CN115941532A

CN115941532A - System for testing multiple wireless routers

Info

Publication number: CN115941532A
Application number: CN202211557201.2A
Authority: CN
Inventors: 胡均
Original assignee: Boatek Ji'an Electronic Co ltd
Current assignee: Boatek Ji'an Electronic Co ltd
Priority date: 2022-12-06
Filing date: 2022-12-06
Publication date: 2023-04-07
Anticipated expiration: 2042-12-06

Abstract

The invention discloses a system for testing a plurality of wireless routers, which relates to the technical field of wireless router testing and comprises a conveyor belt, wherein a plurality of wireless routers to be tested are placed on the top of the conveyor belt, a frame assembly is sleeved on the outer side of the conveyor belt, a coupling module is fixedly arranged on the top of the inner side of the frame assembly, a driving mechanism is arranged at the bottom of the inner side of the frame assembly, a lifting clamping mechanism is arranged on the top of the driving mechanism, a lifting type plugging mechanism is arranged on the top of the inner side of the frame assembly, the lifting type plugging mechanism is positioned right above the lifting clamping mechanism, and a connecting plug is fixedly arranged on the lifting type plugging mechanism. The invention can automatically convey, position, connect and output the wireless router to be tested, thereby reducing the operation difficulty and saving the labor, and simultaneously avoiding the limitation of the manual operation speed, thereby improving the test efficiency of the wireless router to be tested.

Description

System for testing multiple wireless routers

Technical Field

The invention relates to the technical field of wireless router testing, in particular to a system for testing a plurality of wireless routers.

Background

At the present stage of price rise tide of electronic components, how to improve the production efficiency and reduce the cost in the production test is a problem that all manufacturers must consider, and the WiFi production test of the traditional wireless router comprises two parts: and (3) board testing and final testing, wherein the board testing items are mainly index tests such as receiving sensitivity, transmitting power, frequency spectrum, frequency deviation and the like, and the final testing items are mainly WiFi throughput tests.

The invention patent of the publication number CN 108271188B discloses a system and a method for testing WiFi performance of a wireless router. The host computer is used for the wireless router that electric connection waited to detect, carries out signal interaction through wireless router, coupling module and wireless signal transceiver module to carry out wiFi throughput test, still be used for carrying out signal interaction through wireless router and coupling module and wireless tester, thereby carry out sensitivity of reception, transmitting power, frequency spectrum and frequency offset test. The fixed jig comprises a wireless router fixing position and a coupling module fixing position and is used for ensuring that the distance between the wireless router and the coupling module is consistent when the wireless router and the coupling module are tested each time. The test system can be used for carrying out board test and final test on the WiFi performance of the wireless router by using one station in actual production test, improves the production efficiency, reduces the labor cost and ensures the space attenuation consistency in batch test of the wireless router.

However, the above test system still has some disadvantages in actual use, and what is more obvious is that when the actual test is performed on the wireless router to be tested, although the wireless router can be fixed by using the fixing jig, the installation, connection and detachment operations of the wireless router to be tested need to be manually repeated during each operation, so that the labor is excessively wasted while a certain operation difficulty exists, and in addition, the test efficiency of the wireless router to be tested cannot be further improved due to the limitation of the speed of manual operation.

Therefore, it is necessary to invent a system for testing a plurality of wireless routers to solve the above problems.

Disclosure of Invention

The present invention is directed to a system for testing a plurality of wireless routers, so as to solve the problems in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: a system for testing a plurality of wireless routers comprises a conveyor belt, wherein a plurality of wireless routers to be tested are placed on the top of the conveyor belt, a frame assembly is sleeved on the outer side of the conveyor belt, a coupling module is fixedly arranged at the top of the inner side of the frame assembly, a driving mechanism is arranged at the bottom of the inner side of the frame assembly, a lifting clamping mechanism is arranged at the top of the driving mechanism, a lifting type inserting mechanism is arranged at the top of the inner side of the frame assembly and is located right above the lifting clamping mechanism, and a connecting plug is fixedly arranged on the lifting type inserting mechanism;

the coupling module is connected with a power distribution module through a wire, the connecting end of the power distribution module is respectively provided with a wireless tester and an attenuation module, the connecting end of the attenuation module is provided with a wireless signal receiving and transmitting module, and the output end of the connecting plug is connected with an upper computer.

Preferably, the frame assembly includes a base, a top plate, side plates, a lower guide chute and an upper guide chute.

Preferably, the base is located the conveyer belt below, the roof is located the conveyer belt top, the curb plate is provided with two, two the curb plate is located conveyer belt front side and rear side respectively, two the curb plate all fixed set up in the base top, and all with roof fixed connection, the spout that leads down is provided with four, it is provided with two, four to go up the spout that leads the spout and set up respectively in two curb plate inner wall both sides, two go up the spout that leads and set up respectively on two curb plate inner walls.

Preferably, the driving mechanism comprises a driving motor, a flywheel and a convex part;

the driving motor is fixedly arranged on the rear side of the adjacent side plate, the flywheel is in transmission connection with the driving motor, and the convex part is fixedly arranged at the bottom of the flywheel.

Preferably, the lifting clamping mechanism comprises an installation block, a sliding rod, a first lifting plate, a first sliding chute, a clamping plate and a first guide sliding rod.

Preferably, the installation piece all is provided with two, two with the slide bar the installation piece all is connected between two curb plates, two the slide bar slides respectively and runs through and sets up on two installation pieces, first lifter plate is located two installation piece tops, and fixed cup joints set up in two slide bar outsides, the lifting plate is fixed to be set up in two slide bar tops, first spout, grip block and first direction slide bar all are provided with four, four first spout is seted up respectively in lifting plate top four corners, four the grip block slides respectively nestedly and sets up in four first spout inboards, four first direction slide bar is fixed respectively and sets up in one side of the adjacent curb plate of four grip blocks, four first direction slide bar slides respectively and sets up in four down direction spout inboards.

Preferably, over-and-under type grafting mechanism includes second lifter plate, guide bar, limiting plate, second spout, sliding block, second direction slide bar, extension rod and reset spring.

Preferably, the second lifter plate is located directly over the conveyer belt, the guide bar all is provided with two, two with the limiting plate the guide bar is fixed respectively and sets up in second lifter plate top both sides, and all runs through the roof and with roof sliding connection, two the limiting plate is fixed respectively and sets up in two guide bar tops, the second spout is seted up in second lifter plate top, the sliding block slides nestedly and sets up in the second spout is inboard, connector plug is fixed to run through and sets up in sliding block side bottom, the fixed top that runs through of second direction slide bar sets up in the sliding block, the second direction slide bar both ends slide respectively and set up in two on the spout inboardly, the extension rod slides to run through and sets up in second lifter plate right side, and with sliding block fixed connection, reset spring cup joints and sets up in the extension rod outside, reset spring one end and second spout inner wall fixed connection and the other end and sliding block fixed connection.

The invention also provides a method for testing a plurality of wireless routers, which comprises the following steps:

s1, conveying a plurality of wireless routers to be tested by using a conveyor belt, and starting a driving motor when the wireless routers to be tested move to the position above a lifting plate under the driving of the conveyor belt;

s2, driving a flywheel to rotate after a driving motor is started, lifting a first lifting plate by the flywheel, driving the lifting plate to be synchronously lifted by a sliding rod when the first lifting plate is lifted, contacting the lifting plate with a wireless router to be tested right above the lifting plate when the lifting distance of the lifting plate reaches a first threshold value, and supporting the wireless router to be tested by a conveyor belt in the subsequent continuous lifting process so as to drive the wireless router to be tested to be synchronously lifted;

s3, when the lifting plate rises, the clamping plates are driven to rise synchronously, when the clamping plates rise, the first guide slide bar is driven to rise synchronously, at the moment, the lower guide sliding groove limits the first guide slide bar, at the moment, the four clamping plates move inwards from two sides respectively, and then the wireless router to be tested positioned at the top of the lifting plate is clamped and positioned;

s4, when the ascending distance of the lifting plate reaches a second threshold value, the top of the wireless router to be tested is in contact with the bottom of the second lifting plate, the wireless router to be tested pushes the second lifting plate upwards in the process that the subsequent lifting plate continues to ascend, the sliding block is driven to ascend synchronously in the ascending process of the second lifting plate, and the second guide sliding rod drives the sliding block to move horizontally leftwards in the ascending process of the sliding block under the limitation of the upper guide sliding groove;

s5, when the ascending distance of the lifting plate reaches a second threshold value, the sliding block drives the connecting plug to be inserted into a slot on the wireless router to be tested to realize connection, then the upper computer performs signal interaction with the wireless signal receiving and sending module through the wireless router to be tested and the coupling module so as to perform Wi Fi throughput testing, and performs signal interaction with the wireless tester through the wireless router to be tested and the coupling module so as to perform receiving sensitivity, transmitting power, frequency spectrum and frequency deviation testing;

and S6, after the test is completed, under the driving of the flywheel, the second lifting plate and the lifting plate successively descend and reset, the sliding block drives the connecting plug to move out of the slot on the wireless router to be tested in the resetting process of the second lifting plate, the wireless router to be tested after the test is completed falls on the top of the conveyor belt and is output by the conveyor belt, and when the subsequent wireless router to be tested which is not tested moves to the position above the lifting plate, the operation is repeated, and then the test is performed again.

The invention has the technical effects and advantages that:

according to the invention, the frame assembly, the driving mechanism, the lifting clamping mechanism and the lifting type plugging mechanism are arranged, so that when the driving mechanism drives the lifting clamping mechanism to ascend, the lifting clamping mechanism supports the wireless router to be tested from the conveyor belt, and positions the wireless router to be tested under the limitation of the frame assembly, and then lifts the lifting type plugging mechanism by using the wireless router to be tested, the lifting type plugging mechanism completes the connection of the connecting plug and the wireless router to be tested under the limitation of the frame assembly in the lifting process, so that the detection of the wireless router to be tested is realized, the subsequent driving mechanism drives the lifting type plugging mechanism and the lifting clamping mechanism to reset in sequence, and further the detected wireless router to be tested can be output by the conveyor belt.

Drawings

Fig. 1 is an overall front sectional structural view of the present invention.

Fig. 2 is a schematic top view of the conveyor belt and the router under test according to the present invention.

Fig. 3 is a front sectional structural schematic view of the frame assembly of the present invention.

FIG. 4 is a front cross-sectional structural view of the lifting fixture of the present invention.

Fig. 5 is a schematic front sectional structure view of the lifting type plugging mechanism of the present invention.

In the figure: 1. a conveyor belt; 2. a wireless router to be tested; 3. a frame assembly; 31. a base; 32. a top plate; 33. a side plate; 34. a lower guide chute; 35. an upper guide chute; 4. a coupling module; 5. a drive mechanism; 51. a flywheel; 52. a convex portion; 6. lifting the clamping mechanism; 61. mounting blocks; 62. a slide bar; 63. a first lifter plate; 64. lifting the plate; 65. a first chute; 66. a clamping plate; 67. a first guide slide bar; 7. a lifting type inserting mechanism; 71. a second lifter plate; 72. a guide bar; 73. a limiting plate; 74. a second chute; 75. a slider; 76. a second guide slide bar; 77. an extension rod; 78. a return spring; 8. and connecting a plug.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Example 1

The invention provides a system for testing a plurality of wireless routers, which comprises a conveyor belt 1, wherein a plurality of wireless routers 2 to be tested are placed on the top of the conveyor belt 1, a frame component 3 is sleeved on the outer side of the conveyor belt 1, a coupling module 4 is fixedly arranged on the top of the inner side of the frame component 3, a driving mechanism 5 is arranged at the bottom of the inner side of the frame component 3, a lifting clamping mechanism 6 is arranged on the top of the driving mechanism 5, a lifting insertion mechanism 7 is arranged on the top of the inner side of the frame component 3, the lifting insertion mechanism 7 is positioned right above the lifting clamping mechanism 6, and a connecting plug 8 is fixedly arranged on the lifting insertion mechanism 7;

the coupling module 4 is connected with a power distribution module through a wire, the connecting end of the power distribution module is respectively provided with a wireless tester and an attenuation module, the connecting end of the attenuation module is provided with a wireless signal receiving and transmitting module, and the output end of the connecting plug 8 is connected with an upper computer.

As shown in fig. 3, the frame assembly 3 includes a base 31, a top plate 32, two side plates 33, two lower guide sliding grooves 34, and two upper guide sliding grooves 35, wherein the base 31 is located below the conveyor belt 1, the top plate 32 is located above the conveyor belt 1, the two side plates 33 are provided with two, two the side plates 33 are respectively located on the front side and the rear side of the conveyor belt 1, two the side plates 33 are all fixedly arranged on the top of the base 31 and are all fixedly connected with the top plate 32, the four lower guide sliding grooves 34 are provided with four, the two upper guide sliding grooves 35 are provided with two, four the lower guide sliding grooves 34 are respectively arranged on two inner walls of the side plates 33, and two upper guide sliding grooves 35 are respectively arranged on two inner walls of the side plates 33.

As shown in fig. 3, the driving mechanism 5 includes a driving motor, a flywheel 51 and a protrusion 52, wherein the driving motor is fixedly disposed at the rear side of the adjacent side plate 33, the flywheel 51 is in transmission connection with the driving motor, and the protrusion 52 is fixedly disposed at the bottom of the flywheel 51.

With the above configuration, the driving motor drives the flywheel 51 to rotate the flywheel 51, and the rotation of the flywheel 51 drives the protrusions 52 to move synchronously.

As shown in fig. 4, the lifting clamping mechanism 6 includes two mounting blocks 61, two sliding rods 62, two first lifting plates 63, two lifting plates 64, two first sliding grooves 65, two clamping plates 66 and two first guide sliding rods 67, wherein the two mounting blocks 61 and the two sliding rods 62 are both connected between the two side plates 33, the two sliding rods 62 are respectively slidably disposed on the two mounting blocks 61 in a penetrating manner, the first lifting plates 63 are disposed on the tops of the two mounting blocks 61 and fixedly sleeved on the outer sides of the two sliding rods 62, the lifting plates 64 are fixedly disposed on the top ends of the two sliding rods 62, the four first sliding grooves 65, the four clamping plates 66 and the four first guide sliding rods 67 are respectively disposed at four corners of the tops of the lifting plates 64, the four clamping plates 66 are respectively slidably nested inside the four first sliding grooves 65, the four first guide sliding rods 67 are respectively fixedly disposed on one side of the adjacent side plates 33 of the four clamping plates 66, and the four first guide sliding rods 67 are respectively slidably disposed inside the four lower guide sliding grooves 34.

Through the arrangement of the structure, when the first lifting plate 63 rises, the sliding rod 62 drives the lifting plate 64 to rise synchronously, the lifting plate 64 rises to support the wireless router 2 to be tested, and simultaneously drives the four clamping plates 66 to rise synchronously, and at the moment, under the limitation of the lower guide sliding groove 34, the clamping plates 66 move inwards and clamp and position the wireless router 2 to be tested.

As shown in fig. 5, the lifting type inserting mechanism 7 includes a second lifting plate 71, a guide rod 72, a limiting plate 73, a second sliding groove 74, a sliding block 75, a second guide sliding rod 76, an extension rod 77 and a return spring 78, wherein the second lifting plate 71 is located directly above the conveyor belt 1, the guide rod 72 and the limiting plate 73 are both provided with two, the guide rod 72 is respectively and fixedly provided in both sides of the top of the second lifting plate 71, and all runs through the top plate 32 and is slidably connected with the top plate 32, two, the limiting plate 73 is respectively and fixedly provided in the top ends of the two guide rods 72, the second sliding groove 74 is provided in the top of the second lifting plate 71, the sliding block 75 is slidably nested and is provided in the inner side of the second sliding groove 74, the connecting plug 8 is fixedly run through and provided in the bottom of the side surface of the sliding block 75, the second guide sliding rod 76 is fixedly run through and provided in the top end of the front of the second guide sliding rod 75, both ends of the second guide sliding rod 76 are respectively and slidably provided in the inner sides of the two upper guide sliding grooves 35, the extension rod 77 is slidably arranged in the right side of the second lifting plate 71 and is fixedly connected with the sliding block 75, the return spring 78, the outer side of the return spring 78, and the other end of the sliding block is fixedly connected with the sliding block 75.

Through setting up above-mentioned structure to it rises in step to drive connecting plug 8 through sliding block 75 when second lifter plate 71 rises, in the continuous ascending in-process of sliding block 75, go up direction spout 35 and drive sliding block 75 level left shift through second direction slide bar 76, and then make sliding block 75 drive connecting plug 8 insert the slot on the wireless router 2 that awaits measuring, then drive sliding block 75 synchronous decline when follow-up second lifter plate 71 descends, and then under the drive of last direction spout 35, sliding block 75 drives connecting plug 8 and shifts out from the draw-in groove.

Example 2

s1, conveying a plurality of wireless routers 2 to be tested by using a conveyor belt 1, and starting a driving motor when the wireless routers 2 to be tested move to the position above a lifting plate 64 under the driving of the conveyor belt 1;

s2, the driving motor drives the flywheel 51 to rotate after being started, at the moment, the flywheel 51 lifts the first lifting plate 63, the first lifting plate 63 is driven to lift synchronously through the sliding rod 62 when lifted, when the lifting distance of the lifting plate 64 reaches a first threshold value, the lifting plate 64 is in contact with the wireless router 2 to be tested right above the lifting plate, the wireless router 2 to be tested is lifted from the conveyor belt 1 in the subsequent continuous lifting process, and the wireless router 2 to be tested is driven to lift synchronously;

s3, when the lifting plate 64 rises, the clamping plate 66 is driven to rise synchronously, when the clamping plate 66 rises, the first guide slide bar 67 is driven to rise synchronously, at the moment, the lower guide slide groove 34 limits the first guide slide bar 67, at the moment, the four clamping plates 66 move inwards from two sides respectively, and then the wireless router 2 to be tested positioned at the top of the lifting plate 64 is clamped and positioned;

s4, when the ascending distance of the lifting plate 64 reaches a second threshold value, the top of the wireless router 2 to be tested is in contact with the bottom of the second lifting plate 71, in the process that the subsequent lifting plate 64 continues to ascend, the wireless router 2 to be tested pushes the second lifting plate 71 upwards, in the process that the second lifting plate 71 ascends, the sliding block 75 is driven to ascend synchronously, and under the limitation of the upper guide sliding groove 35, the second guide sliding rod 76 drives the sliding block 75 to move horizontally leftwards in the process that the sliding block 75 ascends;

s5, when the rising distance of the lifting plate 64 reaches a second threshold value, the sliding block 75 drives the connecting plug 8 to be inserted into a slot on the wireless router 2 to be tested to realize connection, then the upper computer performs signal interaction with the wireless signal receiving and sending module through the wireless router 2 to be tested and the coupling module 4 so as to perform Wi Fi throughput testing, and performs signal interaction with the wireless tester through the wireless router 2 to be tested and the coupling module 4 so as to perform receiving sensitivity, transmitting power, frequency spectrum and frequency deviation testing;

s6, after the test is finished, under the driving of the flywheel 51, the second lifting plate 71 and the lifting plate 64 successively descend and reset, the sliding block 75 drives the connecting plug 8 to move out of the slot on the wireless router 2 to be tested in the resetting process of the second lifting plate 71, the wireless router 2 to be tested after the test is finished falls on the top of the conveyor belt 1 and is output by the conveyor belt 1, and when the subsequent wireless router 2 to be tested which is not tested moves to the position above the lifting plate 64, the operation is repeated, and the test is further carried out again.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims

1. A system for testing a plurality of wireless routers is characterized in that: the wireless router comprises a conveyor belt (1), wherein a plurality of wireless routers (2) to be tested are placed at the top of the conveyor belt (1), a frame assembly (3) is sleeved on the outer side of the conveyor belt (1), a coupling module (4) is fixedly arranged at the top of the inner side of the frame assembly (3), a driving mechanism (5) is arranged at the bottom of the inner side of the frame assembly (3), a lifting clamping mechanism (6) is arranged at the top of the driving mechanism (5), a lifting type inserting mechanism (7) is arranged at the top of the inner side of the frame assembly (3), the lifting type inserting mechanism (7) is positioned right above the lifting clamping mechanism (6), and a connecting plug (8) is fixedly arranged on the lifting type inserting mechanism (7);

the coupling module (4) is connected with a power distribution module through a wire, the connecting end of the power distribution module is respectively provided with a wireless tester and an attenuation module, the connecting end of the attenuation module is provided with a wireless signal receiving and transmitting module, and the output end of the connecting plug (8) is connected with an upper computer.

2. The system for testing a plurality of wireless routers of claim 1, wherein: the frame component (3) comprises a base (31), a top plate (32), side plates (33), a lower guide sliding groove (34) and an upper guide sliding groove (35).

3. The system for testing a plurality of wireless routers of claim 2, wherein: base (31) are located conveyer belt (1) below, roof (32) are located conveyer belt (1) top, curb plate (33) are provided with two, two curb plate (33) are located conveyer belt (1) front side and rear side respectively, two curb plate (33) are all fixed to be set up in base (31) top, and all with roof (32) fixed connection, lower direction spout (34) are provided with four, it is provided with two, four to go up direction spout (35) two curb plate (33) inner wall both sides are seted up respectively to direction spout (34) down, two go up direction spout (35) and set up respectively on two curb plate (33) inner walls.

4. The system for testing a plurality of wireless routers of claim 3, wherein: the driving mechanism (5) comprises a driving motor, a flywheel (51) and a convex part (52);

the driving motor is fixedly arranged on the rear side of the adjacent side plate (33), the flywheel (51) is in transmission connection with the driving motor, and the convex part (52) is fixedly arranged at the bottom of the flywheel (51).

5. The system for testing a plurality of wireless routers of claim 4, wherein: the lifting clamping mechanism (6) comprises a mounting block (61), a sliding rod (62), a first lifting plate (63), a lifting plate (64), a first sliding groove (65), a clamping plate (66) and a first guide sliding rod (67).

6. The system for testing a plurality of wireless routers of claim 5, wherein: the mounting blocks (61) and the sliding rods (62) are arranged in two, the two mounting blocks (61) are connected between the two side plates (33), the two sliding rods (62) are arranged on the two mounting blocks (61) in a sliding penetrating mode respectively, the first lifting plate (63) is located at the tops of the two mounting blocks (61), the two sliding rods (62) are fixedly sleeved and arranged on the outer sides of the two sliding rods (62), the lifting plate (64) is fixedly arranged at the top ends of the two sliding rods (62), the first sliding grooves (65), the clamping plates (66) and the first guide sliding rods (67) are arranged in four, the four first sliding grooves (65) are arranged at four corners of the top of the lifting plate (64) respectively, the four clamping plates (66) are arranged on the inner sides of the four first sliding grooves (65) in a sliding and nesting mode respectively, the four first guide sliding rods (67) are fixedly arranged on one side of the adjacent side plates (33) of the four clamping plates (66), and the four first guide sliding rods (67) are arranged on the inner sides of the four lower guide sliding grooves (34) respectively.

7. The system for testing a plurality of wireless routers of claim 6, wherein: the lifting type inserting mechanism (7) comprises a second lifting plate (71), a guide rod (72), a limiting plate (73), a second sliding groove (74), a sliding block (75), a second guide sliding rod (76), an extension rod (77) and a return spring (78).

8. The system for testing a plurality of wireless routers of claim 7, wherein: second lifter plate (71) is located directly over conveyer belt (1), guide bar (72) all are provided with two, two with limiting plate (73) guide bar (72) are fixed respectively and set up in second lifter plate (71) top both sides, and all run through roof (32) and with roof (32) sliding connection, two limiting plate (73) are fixed respectively and set up in two guide bar (72) tops, second lifter plate (71) top is seted up in second spout (74), sliding block (75) slip nestification sets up in second spout (74) inboardly, connecting plug (8) are fixed to run through and set up in sliding block (75) side bottom, second guide slide bar (76) are fixed to run through and set up in sliding block (75) positive top, second guide slide bar (76) both ends slide respectively and set up in two on guide chute (35) inboardly, extension bar (77) slide through set up in second lifter plate (71) right side, and with reset spring (75) fixed connection, reset spring (78) cup joint sets up in the extension bar (77) outside, the one end is connected with the sliding block (74) fixed connection sliding block (75) and the sliding block (75).

9. The method for testing a plurality of wireless routers according to any of claims 1-8, comprising the steps of:

s1, conveying a plurality of wireless routers (2) to be tested by using a conveyor belt (1), and starting a driving motor when the wireless routers (2) to be tested move to the position above a lifting plate (64) under the driving of the conveyor belt (1);

s2, the driving motor drives the flywheel (51) to rotate after being started, the flywheel (51) lifts the first lifting plate (63), the first lifting plate (63) is driven to lift synchronously through the sliding rod (62) when lifted, when the lifting distance of the lifting plate (64) reaches a first threshold value, the lifting plate (64) is in contact with the wireless router (2) to be tested right above the lifting plate, the wireless router (2) to be tested is lifted up by the conveyor belt (1) in the subsequent continuous lifting process, and then the wireless router (2) to be tested is driven to lift synchronously;

s3, when the lifting plate (64) rises, the clamping plate (66) is driven to rise synchronously, when the clamping plate (66) rises, the first guide slide bar (67) is driven to rise synchronously, at the moment, the lower guide sliding groove (34) limits the first guide slide bar (67), at the moment, the four clamping plates (66) move inwards from two sides respectively, and then the wireless router (2) to be tested positioned at the top of the lifting plate (64) is clamped and positioned;

s4, when the ascending distance of the lifting plate (64) reaches a second threshold value, the top of the wireless router (2) to be tested is in contact with the bottom of the second lifting plate (71), in the process that the subsequent lifting plate (64) continues to ascend, the wireless router (2) to be tested pushes the second lifting plate (71) upwards, in the process that the second lifting plate (71) ascends, the sliding block (75) is driven to ascend synchronously, and under the limitation of the upper guide sliding groove (35), the second guide sliding rod (76) drives the sliding block (75) to move horizontally leftwards in the process that the sliding block (75) ascends;

s5, when the ascending distance of the lifting plate (64) reaches a second threshold value, the sliding block (75) drives the connecting plug (8) to be inserted into a slot on the wireless router (2) to be tested to realize connection, and then the upper computer performs signal interaction with the wireless signal receiving and sending module through the wireless router (2) to be tested and the coupling module (4) so as to perform WiFi throughput testing, and performs signal interaction with the wireless tester through the wireless router (2) to be tested and the coupling module (4) so as to perform receiving sensitivity, transmitting power, frequency spectrum and frequency deviation testing;

s6, after the test is completed, under the driving of the flywheel (51), the second lifting plate (71) and the lifting plate (64) successively descend and reset, the sliding block (75) drives the connecting plug (8) to move out of the slot on the wireless router (2) to be tested in the resetting process of the second lifting plate (71), the wireless router (2) to be tested after the test is completed falls on the top of the conveyor belt (1) and is output by the conveyor belt (1), and when the subsequent wireless router (2) to be tested which is not tested moves to the position above the lifting plate (64), the operation is repeated, and then the test is performed again.