CN110780241A

CN110780241A - Automatic testing machine and automatic testing method for network terminal

Info

Publication number: CN110780241A
Application number: CN201911301869.9A
Authority: CN
Inventors: 曾琦; 唐锋; 蔡跃祥; 李振果; 蓝锏祥
Original assignee: Xiamen Hongtai Intelligent Manufacturing Co Ltd
Current assignee: Xiamen Hongtai Intelligent Manufacturing Co Ltd
Priority date: 2019-12-17
Filing date: 2019-12-17
Publication date: 2020-02-11
Anticipated expiration: 2039-12-17
Also published as: CN110780241B

Abstract

The invention discloses an automatic testing machine and an automatic testing method of a network terminal, wherein the automatic testing machine comprises an equipment frame, a mobile module, a rotary swing arm, a testing tool and a detection and identification mechanism; the device comprises an equipment frame, a rotary swing arm, a testing tool, a detection and identification mechanism, a tool bottom plate, a product positioning plate, a power-on mechanism, an interface testing mechanism and a key testing mechanism, wherein the equipment frame is arranged on one side of a pallet line of a network terminal, the mobile module is arranged on the equipment frame, the rotary swing arm is connected with the mobile module, the testing tool is arranged on the equipment frame, the detection and identification mechanism is arranged on the testing tool, and the testing tool comprises the tool bottom plate, the product positioning plate, the power-on mechanism, the interface testing mechanism and the key testing mechanism; meanwhile, the accuracy of the detection result is greatly improved, and the quality of the product is further ensured.

Description

Automatic testing machine and automatic testing method for network terminal

Technical Field

The present invention relates to a testing device, and more particularly, to an automatic testing machine and an automatic testing method for a network terminal.

Background

With the development of science and technology, automation technology has become an important role in the modern times, and the automation technology is widely applied to the aspects of industry, agriculture, military, scientific research, transportation, commerce, medical treatment, services, families and the like. The automatic technology can not only liberate people from heavy physical labor, partial mental labor and severe and dangerous working environments, but also expand the functions of human organs, greatly improve the labor productivity and enhance the ability of human to know the world and transform the world. Therefore, various industries are forced to develop automation technology.

Electronic products such as a router, a modem and the like need to be tested before leaving a factory, a circuit board needs to be arranged in a shell of a terminal product before detection, when detection is carried out, the terminal product is electrified firstly, and after the terminal product is electrified, all interfaces and all keys on the shell need to be detected, whether all the interfaces are matched with the circuit board in place or not is detected, whether corresponding functions can be realized or not is detected, whether the keys correspond to the positions of the keys of the circuit board or not is detected, and whether the keys are effective or not is detected. The traditional detection mode is that a single station is used for firstly manually electrifying the product and then sequentially detecting each interface and each key one by one, the product detection processes are multiple, a large amount of manpower and material resources are required to be input, the labor intensity of workers is high, the detection efficiency is low, the accuracy of detection results is low, and the product quality is influenced.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides an automatic testing machine and an automatic testing method of a network terminal, which can improve the detection efficiency and the accuracy of detection results, thereby reducing the labor cost and the labor intensity.

In order to achieve the above purpose, the solution of the invention is:

the invention discloses an automatic testing machine of a network terminal, which comprises an equipment frame, a moving module, a rotating swing arm, a testing tool, a detection and identification mechanism and a control system, wherein the equipment frame is provided with a plurality of movable modules; the equipment frame is arranged on one side of the pallet line of the network terminal, the mobile module is arranged on the equipment frame, the rotary swing arm is connected with the mobile module, the test tool is arranged on the equipment frame, the detection and identification mechanism is arranged on the test tool, and the mobile module, the rotary swing arm, the test tool and the detection and identification mechanism are respectively connected with the control system; the testing tool comprises a tool bottom plate, a product positioning plate, a power-on mechanism, an interface testing mechanism and a key testing mechanism, wherein the tool bottom plate is fixed on an equipment framework, the product positioning plate is fixedly arranged on the tool bottom plate, a product placing groove is formed in the product fixing plate, the power-on mechanism is arranged on one side of the product fixing plate and comprises a power-on air cylinder and a power-on connector, the power-on connector is fixed at one end, facing the product positioning plate, of the power-on air cylinder, the interface testing mechanism comprises an interface air cylinder and an interface plug, the interface plug is fixed on a push plate, facing the product positioning plate, of the interface air cylinder, the key testing mechanism comprises an air cylinder support and at least one pen-shaped air cylinder fixed on the air cylinder support.

Furthermore, a plurality of interlayer layers are arranged on the equipment frame, and a plurality of test tools are correspondingly arranged on each interlayer layer.

Further, the moving module comprises an X-axis slide rail, an X-axis slide block which is slidably arranged on the X-axis slide rail, an X-axis cylinder which drives the X-axis slide block to slide on the X axis, a Y-axis slide rail, a Y-axis slide block which is slidably arranged on the Y-axis slide rail, a Y-axis cylinder which drives the Y-axis slide block to slide on the Y-axis slide rail, a Z-axis slide block which is slidably arranged on the Z-axis slide rail and a Z-axis cylinder which drives the Z-axis slide block to slide on the Z-axis slide rail, the two X-axis slide rails are arranged at the top end and the bottom end of the equipment frame at intervals up and down, the two X-axis slide rails are respectively provided with the X-axis slide block, at least one X-axis slide block is connected with the X-axis cylinder, two ends of the Z-axis slide rail are longitudinally connected with two X-axis slide blocks arranged on the X-axis slide rail, and the middle part of the Y-axis slide rail is fixed on the Z-axis slide block, so that the Z-axis cylinder can drive the Z-axis slide block and drive the Y-axis slide rail to slide up and down on the Z-axis slide rail.

Further, rotatory swing arm includes revolving stage fixed plate, revolving stage, gear motor, swing arm, revolving cylinder and suction nozzle, the fixed setting of revolving stage fixed plate is on removing the module, and gear motor fixes on the revolving stage fixed plate, and gear motor's pivot is connected the one end of revolving stage, the other end of revolving stage is connected revolving cylinder, and the middle part of swing arm is connected to revolving cylinder's carousel, and one is connected respectively at the both ends of swing arm the suction nozzle.

Further, the electrified cylinder further comprises an electrified sliding rail and an electrified sliding block, the electrified sliding rail is arranged on the outer side of the product positioning plate, the electrified sliding block is slidably arranged on the electrified sliding rail, and the electrified cylinder is fixed on the electrified sliding block.

Further, the test fixture further comprises a positioning mechanism, wherein the product fixing plate is respectively provided with an adjusting opening on one of the transverse edges and one of the longitudinal edges of the product placing groove, the positioning mechanism comprises an adjusting cylinder and a push plate connected with the adjusting cylinder, the adjusting cylinder is fixedly arranged at the adjusting opening of the fixture bottom plate corresponding to the product positioning plate, the push plate is pushed by the adjusting cylinder to pass in and out the product placing groove along the adjusting opening, and the two adjusting openings of the product fixing plate respectively correspond to a group of positioning mechanisms.

Further, the detection and identification mechanism comprises an optical fiber light pipe, an optical fiber sensor, a vision centralized plate and a camera, the vision centralized plate is fixedly arranged on the equipment frame, the camera is arranged above the vision centralized plate, the optical fiber sensor is arranged on one side of the key testing mechanism and corresponds to keys of the network terminal, each key is provided with the optical fiber sensor, the bottom surface of the product fixing plate is provided with light holes corresponding to the indicator lamps of the network terminal, an optical fiber light pipe is arranged in each light hole of the product fixing plate, each optical fiber sensor is also connected with an optical fiber light pipe, and the optical fiber light pipes are connected to the vision centralized plate.

The invention also discloses an automatic testing method using the network terminal automatic testing machine, which comprises the following steps:

step A: the mobile module drives one of the suction nozzles of the rotary swing arm to suck the network terminal on the pallet line and place the network terminal into a product placing groove arranged on the test tool;

and B: the electrifying cylinder drives the electrifying connector to move towards the direction of the network terminal, so that the electrifying connector is inserted into a power supply interface of the network terminal, if the control system prompts successful electrification, the interface testing mechanism is started, the step C is carried out, and if the electrification is not successful, the step F is carried out;

and C: an interface cylinder of the interface testing mechanism drives an interface plug to be inserted into an interface of the network terminal, the lighting condition of an indicator light of the network terminal is identified and acquired through the detection and identification mechanism and is transmitted to the control system, the control system judges whether the indicator light is fully on or fully off, if the indicator light is fully on or fully off, the key testing mechanism is started, the step D is carried out, and if the indicator light is not fully on or fully off, the step F is carried out;

step D: the pen-shaped cylinder of the key testing mechanism is pushed forward, the key of the network terminal is pressed, whether the key is effective or not is judged through the control system, if the key is effective, the step E is carried out, and if the key is ineffective, the step F is carried out;

step E: the control system judges that the network terminal is qualified, the mobile module drives the rotary swing arm to suck the network terminal to the pallet line, and the detection is finished;

step F: the control system determines that the network terminal is a defective product, the mobile module drives the rotary swing arm 30 to suck the network terminal to the location where the defective product is placed, and the detection is finished.

Further, a step A1 of network terminal positioning is further arranged between the step A and the step B, a positioning mechanism is arranged on the test tool, and two positioning cylinders on the positioning mechanism respectively push a push plate to clamp and fix the network terminal.

Further, the detection and identification mechanism comprises an optical fiber light pipe, an optical fiber sensor, a vision centralized plate and a camera, the vision centralized plate is fixedly arranged on the equipment frame, the camera is arranged above the vision centralized plate, the optical fiber sensor is arranged at one side of the key testing mechanism and corresponds to keys of the network terminal, each key is provided with an optical fiber sensor, the bottom surface of the product fixing plate is provided with light holes corresponding to each indicator light of the network terminal, an optical fiber light pipe is arranged in each light hole of the product fixing plate, each optical fiber sensor is also connected with an optical fiber light pipe, the optical fiber light pipes are connected to the vision centralized plate, the light of the indicator light of the network terminal in the step C is transmitted to the vision centralized plate through the optical fiber light pipes and is displayed on the vision centralized plate, the camera is started to photograph the vision centralized plate and is transmitted to the control system, judging whether the indicator light is completely on or completely off by the control system; and D, sensing whether the key is lighted or not through the optical fiber sensor, transmitting the lighting information of the optical fiber sensor to the vision centralized plate through the optical fiber light pipe, photographing the vision centralized plate by the camera and transmitting the photographing information to the control system, and judging whether the key is lighted or not through the control system.

After the structure is adopted, the automatic testing machine provided by the invention has the advantages that the mobile module, the rotary swing arm, the testing tool and the detection and identification mechanism are arranged, the mobile module and the rotary swing arm are matched to transfer the network terminal on the equipment frame and the network terminal on the pallet line, the testing tool is provided with the electrifying mechanism to automatically supply power to the network terminal, the interface testing mechanism can automatically test each interface of the network terminal, the key testing mechanism is used for pressing the button of the network terminal, and the detection and identification mechanism is used for matching the interface testing mechanism and the key testing mechanism to detect whether the network terminal is qualified or not. Therefore, through the cooperation of all mechanisms, the automatic testing of the network terminal can be realized, the traditional mode of testing a product through a single person and a single station is replaced, the production efficiency is improved, and the investment of a large amount of manpower and material resources is reduced; meanwhile, the accuracy of the detection result is greatly improved, and the quality of the product is further ensured.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic plan view of the present invention.

Fig. 3 is a schematic structural diagram of a mobile module according to the present invention.

Fig. 4 is a schematic structural view of the rotary swing arm of the present invention.

Fig. 5 is a schematic structural diagram of the test fixture of the present invention.

FIG. 6 is a top view of the test fixture of the present invention.

Fig. 7 is a schematic structural diagram of a test fixture assembly network terminal of the present invention.

Detailed Description

In order to further explain the technical solution of the present invention, the present invention is explained in detail by the following specific examples.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are used only for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed in a particular orientation, and be operated, and thus are not to be construed as limiting the present invention. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

As shown in fig. 1 to 7, the present invention discloses an automatic testing machine for a network terminal, which includes an apparatus frame 10, a moving module 20, a rotating swing arm 30, a testing tool 40, a detection recognition mechanism 50 and a control system.

The equipment frame 10 is arranged on one side of the pallet line of the network terminal 60, the mobile module 20 is arranged on the equipment frame 10, the rotary swing arm 30 is connected with the mobile module 20, the test tool 40 is arranged on the equipment frame 10, the detection recognition mechanism 50 is arranged on the test tool 40, a plurality of interlayers 11 are arranged on the equipment frame 10, and a plurality of connection control systems are respectively arranged on each interlayer 11, namely the test tool 40, the mobile module 20, the rotary swing arm 30, the test tool 40 and the detection recognition mechanism 50.

As shown in fig. 3, the moving module 20 includes an X-axis slide rail 21, an X-axis slider 22 slidably disposed on the X-axis slide rail 21, an X-axis cylinder 23 driving the X-axis slider 22 to slide on the X-axis 21, a Y-axis slide rail 24, a Y-axis slider 25 slidably disposed on the Y-axis slide rail 24, a Y-axis cylinder 26 driving the Y-axis slider 25 to slide on the Y-axis slide rail 24, a Z-axis slide rail 27, a Z-axis slider 28 slidably disposed on the Z-axis slide rail 27, and a Z-axis cylinder 29 driving the Z-axis slider 28 to slide on the Z-axis slide rail 27. The two X-axis slide rails 21 are arranged at the top end and the bottom end of the equipment frame 10 at intervals, the two X-axis slide rails 21 are respectively provided with one X-axis slide block 22, the X-axis cylinder 23 is connected with one slide block 22 on the two X-axis slide rails 21, two ends of the Z-axis slide rail 27 are longitudinally connected with the two X-axis slide blocks 22 arranged on the X-axis slide rails 21, the X-axis cylinder 23 drives the X-axis slide block 22 connected with the X-axis cylinder to slide left and right along the X-axis slide rails 21 and drives the other X-axis slide block 22 to move along with the X-axis slide rails, the Z-axis cylinder 29 is arranged on the Z-axis slide block 28, the middle part of the Y-axis slide rail 24 is fixed on the Z-axis slide block 28, and the Z-axis cylinder 29 can drive the Z-axis slide block 28 and drive the Y.

As shown in fig. 3 and 4, the rotating swing arm 30 is disposed on the Y-axis slider 24 of the moving module 20, the rotating swing arm 30 includes a turntable fixing plate 31, a turntable 32, a reduction motor 33, a swing arm 34, a rotating cylinder 35 and a suction nozzle 36, the turntable fixing plate 31 is fixedly disposed on the Y-axis slider 25 of the moving module 20, the reduction motor 33 is fixed on the turntable fixing plate 31, a rotating shaft of the reduction motor 33 is connected to one end of the turntable 32, the other end of the turntable 32 is connected to the rotating cylinder 35, a rotating disc 351 of the rotating cylinder 35 is connected to the middle portion of the swing arm 34, and two ends of the swing arm 34 are respectively connected to the suction nozzle 36. One of the suction nozzles 36 of the rotary swing arm 30 sucks the network terminal 60 on the pallet line and moves to the equipment frame 10 through the mobile module 20, the speed reduction motor 33 of the rotary swing arm 30 drives the rotary table 32 to rotate, so that the rotary table 32 rotates from one end of the pallet line to one end of the equipment frame 10, the rotary cylinder 35 of the rotary swing arm 30 rotates to drive the other suction nozzle 36 to suck the network terminal 60 on the detection tool 40 to rotate the rotary cylinder 35 again, the network terminal 60 sucked from the pallet line is placed on the detection tool 40, and the rotary swing arm 30 moves the network terminal 60 which is detected to the pallet line under the action of the speed reduction motor 33 and the mobile module 20.

As shown in fig. 5 to 7, the testing fixture 40 includes a fixture bottom plate 41, a product positioning plate 42, a positioning mechanism 43, a power-on mechanism 44, an interface testing mechanism 45, and a key testing mechanism 46, the fixture bottom plate 41 is fixed on the partition layers 11 of the device frame 10, one or more testing fixtures 40 can be placed on each partition layer 11, the product positioning plate 42 is fixed on the fixture bottom plate 41, a product placing groove 421 is disposed on the product fixing plate 42, an adjusting opening 422 is disposed on one of the lateral sides and one of the longitudinal sides of the product placing groove 421 of the product fixing plate 42, and a light hole 423 corresponding to each indicator of the network terminal 60 is disposed on the bottom surface of the product fixing plate 42. The positioning mechanism 43 comprises an adjusting cylinder 431 and a push plate 432 connected with the adjusting cylinder 431, the adjusting cylinder 431 is fixedly arranged at the bottom plate 41 of the tooling corresponding to the adjusting opening 422 of the product positioning plate 42, the push plate 432 can be pushed by the adjusting cylinder 431 to enter and exit the product placing groove 421 along the adjusting opening 422, and the two adjusting openings 422 of the product fixing plate 42 respectively correspond to one group of positioning mechanisms 43. The energizing mechanism 44 is disposed on one side of the product fixing plate 42, the energizing mechanism 44 includes an energizing slide rail 441, an energizing slider 442, an energizing cylinder 443, and an energizing joint 444, the energizing slide rail 441 is disposed on the outer side of the product positioning plate 42, the energizing slider 442 is slidably disposed on the energizing slide rail 441, the energizing cylinder 443 is fixed to the energizing slider 442, and the energizing joint is fixed to one end of the energizing cylinder 443 facing the product positioning plate 42. The interface testing mechanism 45 includes an interface cylinder 451 and an interface plug 452, and the interface plug 452 is fixed on a push plate 453 of the interface cylinder 451 facing the product positioning plate 42. The key testing mechanism 46 includes a cylinder support 461 and at least one pen-shaped cylinder 462 fixed on the cylinder support 461.

The detection and identification mechanism 50 includes an optical fiber light pipe 51, an optical fiber sensor 52, a vision centralized plate 53 and a camera 54, the vision centralized plate 53 is fixedly disposed on the device frame 10, the camera 54 is disposed above the vision centralized plate 53, the optical fiber sensor 52 is disposed on one side of the key testing mechanism 46 and corresponds to a key of the network terminal 60, each key is disposed with an optical fiber sensor 52, an optical fiber light pipe 51 is disposed in each light hole 423 of the product fixing plate 42, each optical fiber sensor 52 is also connected with an optical fiber light pipe 51, and the optical fiber light pipe 51 is connected to the vision centralized plate 53.

The invention also discloses an automatic testing method of the network terminal automatic testing machine, which comprises the following steps:

step A: the moving module 20 drives one of the suction nozzles 36 of the rotating swing arm 30 to suck the network terminal 60 and place the network terminal into the product placement slot 421 of one of the testing tools 40 installed on the equipment frame 10;

and B: two positioning cylinders 431 on the positioning mechanism 43 of the test fixture 40 respectively push the push plate 432 to position the network terminal 60, the electrifying cylinder 443 drives the electrifying connector 444 to move towards the network terminal 60, so that the electrifying connector 444 is inserted into the power interface 61 of the network terminal 60, if the control system prompts successful electrification, the interface testing mechanism 45 is started, step C is performed, and if the electrification is not successful, step F is performed;

and C: an interface cylinder 451 of the interface testing mechanism 45 drives an interface plug 452 to be inserted into an interface of the network terminal 60, light of an indicator lamp of the network terminal 60 is transmitted to the vision centralized plate 53 through the optical fiber light pipe 51 and displayed on the vision centralized plate 53, the camera 54 is started to photograph the vision centralized plate 53 and transmit the photographed light to the control system, the control system judges whether the indicator lamp is fully on or fully off, if the indicator lamp is fully on or fully off, the key testing mechanism 46 is started, step D is performed, and if the indicator lamp is not fully on or fully off, step F is performed;

step D: the pen-shaped cylinder 462 of the key test mechanism 46 is pushed forward, the key 62 of the network terminal is pressed, whether the key 62 is on is sensed through the optical fiber sensor 52, the lighting information of the optical fiber sensor 52 is transmitted to the vision centralized plate 53 through the optical fiber light pipe 51, the camera 54 takes a picture of the vision centralized plate 53 and transmits the picture to the control system, whether the key is on is judged by the control system, if the light is on, the step E is carried out, and if the light is not detected, the step F is carried out;

step E: judging that the network terminal is qualified, driving the rotary swing arm 30 to suck the network terminal to the pallet line by the mobile module 20, and finishing the detection;

step F: the mobile module drives the rotary swing arm 30 to suck the network terminal to the place where the unqualified product is placed, and the detection is finished.

The above embodiments and drawings are not intended to limit the form and style of the present invention, and any suitable changes or modifications thereof by those skilled in the art should be considered as not departing from the scope of the present invention.

Claims

1. An automatic tester of a network terminal, comprising: the device comprises an equipment frame, a moving module, a rotary swing arm, a test tool, a detection and identification mechanism and a control system; the equipment frame is arranged on one side of the pallet line of the network terminal, the mobile module is arranged on the equipment frame, the rotary swing arm is connected with the mobile module, the test tool is arranged on the equipment frame, the detection and identification mechanism is arranged on the test tool, and the mobile module, the rotary swing arm, the test tool and the detection and identification mechanism are respectively connected with the control system; the testing tool comprises a tool bottom plate, a product positioning plate, a power-on mechanism, an interface testing mechanism and a key testing mechanism, wherein the tool bottom plate is fixed on an equipment framework, the product positioning plate is fixedly arranged on the tool bottom plate, a product placing groove is formed in the product fixing plate, the power-on mechanism is arranged on one side of the product fixing plate and comprises a power-on air cylinder and a power-on connector, the power-on connector is fixed at one end, facing the product positioning plate, of the power-on air cylinder, the interface testing mechanism comprises an interface air cylinder and an interface plug, the interface plug is fixed on a push plate, facing the product positioning plate, of the interface air cylinder, the key testing mechanism comprises an air cylinder support and at least one pen-shaped air cylinder fixed on the air cylinder support.

2. The automatic tester of a network terminal as claimed in claim 1, characterized in that: a plurality of interlayer layers are arranged on the equipment frame, and a plurality of test tools are correspondingly arranged on each interlayer layer.

3. The automatic tester of a network terminal as claimed in claim 1, characterized in that: the moving module comprises an X-axis slide rail, an X-axis slide block which is arranged on the X-axis slide rail in a sliding way, an X-axis cylinder which drives the X-axis slide block to slide on the X axis, a Y-axis slide rail, a Y-axis slide block which is arranged on the Y-axis slide rail in a sliding way, a Y-axis cylinder which drives the Y-axis slide block to slide on the Y-axis slide rail, a Z-axis slide block which is arranged on the Z-axis slide rail in a sliding way, and a Z-axis cylinder which drives the Z-axis slide, the two X-axis slide rails are arranged at the top end and the bottom end of the equipment frame at intervals up and down, the two X-axis slide rails are respectively provided with the X-axis slide block, at least one X-axis slide block is connected with the X-axis cylinder, two ends of the Z-axis slide rail are longitudinally connected with two X-axis slide blocks arranged on the X-axis slide rail, and the middle part of the Y-axis slide rail is fixed on the Z-axis slide block, so that the Z-axis cylinder can drive the Z-axis slide block and drive the Y-axis slide rail to slide up and down on the Z-axis slide rail.

4. The automatic tester of a network terminal as claimed in claim 1, characterized in that: rotatory swing arm includes revolving stage fixed plate, revolving stage, gear motor, swing arm, revolving cylinder and suction nozzle, the fixed setting of revolving stage fixed plate is on removing the module, and gear motor fixes on the revolving stage fixed plate, and gear motor's pivot is connected the one end of revolving stage, the other end of revolving stage is connected revolving cylinder, the middle part of swing arm is connected to revolving cylinder's carousel, and one is connected respectively at the both ends of swing arm the suction nozzle.

5. The automatic tester of a network terminal as claimed in claim 1, characterized in that: the electrified cylinder further comprises an electrified sliding rail and an electrified sliding block, the electrified sliding rail is arranged on the outer side of the product positioning plate, the electrified sliding block is slidably arranged on the electrified sliding rail, and the electrified cylinder is fixed on the electrified sliding block.

6. The automatic tester of a network terminal as claimed in claim 1, characterized in that: the test fixture further comprises a positioning mechanism, the product fixing plate is respectively provided with an adjusting opening on one of the transverse edges and one longitudinal edge of the product placing groove, the positioning mechanism comprises an adjusting cylinder and a push plate connected with the adjusting cylinder, the adjusting cylinder is fixedly arranged at the adjusting opening of the fixture bottom plate corresponding to the product positioning plate, the push plate is pushed by the adjusting cylinder to enter and exit the product placing groove along the adjusting opening, and the two adjusting openings of the product fixing plate respectively correspond to a group of positioning mechanisms.

7. The automatic tester of a network terminal as claimed in claim 1, characterized in that: the detection and identification mechanism comprises an optical fiber light pipe, optical fiber sensors, a vision centralized plate and a camera, the vision centralized plate is fixedly arranged on an equipment frame, the camera is arranged above the vision centralized plate, the optical fiber sensors are arranged on one side of the key testing mechanism and correspond to keys of a network terminal, each key is provided with an optical fiber sensor, the bottom surface of the product fixing plate is provided with light holes corresponding to each indicator lamp of the network terminal, an optical fiber light pipe is arranged in each light hole of the product fixing plate, each optical fiber sensor is also connected with an optical fiber light pipe, and the optical fiber light pipes are connected to the vision centralized plate.

8. An automatic test method of an automatic test machine using the network terminal of claim 1, characterized in that: the method comprises the following steps:

9. The automatic test method of a network terminal according to claim 8, characterized in that: and a step A1 of positioning the network terminal is also arranged between the step A and the step B, a positioning mechanism is arranged on the test tool, and two positioning cylinders on the positioning mechanism respectively push a push plate to clamp and fix the network terminal.

10. The automatic test method of a network terminal according to claim 8, characterized in that: the detection and identification mechanism comprises an optical fiber light pipe, an optical fiber sensor, a vision centralized plate and a camera, the vision centralized plate is fixedly arranged on the equipment frame, the camera is arranged at the position above the vision centralized plate, the optical fiber sensor is arranged at one side of the key test mechanism and corresponds to the keys of the network terminal, each key is provided with an optical fiber sensor, the bottom surface of the product fixing plate is provided with light holes corresponding to all indicator lamps of the network terminal, an optical fiber light pipe is arranged in each light hole of the product fixing plate, each optical fiber sensor is also connected with an optical fiber light pipe, the optical fiber light pipes are connected to the vision centralized plate, the light of the indicator lamps of the network terminal in the step C is transmitted to the vision centralized plate through the optical fiber light pipes and is displayed on the vision centralized plate, the camera is started to photograph the vision centralized plate and is transmitted to the control system, judging whether the indicator light is completely on or completely off by the control system; and D, sensing whether the key is lighted or not through the optical fiber sensor, transmitting the lighting information of the optical fiber sensor to the vision centralized plate through the optical fiber light pipe, photographing the vision centralized plate by the camera and transmitting the photographing information to the control system, and judging whether the key is lighted or not through the control system.