CN216531418U - Mobile phone function testing machine and mobile phone function testing line - Google Patents

Abstract

The utility model discloses a mobile phone function testing machine which comprises a machine table, a plurality of positioning jigs, a plurality of plug modules and a material taking and placing mechanism, wherein the plurality of positioning jigs are used for placing a mobile phone, and each plug module comprises a plug connector and a linear driving mechanism. The mobile phone to be tested is placed on the positioning jig through the material taking and placing mechanism, each positioning jig corresponds to one plug module, the straight line driving mechanism of each plug module drives the plug-in connector connected with the testing module through the connecting wire to be inserted into the plug-in port of the mobile phone, automatic plug-in connector and mobile phone plug-in connection are achieved, the mobile phone is connected with the testing module, then the function of the mobile phone is tested, after the test is completed, the plug-in connector is driven by the straight line driving mechanism to be extracted out of the plug-in port of the mobile phone, the mobile phone is taken away through the material taking and placing mechanism, labor cost is saved, and testing efficiency is improved. In addition, in the process of taking and placing the mobile phones of some positioning jigs by the taking and placing mechanism, the mobile phones on other positioning jigs can be tested, and waiting time is saved.

Description

Mobile phone function testing machine and mobile phone function testing line

Technical Field

The utility model relates to the technical field of mobile phone function testing, in particular to a mobile phone function testing machine and a mobile phone function testing line.

Background

With the continuous development of electronic communication technology, various mobile phones are in endlessly, which brings great convenience to daily production and life of people. In the production and manufacturing process of the mobile phone, in order to ensure that the mobile phone meets the factory requirements, the functions of the mobile phone need to be tested. In the prior art, for testing the functions of a mobile phone, a mobile phone to be tested is usually manually placed in a positioning fixture, a plug connector connected with a testing module is plugged into a plug port of the mobile phone, then the functions of the mobile phone are tested through the testing module, after the test is completed, the plug connector is manually pulled out from the plug port of the mobile phone, and finally the tested mobile phone is taken away from the positioning fixture. The problems of high labor cost, low testing efficiency and the inevitable inaccurate testing result caused by manual operation errors exist.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a testing machine and a testing line which can automatically test the functions of a mobile phone.

In order to achieve the purpose, the utility model discloses a mobile phone function testing machine which comprises a machine table, a plurality of positioning jigs, a plurality of plug modules and a material taking and placing mechanism. The positioning jigs are arranged on the machine table and used for placing a mobile phone. Each plug module is arranged corresponding to one positioning jig and comprises a plug-in connector and a linear driving mechanism which is used for driving the plug-in connector to do linear reciprocating motion so as to enable the plug-in connector to be inserted into or pulled out of a plug-in port of a mobile phone, and the plug-in connector is connected to the output end of the linear driving mechanism and is connected with a testing module through a connecting wire so as to test the mobile phone. The material taking and placing mechanism is used for taking the mobile phone to be tested, placing the mobile phone to be tested on the positioning jig, and taking the mobile phone which is tested on the positioning jig away.

Preferably, the mobile phone function testing machine further comprises a plurality of mounting structures, each mounting structure comprises a mounting bracket arranged on the machine table, and a first mounting table and a second mounting table which are arranged on the mounting bracket and have different heights, the plurality of positioning jigs are arranged in multiple rows, and at least one row of positioning jig is respectively arranged on the first mounting table and the second mounting table.

Preferably, the height of the first mounting table is lower than that of the second mounting table, the first mounting table is slidably disposed on the mounting bracket, and the first mounting table is selectively slidable to a position right below the second mounting table or other than the position right below the second mounting table.

Preferably, the linear driving mechanism includes a driving cylinder, a sliding seat connected to an output end of the driving cylinder, and a sliding rail for the sliding seat to slide linearly, the sliding seat includes a seat body slidably disposed on the sliding rail and two first protrusions protrudingly disposed on the seat body, the plug connector includes a plug body disposed on the seat body and two second protrusions connected to two opposite sides of the plug body, each of the second protrusions and one of the first protrusions are disposed opposite to each other in a plugging direction of the plug body, and an elastic member is connected between each of the second protrusions and the corresponding first protrusion, so that the plug connector is flexibly plugged at a plugging port of the mobile phone.

Preferably, the mobile phone function testing machine further comprises the testing module, the testing module comprises a central industrial personal computer and a plurality of intermediate electronic devices in communication connection with the central industrial personal computer, and each intermediate electronic device is connected with the connecting lines of the plurality of plug-in connectors so as to transmit testing data between the central industrial personal computer and the mobile phone.

Preferably, the mobile phone function testing machine further comprises a first conveying line arranged on the machine station and used for conveying the mobile phone to be tested to be taken by the taking and placing mechanism, and a second conveying line arranged on the machine station and used for placing the mobile phone which is tested by the taking and placing mechanism and outputting the mobile phone.

In order to achieve the purpose, the utility model discloses a mobile phone function test line which comprises a plurality of mobile phone function test machines, a feeding assembly line and a discharging assembly line, wherein the feeding assembly line is used for conveying mobile phones to be tested to be taken by the taking and placing mechanism, and the discharging assembly line is used for allowing the taking and placing mechanism to place the tested mobile phones and conveying the tested mobile phones to a discharging position.

Preferably, the material loading assembly line comprises a material loading conveying mechanism for conveying a mobile phone, and a material blocking mechanism and an auxiliary material loading mechanism which are sequentially arranged along the conveying direction of the material loading conveying mechanism, wherein the material blocking mechanism comprises a first lifting mechanism, a material blocking part and a guide part, the material blocking part and the guide part are installed at the output end of the first lifting mechanism, the material blocking part is used for blocking the mobile phone on the material loading conveying mechanism from moving forwards along with the material loading conveying mechanism, the front side of the guide part is a downward inclined plane, the first lifting mechanism is used for driving the material blocking part to ascend so as to cancel blocking of the mobile phone close to the material blocking part, and meanwhile, the guide part enables the mobile phone close to the material blocking part to slide forwards along the inclined plane and block the next mobile phone.

Preferably, at least two of the mobile phone function testing machines are arranged on one side of the blanking assembly line, one of the at least two mobile phone function testing machines is arranged close to the blanking assembly line, the other mobile phone function testing machines are arranged on one side of the mobile phone function testing machine far away from the blanking assembly line, the mobile phone function testing machine further comprises a second conveying line arranged on the machine platform and used for the pick-and-place mechanism to place a tested mobile phone and output the mobile phone, the second conveying lines of the at least two mobile phone function testing machines are connected, and a connection assembly line used for conveying the mobile phone on the second conveying line to the blanking assembly line is arranged between the second conveying line of one of the mobile phone function testing machines and the blanking assembly line.

Preferably, the assembly line of plugging into includes striding and locating the conveyor mechanism that plugs into that is used for accepting the cell-phone on the second transfer chain on the unloading assembly line, locate the conveyor mechanism that plugs into with slope slide between the unloading assembly line and be used for with the cell-phone that the conveyor mechanism that plugs into on pushes away to the pushing equipment of slope slide, the slope slide supplies the cell-phone landing to on the unloading assembly line.

Compared with the prior art, the mobile phone testing device has the advantages that the mobile phone to be tested is placed on the positioning fixtures through the material taking and placing mechanism, each positioning fixture corresponds to one plug module, the plug connector connected with the testing module through the connecting wire is driven by the linear driving mechanism of the plug module to be inserted into the plug port of the mobile phone, the plug connector is automatically plugged with the mobile phone, so that the mobile phone is connected with the testing module, the function of the mobile phone can be tested, after the test is finished, the plug connector is driven by the linear driving mechanism to be pulled out of the plug port of the mobile phone, the mobile phone is taken away through the material taking and placing mechanism, labor cost is saved, testing efficiency is improved, and the problem that the testing result is inaccurate due to manual operation errors is solved. Moreover, by arranging the plurality of positioning fixtures and the plurality of plug modules, each plug module corresponds to one positioning fixture, and in the process that the mobile phone is placed on some positioning fixtures or taken away from some positioning fixtures by the taking and placing mechanism, the mobile phones on other positioning fixtures can be tested, so that the waiting time is saved, and the testing efficiency is further improved.

Drawings

Fig. 1 is a plan view of a testing line for testing functions of a mobile phone according to an embodiment of the present invention.

Fig. 2 is a plan view of a testing line for testing functions of a mobile phone according to another embodiment of the present invention.

Fig. 3 is a perspective view of the mobile phone shown in fig. 2 after the function test line is partially hidden.

Fig. 4 is a perspective view of a stop mechanism according to an embodiment of the utility model.

Fig. 5 is a perspective view of an auxiliary feeding mechanism according to an embodiment of the present invention.

Fig. 6 is a perspective view of a connection assembly line according to an embodiment of the utility model.

Fig. 7 is another state of the docking pipeline of fig. 6.

Fig. 8 is a perspective view of a mobile phone function testing machine according to an embodiment of the utility model.

Fig. 9 is a layout diagram of a positioning fixture in a mounting structure according to an embodiment of the utility model.

Fig. 10 is a perspective view of a positioning fixture and a plug module according to an embodiment of the utility model.

Fig. 11 is a perspective view of a plug module according to an embodiment of the utility model.

Fig. 12 is an electrical control network diagram of a mobile phone function testing machine according to an embodiment of the utility model.

Detailed Description

In order to explain technical contents and structural features of the present invention in detail, the following description is made with reference to the embodiments and the accompanying drawings. It is to be understood that the described embodiments are merely a subset of embodiments of the utility model and not all embodiments of the utility model, with the understanding that the utility model is not limited to the example embodiments described herein. All other embodiments, which can be derived by a person skilled in the art from the described embodiments without inventive effort, shall fall within the scope of protection of the utility model.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "horizontal", "vertical", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, and thus are not to be construed as limiting the scope of the present invention.

The technical scheme of the embodiment of the utility model is explained in detail below with reference to the attached drawings:

referring to fig. 1 to 12, the present invention discloses a mobile phone function testing line for automatically testing mobile phone functions. As shown in fig. 1 to 3, the mobile phone function testing line includes a plurality of mobile phone function testing machines 100 for testing mobile phone functions and a main assembly line 200 for conveying mobile phones 300, where the main assembly line 200 includes a feeding assembly line 201 for conveying mobile phones 300 to be tested for the mobile phone function testing machines 100 to take, and a discharging assembly line 202 for placing the tested mobile phones 300 in the mobile phone function testing machines 100 and conveying the mobile phones 300 to a discharging position.

As shown in fig. 2, the material loading assembly line 201 includes a material loading conveying mechanism 71 for conveying the mobile phone 300, and a material blocking mechanism 72 and an auxiliary material loading mechanism 73 which are sequentially arranged along a conveying direction of the material loading conveying mechanism 71, where the material blocking mechanism 72 is located at a material blocking position, the auxiliary material loading mechanism 73 is located at a material loading position, the mobile phone 300 to be tested is placed on the material loading conveying mechanism 71 through a manual or mechanical device, and the mobile phone 300 is carried by the material loading conveying mechanism 71 to move to the material blocking position, the material loading position, and the like, so that the mobile phone 300 to be tested can be taken by the mobile phone function testing machine 100. The material blocking mechanism 72 and the auxiliary feeding mechanism 73 are respectively provided in plural numbers so as to correspond to the feeding of the plural mobile phone function testing machines 100.

As shown in fig. 4, the material blocking mechanism 72 includes a first lifting mechanism 721, and a material blocking member 722 and a guiding member 723 which are installed at an output end of the first lifting mechanism 721, wherein a distance between the material blocking member 722 and the guiding member 723 is substantially equal to or slightly smaller than a distance required for accommodating a mobile phone 300, the material blocking member 722 and the guiding member 723 are driven by the first lifting mechanism 721 to ascend or descend, so that the material blocking member 722 and the guiding member 723 reach a first height or a second height, respectively, when the material blocking member 722 and the guiding member 723 are at the first height, the material blocking member 722 blocks a front side of the mobile phone 300 located at a rear side of the material loading and conveying mechanism 71, and prevents the mobile phone 300 located at the rear side from moving forward along with the material loading and conveying mechanism 71, and the guiding member 723 is located at a lower side of the mobile phone 300, so as not to interfere with the mobile phone 300. When the first lifting mechanism 721 drives the material blocking member 722 to rise to the second height, the material blocking member 722 is located above the mobile phone 300, the blocking of the mobile phone 300 is cancelled, and the mobile phone 300 (referred to as a previous mobile phone) close to the material blocking member 722 gradually moves forward. The front side of the guiding element 723 is a downward inclined surface 7231, and after the blocking of the previous mobile phone 300 by the blocking element 722 is canceled, in the process that the previous mobile phone 300 gradually moves forward, the guiding element 723 which is raised to the second height is spaced between the two front and rear mobile phones 300, so that the previous mobile phone 300 slides forward along the inclined surface 7231 to block the next mobile phone 300. After the previous mobile phone 300 passes through the position of the material blocking part 722, the first lifting mechanism 721 drives the material blocking part 722 and the guiding part 723 to descend to the first position, so that the guiding part 723 cancels the blocking of the next mobile phone 300, and the next mobile phone 300 is allowed to reach the position of the material blocking part 722. That is, by the cooperation of the first lifting mechanism 721, the material blocking member 722 and the guiding member 723, only one mobile phone 300 is allowed to pass through the material blocking position at a time to reach the material loading position. In order to prevent the rear hand 300 from being lifted up by the striker 72, a plurality of rollers 74 are provided on the rear side of the guide 723, the rollers 74 are fixed to the feeding conveyor 71 by mounting seats 75, and the rollers 74 are located above the rear hand 300.

Wherein, first elevating system 721 is including the lift cylinder 7211 that is used for driving cell-phone 300 to go up and down, the installation board 7212 and the four vertical settings of the installation lift cylinder 7211 that the level set up are used for making lift cylinder 7211 keep a plurality of guiding axles 7213 of vertical lift, a plurality of guiding axles 7213 wear to establish at installation board 7212, keep off material 722, guide 723 and install on guiding axle 7213, guiding axle 7213 is along with lift cylinder 7211 and is made straight reciprocating motion in the vertical direction to bear and keep off material 722, guide 723 and arrive first height or second height.

As shown in fig. 5, the auxiliary feeding mechanism 73 includes a second lifting mechanism 731 and a pushing member 732 mounted on the feeding mechanism 71, a blocking member 733 for blocking the mobile phone 300 is provided on the second lifting mechanism 731, when the second lifting mechanism 731 is lifted, the mobile phone 300 at the feeding position is lifted up, and at the same time, the blocking member 733 is blocked at the front side of the mobile phone 300, the pushing member 732 faces the blocking member 733, and the mobile phone 300 is pushed toward the blocking member 733 by the pushing member 732, so that the mobile phone 300 is adjusted to a position suitable for the mobile phone function testing machine 100 to take. An in-place sensor is disposed at the rear side of the blocking member 733, and the in-place sensor senses whether the mobile phone 300 is pushed in place.

The second lifting mechanism 731 comprises a lifting cylinder 7311 for driving the mobile phone 300 to lift, a horizontally arranged mounting plate 7312 for mounting the lifting cylinder 7311, and four vertical guide shafts 7313 for keeping the lifting cylinder 7311 vertically lifted, the guide shafts 7313 penetrate through the mounting plate 7312, the mobile phone 300 and the blocking part 733 are mounted on a bearing structure 7314, the bearing structure 7314 is mounted on the guide shafts 7313, the guide shafts 7313 make linear reciprocating motion along with the lifting cylinder 7311 in the vertical direction, so as to realize that the mobile phone 300 is borne and the blocking part 733 ascends, thereby facilitating the mobile phone function testing machine 100 to take the mobile phone 300 to be tested.

The pushing member 732 includes a pushing cylinder 7321 and a pushing block 7322 connected to an output end of the pushing cylinder 7321, the pushing cylinder 7321 is mounted on the feeding mechanism 71 through a mounting seat 7323, and the pushing cylinder 7321 drives the pushing block 7322 to push the mobile phone 300 toward the blocking member 733, so as to adjust the mobile phone 300 to a position suitable for the mobile phone function testing machine 100 to take.

The blanking line 202 includes a blanking conveying mechanism (similar to the feeding conveying mechanism 71 in structure) for conveying the mobile phone 300 and an auxiliary blanking mechanism (not shown, similar to the second lifting mechanism 731 in structure), where the auxiliary blanking mechanism is lifted to receive the mobile phone 300 that is placed by the mobile phone function testing machine 100 and has been tested, and then the mobile phone 300 is carried and lowered to place the mobile phone 300 on the blanking conveying mechanism, and the mobile phone 300 is conveyed to a blanking position by the blanking conveying mechanism. The blanking conveying mechanism is connected with a blanking slideway (not shown) which is obliquely arranged, and the mobile phone 300 which reaches the blanking position slides out of the blanking conveying mechanism through the blanking slideway.

Referring to fig. 8 to 12, the mobile phone function testing machine 100 includes a frame 1, a plurality of positioning jigs 2 disposed in the frame 1, a plurality of plug modules 3, and two material taking and placing mechanisms 4, wherein the frame 1 includes a machine base 11 and a door panel 12 (as shown in fig. 8) disposed around the machine base 11. The positioning jigs 2 are disposed on the machine platform 11 for placing the mobile phone 300, and each positioning jig 2 is provided with a sensor 21 (as shown in fig. 10) for detecting whether the mobile phone 300 is placed. Each plug module 3 is disposed corresponding to one positioning fixture 2 (as shown in fig. 8), the plug module 3 includes a plug connector 31 and a linear driving mechanism 32 for driving the plug connector 31 to make a linear reciprocating motion so as to insert the plug connector 31 into the socket of the mobile phone 300 or to pull out the plug connector of the mobile phone 300, the plug connector 31 is connected to an output end of the linear driving mechanism 32 (as shown in fig. 11), and is connected to the testing module 5 through a connection line 311 to test the mobile phone 300. The material taking and placing mechanism 4 is used for taking the mobile phone 300 to be tested to be placed on the positioning fixture 2 and taking the mobile phone 300 which is tested on the positioning fixture 2 away. The two material taking and placing mechanisms 4 are four-shaft mechanical arms, but the utility model should not be limited to this.

According to the utility model, the mobile phone 300 to be tested is placed on the positioning jigs 2 through the material taking and placing mechanism 4, each positioning jig 2 corresponds to one plug module 3, the straight line driving mechanism 32 of the plug module 3 drives the plug-in connector 31 connected with the testing module 5 through the connecting line 311 to be inserted into the plug-in port of the mobile phone 300, so that the plug-in connector 31 is automatically plugged with the mobile phone 300, the mobile phone 300 is connected with the testing module 5, further, the function test of the mobile phone can be carried out, after the test is finished, the plug-in connector 31 is driven to be pulled out from the plug-in port of the mobile phone 300 through the straight line driving mechanism 32, and the mobile phone 300 is taken away through the material taking and placing mechanism 4, so that the labor cost is saved, the testing efficiency is improved, and the problem of inaccurate testing result caused by human misoperation is avoided. Moreover, by arranging the plurality of positioning jigs 2 and the plurality of plug modules 3, each plug module 3 corresponds to one positioning jig 2, and in the process that the picking and placing mechanism 4 places the mobile phone 300 on some positioning jigs 2 or picks the mobile phone 300 away from some positioning jigs 2, the mobile phone 300 on other positioning jigs 2 can be tested, so that the waiting time is saved, and the testing efficiency is further improved.

As shown in fig. 8 and 9, two mounting structures 13 for supporting the positioning jigs 2 are disposed on the machine platform 11, each mounting structure 13 includes a mounting bracket 131 disposed on the machine platform 11, and a first mounting platform 132 and a second mounting platform 133 disposed on the mounting bracket 131 and having different heights, the positioning jigs 2 are arranged in multiple rows, and a row of positioning jigs 2 is respectively disposed on the first mounting platform 132 and the second mounting platform 133.

Further, the height of the first installation platform 132 is lower than that of the second installation platform 133, the first installation platform 132 is slidably disposed on the installation support 131, the first installation platform 132 can selectively slide to the position under the second installation platform 133, or slide to the position beyond the position under the second installation platform 133, so that the first installation platform 132 and the second installation platform 133 are different in height and are flatly laid on the machine platform 11, and further the positioning jigs 2 are different in height and are flatly laid on the machine platform 11, so that the mobile phone 300 can be taken and placed by the taking and placing mechanism 4.

As shown in fig. 11, the linear driving mechanism 32 includes a driving cylinder 321 disposed below the positioning fixture 2, a sliding seat 322 connected to an output end of the driving cylinder 321, and a sliding rail 323 for the sliding seat 322 to slide linearly, wherein the sliding seat 322 includes a seat body 3221 slidably disposed on the sliding rail 323 and two first protrusions 3222 convexly disposed on the seat body 3221; the plug 31 includes a plug body 312 disposed on the seat 3221 and two second protrusions 313 connected to two opposite sides of the plug body 312, each second protrusion 313 and one first protrusion 3222 are disposed opposite to each other in the plugging and unplugging direction of the plug body 312, and an elastic member 324 is connected between each second protrusion 313 and the corresponding first protrusion 3222. During the process of driving the air cylinder 321 to drive the plug 31 to be inserted into the socket of the mobile phone 300, the elastic member 324 is compressed, that is, the plug 31 is flexibly inserted into the socket of the mobile phone 300, so as to prevent the plug 31 or the socket of the mobile phone 300 from being damaged. In this embodiment, the elastic member 324 is a spring, but should not be limited thereto.

As shown in fig. 12, the test module 5 includes a central industrial computer 51 and a plurality of intermediate electronic devices 52 (for example, six) in communication connection with the central industrial computer 51, the plurality of intermediate electronic devices 52 are in communication connection with the central industrial computer 51 through a switch 53, each intermediate electronic device 52 is connected to a connection line 311 of a plurality of connectors 31 (for example, five connectors), and test data, such as test instructions and test result data, are transmitted between the central industrial computer 51 and the mobile phone 300 through the intermediate electronic devices 52 and the connectors 31. The central industrial personal computer 51 is provided with test software, and the central industrial personal computer 51 is used for controlling and realizing the test of the mobile phones 300 on the plurality of positioning jigs 2. In addition, the central industrial personal computer 51 is also in communication connection with the feeding conveying mechanism 71, the material blocking mechanism 72, the auxiliary feeding mechanism 73, the blanking conveying mechanism, the plug module 3, the material taking and placing mechanism 4 and the like of the main assembly line 200 through an EtherCAT bus so as to realize the work control of the main assembly line 200, the plug module 3, the material taking and placing mechanism 4 and the like. The intermediate electronic device 52 may be a computer, such as a Mac mini or the like. The plug 31 may be, for example, an E75 connector or the like.

Incidentally, what functional units are specifically included in the test module 5 to enable normal mobile phone function tests is prior art and will not be described herein again.

Referring to fig. 1 to 3, the mobile phone function testing machines 100 may be disposed on two opposite sides of the main pipeline 200, as shown in fig. 1, or disposed on the same side of the main pipeline 200, as shown in fig. 2. In the embodiment shown in fig. 2, two cellular phone function testing machines 100 are disposed on one side of the blanking line 202, one of the cellular phone function testing machines 100 is disposed near the blanking line 202, and the other cellular phone function testing machine 100 is disposed on the side of the cellular phone function testing machine 100 away from the blanking line 202. As shown in fig. 1 to fig. 3, in order to facilitate loading and unloading of the other mobile phone function testing machine 100, a first conveying line 61 for conveying a mobile phone 300 to be tested to be taken by the pick-and-place mechanism 4 and a second conveying line 62 for placing the tested mobile phone 300 by the pick-and-place mechanism 4 and outputting the mobile phone 300 are further disposed on the machine 11 of the mobile phone function testing machine 100, the second conveying line 62 is disposed at a middle position of the machine 11, a plurality of positioning jigs 2 are disposed on two opposite sides of the second conveying line 62, the second conveying lines 62 of the two mobile phone function testing machines 100 are connected, and a connecting line 63 for conveying the mobile phone 300 on the second conveying line 62 to the unloading line 202 is disposed between the second conveying line 62 of the one of the mobile phone function testing machines 100 and the unloading line 202.

Referring to fig. 6 and 7, the connection assembly line 63 includes a connection conveying mechanism 631 straddling over the blanking assembly line 202 and used for receiving the mobile phone 300 on the second conveying line 62, an inclined slide 632 disposed between the connection conveying mechanism 631 and the blanking assembly line 202, and a material pushing structure 633 for pushing the mobile phone 300 on the connection conveying mechanism 631 to the inclined slide 632, and the mobile phone 300 pushed to the inclined slide 632 automatically slides down to the blanking assembly line 202 along the inclined slide 632 and is conveyed to the blanking position through the blanking assembly line 202. The pushing structure 633 comprises a pushing cylinder 6331 and a pushing block 6332 connected to the output end of the pushing cylinder 6331, the pushing block 6332 is disposed opposite to the inclined slide 632, and the pushing cylinder 6331 drives the pushing block 6332 to move towards the inclined slide 632, so as to push the mobile phone 300 on the connecting and conveying mechanism 631 to the inclined slide 632.

Next, the operation of the mobile phone function test line 100 will be described by taking an embodiment of the present invention as an example.

Firstly, a mobile phone 300 to be tested is placed on an upper material flow line 201, and the mobile phone 300 is conveyed to an upper material level through the upper material flow line 201; then, the auxiliary feeding mechanism 73 supports the mobile phone 300 at the feeding position upwards, and pushes the mobile phone 300 to a position suitable for the taking and placing mechanism 4 to take; then, the taking and placing mechanism 4 takes the mobile phone 300, moves to the position of the idle positioning jig 2 and places the mobile phone 300 on the idle positioning jig 2; then, the linear driving mechanism 32 of the plug module 3 drives the plug connector 31 to be inserted into the plug port of the mobile phone 300, so as to perform a function test of the mobile phone, and after the test is completed, the linear driving mechanism 32 drives the plug connector 31 to be pulled out from the plug port of the mobile phone 300; if the test is passed, the taking and placing mechanism 4 takes the mobile phone 300 on the positioning jig 2 to be placed on the blanking assembly line 202/the second conveying line 62, the mobile phone 300 is conveyed to a blanking position through the blanking assembly line 202, and the taking and placing mechanism 4 returns to an initial position to wait for the next operation; if the test is not passed, the linear driving mechanism 32 drives the plug-in connector 31 to be inserted into the plug-in port of the mobile phone 300 again, the mobile phone function test is carried out again, and after the test is finished, the linear driving mechanism 32 drives the plug-in connector 31 to be pulled out of the plug-in port of the mobile phone 300; if the test is passed, the taking and placing mechanism 4 takes the mobile phone 300 on the positioning jig 2 to be placed on the blanking assembly line 202/the second conveying line 62, the mobile phone 300 is conveyed to a blanking position through the blanking assembly line 202, and the taking and placing mechanism 4 returns to an initial position to wait for the next operation; if the test still fails, the taking and placing mechanism 4 takes the mobile phone 300 on the positioning jig 2 away, and places the mobile phone 300 on the positioning jig 2 to other positioning jigs 2 for testing, and if the test fails again, the taking and placing mechanism 4 takes the mobile phone 300 on the positioning jig 2 away and places the mobile phone 300 on the failure temporary storage area.

In conclusion, the utility model realizes that the mobile phone 300 to be tested is conveyed to the upper material level from the delivering position, the plug connector 31 is automatically inserted into the plug port of the mobile phone 300 or pulled out from the plug port of the mobile phone 300, and the mobile phone 300 which is tested is automatically conveyed to the blanking position, thereby saving the labor cost, improving the testing efficiency and avoiding the problem of inaccurate testing result caused by manual operation errors. Moreover, each testing machine 100 is provided with a plurality of positioning jigs 2 and a plurality of plug modules 3, and in the process that the picking and placing mechanism 4 places the mobile phone 300 on some positioning jigs 2 or picks the mobile phone 300 from some positioning jigs 2, the mobile phones 300 of other positioning jigs 2 can be tested, so that the waiting time is saved, and the testing efficiency is further improved.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the scope of the present invention, therefore, the present invention is not limited by the appended claims.

Claims (10)

1. A mobile phone function testing machine is characterized by comprising:

a machine platform;

the positioning jigs are arranged on the machine table and used for placing the mobile phone;

each plug module corresponds to one positioning jig and comprises a plug connector and a linear driving mechanism which is used for driving the plug connector to do linear reciprocating motion so as to enable the plug connector to be inserted into or pulled out of a plug port of a mobile phone, the plug connector is connected to the output end of the linear driving mechanism, and the plug connector is connected with a testing module through a connecting wire so as to test the mobile phone; and

and the material taking and placing mechanism is used for taking the mobile phone to be tested, placing the mobile phone to be tested to the positioning jig and taking the mobile phone which is tested on the positioning jig away.

2. The mobile phone function testing machine of claim 1, further comprising a plurality of mounting structures, wherein the mounting structures comprise a mounting bracket disposed on the machine platform and a first mounting platform and a second mounting platform disposed on the mounting bracket and having different heights, the plurality of positioning jigs are arranged in a plurality of rows, and at least one row of positioning jigs is disposed on each of the first mounting platform and the second mounting platform.

3. The phone function testing machine of claim 2, wherein the first mounting platform has a height lower than a height of the second mounting platform, the first mounting platform is slidably disposed on the mounting bracket, and the first mounting platform is selectively slidable to a position directly below the second mounting platform or to a position other than directly below the second mounting platform.

4. The mobile phone function testing machine of claim 1, wherein the linear driving mechanism includes a driving cylinder, a sliding seat connected to an output end of the driving cylinder, and a sliding rail for the sliding seat to slide linearly, the sliding seat includes a seat body slidably disposed on the sliding rail and two first protrusions protruding from the seat body, the plug connector includes a plug body disposed on the seat body and two second protrusions connected to two opposite sides of the plug body, each of the second protrusions and one of the first protrusions are disposed opposite to each other in a plugging direction of the plug body, and an elastic member is connected between each of the second protrusions and the corresponding first protrusion, so that the plug connector is flexibly plugged into a plug port of a mobile phone.

5. The mobile phone function testing machine as claimed in claim 1, further comprising the testing module, wherein the testing module comprises a central industrial personal computer and a plurality of intermediate electronic devices communicatively connected to the central industrial personal computer, each of the intermediate electronic devices being connected to a plurality of connecting lines of the connectors, so as to transmit test data between the central industrial personal computer and the mobile phone.

6. The mobile phone function testing machine as claimed in any one of claims 1 to 5, further comprising a first conveying line disposed on the machine platform for conveying the mobile phone to be tested for the pick-and-place mechanism to pick up, and a second conveying line disposed on the machine platform for the pick-and-place mechanism to place the tested mobile phone and output the mobile phone.

7. A mobile phone function test line, characterized by comprising a plurality of mobile phone function test machines according to any one of claims 1 to 5, a feeding assembly line for conveying mobile phones to be tested for taking by the taking and placing mechanism, and a discharging assembly line for placing the tested mobile phones by the taking and placing mechanism and conveying the mobile phones to a discharging position.

8. The mobile phone function test line according to claim 7, wherein the material loading assembly line comprises a material loading conveying mechanism for conveying the mobile phone, and a material blocking mechanism and an auxiliary material loading mechanism which are sequentially arranged along a conveying direction of the material loading conveying mechanism, the material blocking mechanism comprises a first lifting mechanism, a material blocking member and a guide member, the material blocking member is installed at an output end of the first lifting mechanism and used for blocking the mobile phone on the material loading conveying mechanism from moving forward along with the material loading conveying mechanism, a front side of the guide member is a downward inclined surface, the first lifting mechanism is used for driving the material blocking member to ascend so as to cancel blocking of the mobile phone close to the material blocking member, and meanwhile, the guide member enables the mobile phone close to the material blocking member to slide forward along the inclined surface and block a next mobile phone.

9. The mobile phone function test line of claim 7, wherein at least two mobile phone function test machines are arranged on one side of the blanking production line, one of the at least two mobile phone function testing machines is arranged close to the blanking production line, the other mobile phone function testing machines are arranged on one side of one mobile phone function testing machine far away from the blanking assembly line, the mobile phone function testing machine also comprises a second conveying line which is arranged on the machine table and used for the taking and placing mechanism to place the tested mobile phone and output the mobile phone, and a connection assembly line for conveying the mobile phones on the second conveying line to the blanking assembly line is arranged between the second conveying line of one of the mobile phone function testing machines and the blanking assembly line.

10. The mobile phone function test line of claim 9, wherein the connection assembly line comprises a connection conveying mechanism arranged across the blanking assembly line and used for receiving the mobile phone on the second conveying line, an inclined slide arranged between the connection conveying mechanism and the blanking assembly line, and a material pushing structure used for pushing the mobile phone on the connection conveying mechanism to the inclined slide, wherein the inclined slide is used for sliding the mobile phone onto the blanking assembly line.

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