamping block 651, a protruding block 653 is fixed on one side, far away from the conveying belt 2, of the fixed end of the electric telescopic module 66, a sliding column 654 is slidably connected to the middle of the protruding block 653, the upper end of the sliding column 654 is set to be a limiting end, the clamping block 651 is fixed at the bottom end of the sliding column 654, a thrust spring 652 is arranged between the clamping block 651 and the protruding block 653, the thrust spring 652 is sleeved on the sliding column 654, an upper clamping tooth 655 is arranged at the bottom end of the clamping block 651, a limiting through hole 656 is formed in a position, located right below the clamping block 651, of the fixing block 62, the protruding block 653 is slidably connected to the limiting through hole 656, a lower clamping tooth 657 is formed at the top of the sliding toothed plate 61, and the lower clamping tooth 657 is matched with the upper clamping tooth 655; the tested router 00 is limited and assisted by the parallelogram assembly 63 in the clamping module 6 in an assisted positioning way through the clamping plate assembly 65, so that the router 00 is prevented from falling off in the conveying process, and unnecessary damage is caused.

As shown in fig. 5-8, the plug wire testing module 5 includes a sliding plug wire assembly 51, a plug wire sliding rail 52, a connecting sliding rail 53, a linkage rod 54 and a plug wire sliding groove 55; the wire insertion slide rails 52 are symmetrically provided with two groups and are connected to the operation frame 3 in a sliding manner, and the side walls of the wire insertion slide rails are provided with bolts for fastening; a sliding plug wire assembly 51 is slidably connected between the two groups of plug wire sliding rails 52, a connecting sliding rail 53 is slidably connected to one side of the sliding plug wire assembly 51, and a linkage rod 54 is fixed at the bottom of the connecting sliding rail 53.

In this embodiment, the sliding plug wire assembly 51 includes a sliding base 511 slidably connected between two sets of plug wire sliding rails 52, and a fixed cover plate 513 fixed on the top of the sliding base 511 by bolts, and further includes a plug connector 512 corresponding to the interface position of the router 00 to be tested, where the plug connector 512 is located between the sliding base 511 and the fixed cover plate 513, and the position of the plug connector 512 can be adjusted by loosening the bolts above the fixed cover plate 513 so as to cope with routers 00 of different types, and the plug connectors 512 are electrically connected to the network tester 13 to test whether the functions of the router 00 to be tested are normal, the bottom of the sliding base 511 and the top of the fixed cover plate 513 are welded with a limiting block 514, and the middle of the limiting block 514 is slidably connected to the connecting sliding rail 53, so that the height of the sliding plug wire assembly 51 can be conveniently adjusted.

As shown in fig. 1 and 2, the motor 83 is externally provided with a first protection cover 9, two sides of the threaded rod 82 are respectively provided with a second protection cover 10, the first protection cover 9 and the second protection cover 10 are both connected with the side wall of the conveying frame 81 in a shaft mode, the plug wire testing module 5 is externally provided with a third protection cover 11, and the third protection cover 11 is connected with the side wall of the operating frame 3 in a shaft mode for protecting an internal mechanism.

As shown in fig. 4-7, the level sensor 12 and the network tester 13 are respectively fixed on the top of the operation frame 3, the plug connectors 512 in the plug wire testing module 5 are all electrically connected to the network tester 13, and the electric cylinder 4, the motor 83, the electric telescopic module 66, the material conveying conveyor belt 2, the defective product conveyor belt 7, the level sensor 12 and the network tester 13 are all electrically connected to the signal processor for realizing the functions of processing various signals and automatically making corresponding operation steps.

Working principle: when the material conveying belt 2 is used, the routers 00 to be tested are orderly arranged and conveyed to the detection station 14, when the material level sensor 12 detects that the routers 00 to be tested enter the detection station 14, signals are sent to the signal processor, the material conveying belt 2 is controlled to stop rotating, then the output shaft of the electric cylinder 4 is controlled to extend, the linkage rod 54 is pushed, the linkage rod 54 pushes the sliding plug wire assembly 51 to slide along the plug wire sliding groove 55 towards the routers 00 to be tested, meanwhile, the linkage rod 54 drives the clamping column 67 to move into the clamping groove 611 of the sliding toothed plate 61 and pushes the sliding toothed plate 61 to slide along the clamping sliding groove 68 towards the conveying module 8, the sliding toothed plate 61 drives the meshing gear 631 to rotate, the meshing gear 631 drives the first connecting rod 632 to rotate positively, and as the shaft joints of the first connecting rod 632, the second connecting rod 633, the third connecting rod 635 and the fixed block 62 are constructed into a parallelogram structure, the first link 632 and the third link 635 are kept rotating synchronously in the forward direction, the tension spring 634 is gradually pulled to the longest state in the process, the rotation of the first link 632 gradually drives the limit clamping blocks 64 fixed at the end parts of the second link 633 to approach each other, so that the rubber antiskid component 641 gradually contacts and centers the router 00 to be tested, and clamps the router until the router 00 to be tested is positioned at the right center of the two limit clamping blocks 64, at this time, the rubber antiskid component 641 has a certain compression amount, the plug connector 512 in the sliding plug wire component 51 is exactly aligned with the interface of the router 00 to be tested, at this time, the friction force clamped between the router 00 to be tested and the rubber antiskid component 641 is larger than the friction force clamped between the plug connector 512 and the router 00 to be tested when the interface of the router 641 is plugged, and the friction force clamped between the router 00 to be tested and the rubber antiskid component 641 is larger than the gravity of the router itself, the router 00 to be tested is completely centered and limited, then the output shaft of the electric cylinder 4 continues to extend and compress the rubber antiskid assembly 641, the plug connector 512 in the sliding plug wire assembly 51 is inserted into the interface of the router 00 to be tested, then the network tester 13 starts to work, and functions of circuit communication test, signal strength test and the like of the router 00 to be tested are tested and signals are transmitted to the signal processor.

If the detection result of the router 00 to be detected is qualified, as shown in fig. 2, 3, 5 and 6, the signal processor controls the output shaft of the electric cylinder 4 to shorten and drives the linkage rod 54 to gradually restore to the original position and drive the plug connector 512 in the sliding plug wire assembly 51 to pull out the interface of the router 00 to be detected, the tension spring 634 in the parallelogram assembly 63 shortens and pulls the third link 635 to reversely rotate, and due to the existence of the parallelogram structure, the first link 632 and the third link 635 keep synchronously reversely rotating and drive the second link 633 to move towards the direction close to the conveying module 8 and gradually loosen the router 00 until the second link 633 no longer influences the movement of the router 00 along with the conveying belt 2, and when the electric cylinder 4 returns to the original state, the signal processor controls the conveying belt 2 to convey the detected qualified router 00 away from the detecting station 14, and simultaneously, the next router 00 to be detected moves to the detecting station 14.

(II) if the detection result of the router 00 to be detected is not qualified, as shown in FIG. 4 and FIG. 7, the signal processor controls the output shaft of the electric cylinder 4 to be shortened to the point that the plug connector 512 pulls out the interface of the router 00 to be detected, at this time, the compression amount of the rubber anti-slip assembly 641 is reduced, but the friction force clamped between the router 00 to be detected and the rubber anti-slip assembly 641 can still overcome the gravity of the friction force, then the signal processor controls the electric telescopic module 66 to be shortened, the telescopic end 661 of the electric telescopic module slides towards the inside of the fixed end and drives the fixed block 62 and the sliding toothed plate 61 to move upwards, the fixed block 62 moves upwards to enable the limiting through hole 656 to slide along the clamping block 651 and simultaneously move upwards the sliding toothed plate 61, the clamping column 67 slides along the clamping groove 611 arranged at the bottom of the sliding toothed plate 61 and finally breaks away from the clamping groove 611, and when the clamping groove 611 and the clamping column 67 are not completely broken, the upper clamping tooth 655 and the lower clamping tooth 657 are completely clamped, when the clamping groove 611 and the clamping post 67 are completely separated, the signal processor controls the output shaft of the electric cylinder 4 to be continuously shortened and restored to the original position, the thrust spring 652 is compressed to be the shortest, in the process, as the friction force clamped between the router 00 to be tested and the rubber antiskid component 641 is always larger than the gravity of the friction force, the failed router 00 can be driven to move upwards by the parallelogram component 63, when the electric telescopic module 66 is shortened to the shortest, the signal processor controls the motor 83 to drive the threaded rod 82 to rotate forwards, then the fixed end of the electric telescopic module 66 can convey the failed router 00 from the detection station 14 to the failed product conveying station 15 along the conveying frame 81, after the failed router 00 reaches the failed product conveying station 15, the signal processor controls the electric telescopic module 66 to stretch to drive the fixed block 62 and the sliding toothed plate 61 to move downwards, until the upper latch 655 and the lower latch 657 gradually separate from the clamping state, then the tension spring 634 in the parallelogram assembly 63 shortens and pulls the third link 635 to reversely rotate, the first link 632 and the third link 635 keep synchronously reversely rotating due to the existence of the parallelogram structure, the second link 633 is driven to move away from the failed router 00 and gradually loosen the failed router 00, the clamping force borne by the failed router 00 is gradually reduced due to the arrangement of the rubber anti-skid assembly 641, the failed router 00 can slowly slide down to the failed conveyor belt 7, the length of the failed router 00 is gradually shortened to the original length after the electric telescopic module 66 is prolonged to the longest, meanwhile, the failed conveyor belt 7 is controlled to convey the failed router 00 to the manual detection station 14 or the recovery station for reinspection, and then the threaded rod 82 reversely rotates to drive the positioning clamping module 6 to return to the detection station 14 for the next operation.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the foregoing examples, and that the foregoing description and description are merely illustrative of the principles of this invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. The utility model provides a testing arrangement for router, includes operation panel (1), defeated material conveyer belt (2) and electronic jar (4), operation panel (1) is provided with mesa (01), mesa (01) one side is provided with defeated material conveyer belt (2), defeated material conveyer belt (2) one side is provided with electronic jar (4), defeated material conveyer belt (2) top is provided with operation panel (3), operation panel (3) one side is connected with plug wire test module (5), and operation panel (3) opposite side is provided with transport module (8), the output shaft transmission of electronic jar (4) is connected in plug wire test module (5), its characterized in that: a positioning and clamping module (6) is arranged in the middle of the conveying module (8);

a conveying module (8) capable of enabling the positioning and clamping module (6) to slide along the threaded rod (82) by the power of the motor (83);

the plug wire testing module (5) is assembled to be pushed by the electric cylinder (4) to push the sliding plug wire assembly (51) to the interface of the router (00) to be tested for electrical connection test;

the linkage rod (54) is arranged in a way that one end of the linkage rod is fixedly connected with the output shaft of the electric cylinder (4) and the plug wire testing module (5), and the other end of the linkage rod is connected with the positioning clamping module (6) in a transmission way through the clamping column (67);

the positioning clamping module (6) is assembled to calibrate and clamp the position of the router (00) to be tested by driving the parallelogram assembly (63) arranged at the bottom of the fixed block (62) to synchronously rotate, and limits the sliding of the sliding toothed plate (61) by the clamping plate assembly (65) arranged at one side of the electric telescopic module (66), the parallelogram assembly (63) is assisted to clamp the router (00) to be tested, and the failed router (00) can be conveyed from the detection station (14) to the failed article conveying station (15) by the matching conveying module (8);

the parallelogram assembly (63) is assembled to assist the plug wire testing module (5) to position the interface of the router (00) to be tested, so that the plug connector (512) in the plug wire testing module (5) is accurately inserted into the interface of the router (00) to be tested, and the two second connecting rods (633) of the parallelogram assembly (63) are always parallel;

cardboard subassembly (65), including lug (653), lug (653) are fixed in the stiff end of electric telescopic module (66) and keep away from defeated material conveyer belt (2) one side, lug (653) middle part sliding connection has traveller (654), and traveller (654) upper end sets up to spacing end, and traveller (654) bottom mounting has fixture block (651), be provided with thrust spring (652) between fixture block (651) and lug (653), thrust spring (652) cup joint in traveller (654), and last latch (655) have been seted up to fixture block (651) bottom, spacing through-hole (656) have been seted up in the position that fixed block (62) are located fixture block (651) under, lug (653) sliding connection is in spacing through-hole (656), and lower latch (657) have been seted up at slip pinion (61) top, lower latch (657) and last latch (655) phase-match.

2. A test apparatus for a router according to claim 1, wherein: transport module (8) are including carriage (81), threaded rod (82) and motor (83), carriage (81) one end fixed connection is in handling frame (3) lateral wall, and carriage (81) other end is fixed in mesa (01), and carriage (81) are fixed with motor (83) in mesa (01) one end lateral wall, motor (83) output is fixed with threaded rod (82), threaded rod (82) one end rotates to be connected in carriage (81) inner wall, and threaded rod (82) other end rotates to be connected in handling frame (3) lateral wall, carriage (81) below is provided with defective products conveyer belt (7).

3. A test apparatus for a router according to claim 2, wherein: the positioning clamping module (6) comprises an electric telescopic module (66), a sliding toothed plate (61), a fixed block (62) and a parallelogram assembly (63), the fixed end at the top of the electric telescopic module (66) is connected with a threaded rod (82) through threads, the electric telescopic module (66) is connected with a conveying frame (81) in a sliding mode, the telescopic end (661) of the electric telescopic module (66) is fixedly connected with the fixed block (62), a clamping sliding groove (68) is formed in the middle of the bottom end of the fixed block (62), the sliding toothed plate (61) is connected with the sliding clamping inside the clamping sliding groove (68), a clamping groove (611) is formed in one end bottom of the sliding toothed plate (61), a clamping column (67) is connected to a linkage rod (54) through threads, and the sliding toothed plate (61) is symmetrically and in a transmission mode and is connected with the parallelogram assembly (63).

4. A test apparatus for a router according to claim 3, wherein: the parallelogram assembly (63) comprises a meshing gear (631), a first link (632), a second link (633), a tension spring (634) and a third link (635); the meshing gear (631) is meshed in the sliding toothed plate (61), and meshing gear (631) is connected with the fixed block (62) in an axis mode, one side of the meshing gear (631) away from the sliding toothed plate (61) is fixed with a first connecting rod (632), one end of the first connecting rod (632) is connected with a second connecting rod (633) in a shaft mode, the middle part of the second connecting rod (633) is connected with a third connecting rod (635) in a shaft mode, one end of the third connecting rod (635) away from the second connecting rod (633) is connected with the fixed block (62) in a shaft joint mode, the first connecting rod (632), the second connecting rod (633), the third connecting rod (635) and the fixed block (62) are constructed into a parallelogram structure, one end side wall of the second connecting rod (633) away from the first connecting rod (632) is fixed with a limiting clamping block (64), the side wall of the limiting clamping block (64) is provided with a plurality of rubber anti-skid assemblies (641), the rubber anti-skid assemblies (634) are assembled to be stressed and compressible, the springs (634) are assembled between the third connecting rod (635) and the fixed block (62) in a pulling force mode, and the springs (634) are assembled to be always in a pulling state.

5. A test apparatus for a router according to claim 3, wherein: the plug wire testing module (5) comprises a sliding plug wire assembly (51), a plug wire sliding rail (52), a connecting sliding rail (53), a linkage rod (54) and a plug wire sliding groove (55); the plug wire sliding rails (52) are symmetrically provided with two groups and are connected to the operation frame (3) in a sliding manner, and bolts are arranged on the side walls of the plug wire sliding rails for fastening; a sliding plug wire assembly (51) is slidably connected between the two groups of plug wire sliding rails (52), a connecting sliding rail (53) is slidably connected to one side of the sliding plug wire assembly (51), and a linkage rod (54) is fixed to the bottom of the connecting sliding rail (53).

6. A test apparatus for a router as claimed in claim 5, wherein: the utility model provides a plug wire subassembly (51) is including sliding connection in sliding base (511) between two sets of plug wire slide rail (52) to and fixed apron (513) at sliding base (511) top by the bolt fastening, still include plug connector (512) corresponding with the interface position of router (00) await measuring, plug connector (512) are located between sliding base (511) and fixed apron (513), and plug connector (512) position accessible is not hard up bolt of fixed apron (513) top and is adjusted, and plug connector (512) all electric connection in network tester (13), sliding base (511) bottom and fixed apron (513) top all weld stopper (514), stopper (514) middle part sliding connection is in connecting slide rail (53).

7. A test apparatus for a router according to claim 3, wherein: the utility model discloses a plug wire test module, including motor (83) outside, threaded rod (82) both sides all are provided with first protection casing (9), and first protection casing (9) and second protection casing (10) all coupling are in carriage (81) lateral wall, plug wire test module (5) outside is provided with third protection casing (11), third protection casing (11) coupling is in handling frame (3) lateral wall.

8. A test apparatus for a router as claimed in claim 7, wherein: the utility model discloses a wire insertion testing device, including handling frame (3), wire insertion testing module, signal processor, electric jar (4), motor (83), electric telescopic module (66), material conveying conveyer belt (2), defective products conveyer belt (7), material level sensor (12) and network tester (13), be fixed with material level sensor (12) and network tester (13) respectively at handling frame (3) top, plug (512) in wire insertion testing module (5) are all electric connection in network tester (13), and electric telescopic module (66), material conveying conveyer belt (7), material level sensor (12) and network tester (13) are all electric connection to signal processor.