CN217825059U - Mobile phone test system - Google Patents

Abstract

The utility model discloses a mobile phone test system, which comprises a conveying module, wherein the conveying module is used for conveying a mobile phone along a preset conveying path; the mobile phone testing system comprises a testing device, a mobile phone and a conveying path, wherein the conveying path comprises a first conveying path, a second conveying path and a third conveying path, the first conveying path is used for conveying the mobile phone to be tested, the second conveying path is used for conveying the mobile phone which is qualified in testing, and the third conveying path is used for conveying the mobile phone which is unqualified in testing; the test module is used for carrying out performance test on the mobile phone; the carrying module is used for moving the mobile phone on the first transmission path to the testing module so that the mobile phone can carry out corresponding performance testing through the testing module. Through the utility model discloses the realization improves the efficiency of software testing of cell-phone to satisfy the high-speed development target of enterprise.

Description

Mobile phone test system

Technical Field

The utility model relates to a cell-phone test technical field, in particular to cell-phone test system.

Background

At present, since a smart phone has multiple functions, after the complete assembly of the smart phone is completed, various functions of the smart phone need to be tested, specifically including a physical key test, a vibration test, a flash lamp test, a touch screen test, a gyroscope sensor test, an acceleration sensor test, a distance sensor test, a light sensor test, a charging interface test, and the like, so as to ensure that various performances of the smart phone meet product quality requirements. The testing efficiency of the current mobile phone testing system is not high, and the high-speed development target of an enterprise cannot be met.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a cell-phone test system aims at realizing improving the efficiency of software testing of cell-phone to satisfy the high-speed development target of enterprise.

In order to achieve the above object, the utility model provides a mobile phone test system, include:

the mobile phone conveying device comprises a conveying module, a receiving module and a control module, wherein the conveying module is used for conveying the mobile phone along a preset conveying path; the mobile phone testing system comprises a testing device, a mobile phone and a conveying path, wherein the conveying path comprises a first conveying path, a second conveying path and a third conveying path, the first conveying path is used for conveying the mobile phone to be tested, the second conveying path is used for conveying the mobile phone which is qualified in testing, and the third conveying path is used for conveying the mobile phone which is unqualified in testing;

the testing module is positioned on the transmission path and used for testing the performance of the mobile phone;

the carrying module is positioned on the transmission path and used for moving the mobile phone positioned on the first transmission path to the test module so as to facilitate the mobile phone to carry out corresponding performance test through the test module; and moving the mobile phone positioned on the testing module to the second transmission path or the third transmission path according to the testing result fed back by the testing module.

Optionally, the test module comprises a first test module, a second test module and a third test module which are sequentially arranged; the first test module comprises a physical key test component, a vibration test component, a flash lamp test component and a touch screen test component; the second testing module comprises an inductor testing component, and the inductor testing component is used for carrying out gyroscope inductor testing and acceleration inductor testing on the mobile phone; the third testing module comprises a sensor testing component and a charging interface testing component, and the sensor testing component is used for testing the distance sensor and the light sensor of the mobile phone.

Optionally, the first testing module comprises a first placing seat for bearing the mobile phone, the physical key testing component and the flash lamp testing component are respectively located on two sides of a side portion of the first placing seat, the vibration testing component is located at the bottom of the first placing seat, and the touch screen testing component is located above the first placing seat.

Optionally, a first side portion and a second side portion of the first placing seat are respectively provided with a first fixing piece and a second fixing piece, and the first side portion is adjacent to the second side portion; a first positioning piece and a first driving device are arranged on a third side portion of the first placing seat, the third side portion is arranged opposite to the first side portion, the first positioning piece is in driving connection with the first driving device, and the first positioning piece moves towards the first fixing piece through the first driving device; the fourth side of the first placing seat is provided with a second positioning piece and a second driving device, the fourth side and the second side are arranged oppositely, the second positioning piece is in driving connection with the second driving device, and the second positioning piece moves towards the second fixing piece through the second driving device.

Optionally, the second testing module comprises a second placing seat for bearing the mobile phone, the second placing seat is in driving connection with the sensor testing component, and the sensor testing component is used for driving the second placing seat to rotate by a first angle along an X axis, a Y axis and a Z axis respectively, so as to perform gyroscope sensor testing and acceleration sensor testing on the mobile phone.

Optionally, two opposite sides of the second placing seat are respectively provided with a first clamping block, and the mobile phone is fixed on the second placing seat through the first clamping blocks located on the two opposite sides.

Optionally, the third testing module includes a third placing seat for bearing the mobile phone, the third placing seat is in driving connection with the sensor testing component, and the sensor testing component is configured to drive the third placing seat to rotate by a second angle, so as to perform a distance sensor test and a light sensor test on the mobile phone; the charging interface testing assembly is located on one side, close to the charging interface of the mobile phone, of the third placing seat.

Optionally, two opposite sides of the third placing seat are respectively provided with a second clamping block, and the mobile phone is fixed on the third placing seat through the second clamping blocks located on the two opposite sides.

Optionally, the carrying module comprises a moving assembly and a carrying assembly, and the moving assembly is used for driving the carrying assembly to move along a preset carrying path; the carrying assembly is of a double-station structure and comprises a connecting piece, a rotating plate and two grabbing portions, the connecting piece is in driving connection with the moving assembly, a rotary driving device is arranged on the connecting piece, one side of the rotating plate is in driving connection with the rotary driving device, two opposite ends of the other side of the rotating plate are respectively connected with the grabbing portions, and the grabbing portions are used for grabbing and fixing the mobile phone.

Optionally, the moving assembly comprises a three-axis moving mechanism, and the gripping part comprises a vacuum adsorption device.

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

the utility model discloses a set up first transfer path, second transfer path and third transfer path on the transfer path who carries the module respectively, it is specific, first transfer path is used for carrying the cell-phone that awaits measuring, and second transfer path is used for carrying the qualified cell-phone of test, and third transfer path is used for carrying the unqualified cell-phone of test. The mobile phone on the first transmission path is moved to the test module by the carrying module, so that the mobile phone can carry out corresponding performance test through the test module; and then, according to the test result fed back by the test module, the mobile phone positioned on the test module is moved to the second transmission path or the third transmission path. By setting three different transmission paths for division of labor, the efficient test of the mobile phone and the processing classification after the test are realized, so that the test efficiency of the mobile phone is improved, and the high-speed development target of an enterprise is met.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the description below are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic view of an overall structure of an embodiment of the mobile phone test system of the present invention;

fig. 2 is a schematic structural diagram of a first test module in an embodiment of the mobile phone test system of the present invention;

fig. 3 is a schematic structural diagram of a first placing seat in an embodiment of the testing system for mobile phones according to the present invention;

fig. 4 is a schematic structural diagram of a second testing module in an embodiment of the testing system of the present invention;

fig. 5 is a schematic structural view of a second placing seat in an embodiment of the testing system for mobile phones according to the present invention;

fig. 6 is a schematic structural diagram of a third testing module in an embodiment of the testing system for mobile phones of the present invention;

fig. 7 is a schematic structural view of a third placing seat in an embodiment of the testing system for mobile phones of the present invention;

fig. 8 is a schematic structural diagram of a carrying module in an embodiment of the mobile phone testing system of the present invention;

fig. 9 is a schematic structural diagram of a conveying module in an embodiment of the mobile phone testing system of the present invention;

fig. 10 is a schematic structural diagram of a touch screen testing component in an embodiment of the mobile phone testing system of the present invention.

The names of the components identified in the figures are as follows:

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, only some embodiments, not all embodiments, of the present invention are described. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

The embodiment discloses a mobile phone testing system, which refers to fig. 1-10, and includes a conveying module 1, wherein the conveying module is used for conveying a mobile phone along a preset conveying path; the transmission paths comprise a first transmission path 101, a second transmission path 102 and a third transmission path 103, wherein the first transmission path 101 is used for transmitting the mobile phones to be tested, the second transmission path 102 is used for transmitting the mobile phones which are qualified in the test, and the third transmission path 103 is used for transmitting the mobile phones which are unqualified in the test; the testing module 2 is positioned on the transmission path and used for testing the performance of the mobile phone; the carrying module 3 is positioned on the transmission path, and the carrying module 3 is used for moving the mobile phone positioned on the first transmission path 101 to the testing module 2 so that the mobile phone can carry out corresponding performance tests through the testing module 2; and moving the mobile phone on the testing module 2 to the second transmission path 102 or the third transmission path 103 according to the testing result fed back by the testing module 2.

In this embodiment, a first transmission path 101, a second transmission path 102 and a third transmission path 103 are respectively disposed on the transmission path of the conveying module 1, specifically, the first transmission path 101 is used for conveying the mobile phones to be tested, the second transmission path 102 is used for conveying the mobile phones that are qualified in the test, and the third transmission path 103 is used for conveying the mobile phones that are unqualified in the test. The mobile phone on the first transmission path 101 is moved to the test module 2 by the carrying module 3, so that the mobile phone can perform corresponding performance tests through the test module 2; then, according to the test result fed back by the test module 2, the mobile phone located on the test module 2 is moved to the second transmission path 102 or the third transmission path 103. By setting three different transmission paths for division of labor, the efficient test of the mobile phone and the processing classification after the test are realized, so that the test efficiency of the mobile phone is improved, and the high-speed development target of an enterprise is met.

As a preferable solution of the above embodiment, the test module 2 includes a first test module 201, a second test module 202, and a third test module 203, which are sequentially arranged; the first test module 201 comprises a physical key test component 4, a vibration test component 5, a flash lamp test component 6 and a touch screen test component 7; the second testing module 202 comprises a sensor testing component 10, and the sensor testing component 10 is used for carrying out gyroscope sensor testing and acceleration sensor testing on the mobile phone; the third testing module 203 comprises a sensor testing component 12 and a charging interface testing component 13, wherein the sensor testing component 12 is used for performing a distance sensor test and a light sensor test on the mobile phone. So set up, through setting up three test module 2 (first test module 201, second test module 202 and third test module 203), realize the rational configuration to the test project of cell-phone, strive for to realize the most comprehensive cell-phone capability test with minimum test module 2.

Specifically, two first test modules 201 are provided, and one second test module 202 and one third test module 203 are provided. So set up, because the project that first test module 201 tested is longer for two other consuming times, consequently set up two with first test module 201 to satisfy continuity and the rationality of capability test.

As a preferable solution of the above embodiment, the first testing module 201 includes a first placing seat 8 for bearing the mobile phone, the physical key testing component 4 and the flash lamp testing component 6 are respectively located at two sides of a side portion of the first placing seat 8, the vibration testing component 5 is located at a bottom of the first placing seat 8, and the touch screen testing component 7 is located above the first placing seat 8.

Specifically, regarding the physical key test component 4: the side part of the first placing seat 8 is provided with an extrusion part 401 and a driving device thereof, and the extrusion part 401 is used for repeatedly extruding the keys positioned on the side part of the mobile phone so as to realize the purpose of performing performance test on the physical keys of the mobile phone.

Specifically, regarding the strobe light test assembly 6: considering that the flashlight of the mobile phone is arranged on the back of the mobile phone, since the CCD vision detecting system 602 above the first placing seat 8 is not convenient to detect, the light of the flashlight is guided to the light guiding block 601 at the side of the first placing seat 8 by arranging the high conducting wire, and then the CCD vision detecting system 602 is utilized to detect whether the light guiding block 601 has bright light, so as to realize the purpose of performing performance test on the flashlight of the mobile phone.

Specifically, with respect to the shock test assembly 5: the bottom of the first placing seat 8 is provided with a vibration sensor 501, and the vibration sensor 501 is used for detecting the vibration condition of the mobile phone so as to realize the purpose of vibration test on the mobile phone.

Specifically, regarding the touch screen test assembly 7: the upper touch pen 701 and the triaxial moving mechanism thereof are arranged above the first placing seat 8, the triaxial moving mechanism slides a preset first pattern on the mobile phone screen through the touch pen 701, and then whether a second pattern detected by the triaxial moving mechanism is matched with the first pattern or not is detected from the mobile phone end, so that the purpose of performing performance test on the touch screen of the mobile phone is achieved.

Specifically, a first fixing member 801 and a second fixing member 802 are respectively disposed on a first side portion and a second side portion of the first placing seat 8, and the first side portion and the second side portion are disposed adjacent to each other; a first positioning piece 803 and a first driving device are arranged on the third side of the first placing seat 8, the third side is arranged opposite to the first side, the first positioning piece 803 is in driving connection with the first driving device, and the first positioning piece 803 moves towards the first fixing piece 801 by the first driving device; the fourth side of the first placing seat 8 is provided with a second positioning element 804 and a second driving device, the fourth side and the second side are arranged oppositely, the second positioning element 804 is in driving connection with the second driving device, and the second positioning element 804 moves toward the second fixing element 802 through the second driving device. With such an arrangement, the mobile phone is placed in the middle of the first placing seat 8, and on the other hand, the first positioning element 803 is driven by the first driving device to approach the first fixing element 801, so that the mobile phone is positioned between the first positioning element 803 and the first fixing element 801; on the other hand, the second driving device drives the second positioning element 804 to approach the second fixing element 802, so as to position the mobile phone between the second positioning element 804 and the second fixing element 802, thereby realizing the positioning of the mobile phone.

As a preferable solution of the above embodiment, the second testing module 202 includes a second placing seat 9 for bearing the mobile phone, the second placing seat 9 is in driving connection with the sensor testing component 10, and the sensor testing component 10 is configured to drive the second placing seat 9 to rotate along the X axis, the Y axis and the Z axis by a first angle respectively, so as to perform the gyroscope sensor test and the acceleration sensor test on the mobile phone. So set up, drive the second through inductor test subassembly 10 and place seat 9 and rotate first angle along X axle, Y axle and Z axle respectively, at rotatory in-process, carry out real-time detection to inside gyroscope inductor and the acceleration inductor of cell-phone to the realization carries out gyroscope inductor test and the purpose that the acceleration inductor tested to the cell-phone. In this embodiment, the first angle is 45 degrees.

Specifically, the two opposite sides of the second placing base 9 are respectively provided with a first clamping block 901, and the mobile phone is fixed on the second placing base 9 through the first clamping blocks 901 located on the two opposite sides. So set up, press from both sides tightly the cell-phone through being located the first tight piece 901 of clamp of left and right sides and acting on simultaneously to ensure that the cell-phone that is located on the second and places seat 9 in rotatory process can not drop midway, lead to the finished product quality of cell-phone to harm. This embodiment simple structure practicality is strong.

As a preferable solution of the above embodiment, the third testing module 203 includes a third placing seat 11 for bearing the mobile phone, the third placing seat 11 is in driving connection with the sensor testing component 12, and the sensor testing component 12 is configured to drive the third placing seat 11 to rotate by a second angle, so as to perform a distance sensor test and a light sensor test on the mobile phone; the charging interface testing component 13 is located on one side of the third placing seat 11 close to the charging interface of the mobile phone. Specifically, the second angle is 180 degrees.

Specifically, with respect to the sensor testing assembly 12: the light source element 1201 is arranged below the third placing seat 11, when the sensor testing component 12 drives the third placing seat 11 to rotate 180 degrees, so that the mobile phone on the third placing seat 11 is aligned with the light source element 1201, the light quantity received by the mobile phone is correspondingly changed, and in the process, the light sensor inside the mobile phone is detected in real time, so that the purpose of performing performance testing on the light sensor of the mobile phone is achieved. Meanwhile, in the process of rotating the third placing seat 11, the distance between the front surface of the mobile phone and the object changes correspondingly, and the distance sensor inside the mobile phone is detected in real time in the process, so that the purpose of performing performance test on the distance sensor of the mobile phone is achieved.

Specifically, regarding the charging interface test component 13: the charging interface testing assembly 13 is arranged on one side, close to a charging interface of the mobile phone, of the third placing seat 11, and firstly, the charging line 1301 in the charging interface testing assembly 13 is inserted into the charging interface of the mobile phone through the driving device so as to observe the charging condition of the mobile phone, and therefore the purpose of performing performance testing on the charging interface of the mobile phone is achieved. When the interface that charges is type-C interface, because type-C interface is that the positive and negative all can insert all can charge, after sensor test subassembly 12 drove the third and place seat 11 and rotate 180 degrees, reuse charge in the interface test subassembly 13 that charges charging line 1301 passes through drive arrangement and inserts to the interface that charges of cell-phone in to observe the charging condition of cell-phone.

Specifically, the two opposite sides of the third placing seat 11 are respectively provided with a second clamping block 1101, and the mobile phone is fixed on the third placing seat 11 through the second clamping blocks 1101 located on the two opposite sides. With the arrangement, the mobile phone is clamped by the second clamping blocks 1101 on the left side and the right side, so that the mobile phone on the second placing seat 9 cannot fall off midway in the rotation process, and the quality of a finished product of the mobile phone is damaged. This embodiment simple structure practicality is strong.

As a preferable solution of the above embodiment, the carrying module 3 includes a moving component 301 and a carrying component 302, where the moving component 301 is used for driving the carrying component 302 to move along a preset carrying path; the carrying assembly 302 is a double-station structure, and includes a connecting member 3021, a rotating plate 3022, and two grasping portions 3023, the connecting member 3021 is drivingly connected to the moving assembly 301, a rotation driving device (not shown in the drawings) is disposed on the connecting member 3021, one side of the rotating plate 3022 is drivingly connected to the rotation driving device, the other opposite ends of the rotating plate 3022 are respectively connected to the grasping portions 3023, and the grasping portions 3023 are used for grasping and fixing the mobile phone. So set up, set up handling subassembly 302 into duplex position structure, can realize once moving, can carry out one and grab one and put two steps operation to the cell-phone to further improve the efficiency of software testing of cell-phone. As an example, after one of the grasping portions 3023 grasps a tested handset placed on the first placement base 8, the rotation driving means drives the rotation plate 3022 to rotate horizontally by 180 degrees, so that the other grasping portion 3023 is aligned with the first placement base 8, and the other grasping portion 3023 places the handset to be tested grasped on the first placement base 8 for performance testing.

Specifically, the moving assembly 301 includes a three-axis moving mechanism, and the grip section 3023 includes a vacuum suction device. With this arrangement, a three-axis moving mechanism is adopted as the moving assembly 301 to realize the movement of the carrying assembly 302 in the X-axis, Y-axis and Z-axis directions, thereby ensuring effective carrying movement of the mobile phone. The vacuum adsorption device is used as the grabbing part 3023, the mobile phone is grabbed and fixed by vacuum adsorption, and the phenomenon that the appearance of the mobile phone is squeezed by external force to generate scratches, so that the quality of a finished product is damaged is avoided.

It should be noted that other contents of the mobile phone test system disclosed in the present invention are prior art and are not described herein again.

In addition, it should be noted that, if directional indications (such as up, down, left, right, front, and back \8230;) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative positional relationship between the components, the motion situation, and the like in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indications are correspondingly changed.

Furthermore, it should be noted that the description relating to "first", "second", etc. in the present invention is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicit to the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

Above only be the utility model discloses an optional embodiment, and not consequently the restriction the utility model discloses a patent range all is in the utility model discloses direct/indirect application all is included in other relevant technical field the utility model discloses a within range is protected to the patent.

Claims (10)

1. A mobile phone test system, comprising:

the mobile phone conveying device comprises a conveying module, a receiving module and a control module, wherein the conveying module is used for conveying the mobile phone along a preset conveying path; the mobile phone testing system comprises a testing device, a mobile phone and a conveying path, wherein the conveying path comprises a first conveying path, a second conveying path and a third conveying path, the first conveying path is used for conveying the mobile phone to be tested, the second conveying path is used for conveying the mobile phone which is qualified in testing, and the third conveying path is used for conveying the mobile phone which is unqualified in testing;

the testing module is positioned on the transmission path and used for testing the performance of the mobile phone;

the carrying module is positioned on the transmission path and used for moving the mobile phone positioned on the first transmission path to the test module so as to facilitate the mobile phone to carry out corresponding performance test through the test module; and moving the mobile phone on the test module to the second transmission path or the third transmission path.

2. The handset test system of claim 1, wherein: the test module comprises a first test module, a second test module and a third test module which are arranged in sequence;

wherein the content of the first and second substances,

the first test module comprises a physical key test component, a vibration test component, a flash lamp test component and a touch screen test component;

the second testing module comprises an inductor testing component, and the inductor testing component is used for carrying out gyroscope inductor testing and acceleration inductor testing on the mobile phone;

the third testing module comprises a sensor testing component and a charging interface testing component, and the sensor testing component is used for testing the distance sensor and the light sensor of the mobile phone.

3. The handset test system of claim 2, wherein: the first test module comprises a first placing seat for bearing the mobile phone, the physical key test assembly and the flash lamp test assembly are respectively located on two sides of the first placing seat, the vibration test assembly is located at the bottom of the first placing seat, and the touch screen test assembly is located above the first placing seat.

4. The handset test system of claim 3, wherein: the first side part and the second side part of the first placing seat are respectively provided with a first fixing piece and a second fixing piece, and the first side part and the second side part are arranged adjacently; a first positioning piece and a first driving device are arranged on a third side portion of the first placing seat, the third side portion is arranged opposite to the first side portion, the first positioning piece is in driving connection with the first driving device, and the first positioning piece moves towards the first fixing piece through the first driving device; the fourth side of the first placing seat is provided with a second positioning piece and a second driving device, the fourth side and the second side are arranged oppositely, the second positioning piece is in driving connection with the second driving device, and the second positioning piece moves towards the second fixing piece through the second driving device.

5. The handset test system of claim 2, wherein: the second test module comprises a second placing seat for bearing the mobile phone, the second placing seat is in driving connection with the sensor test assembly, and the sensor test assembly is used for driving the second placing seat to rotate for a first angle along an X axis, a Y axis and a Z axis respectively so as to carry out gyroscope sensor test and acceleration sensor test on the mobile phone.

6. The handset test system of claim 5, wherein: the two opposite sides of the second placing seat are respectively provided with a first clamping block, and the mobile phone is fixed on the second placing seat through the first clamping blocks positioned on the two opposite sides.

7. The handset test system of claim 2, wherein: the third testing module comprises a third placing seat for bearing the mobile phone, the third placing seat is in driving connection with the sensor testing component, and the sensor testing component is used for driving the third placing seat to rotate by a second angle so as to perform distance sensor testing and light sensor testing on the mobile phone; the charging interface testing assembly is located on one side, close to the charging interface of the mobile phone, of the third placing seat.

8. The handset test system of claim 7, wherein: and second clamping blocks are respectively arranged on two opposite sides of the third placing seat, and the mobile phone is fixed on the third placing seat through the second clamping blocks positioned on the two opposite sides.

9. The handset test system of claim 1, wherein: the carrying module comprises a moving assembly and a carrying assembly, and the moving assembly is used for driving the carrying assembly to move along a preset carrying path; the carrying assembly is of a double-station structure and comprises a connecting piece, a rotating plate and two grabbing portions, wherein a rotary driving device is arranged on the connecting piece, one side of the rotating plate is in driving connection with the rotary driving device, one side of the rotating plate is in rotating connection with the connecting piece, two opposite ends of the other side of the rotating plate are respectively connected with the grabbing portions, and the grabbing portions are used for grabbing and fixing the mobile phone.

10. The handset test system of claim 9, wherein: the moving assembly comprises a three-axis moving mechanism, and the grabbing part comprises a vacuum adsorption device.

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