CN113091793A - Test equipment and test method thereof - Google Patents

Abstract

The present disclosure relates to a test apparatus comprising: a plurality of test sites arranged in parallel along a straight line in the horizontal direction; the transmission module is positioned on the test positions and used for transmitting the mobile terminal to be tested among the test positions; and the testing module is positioned above the transmission module and used for testing at least one sensor corresponding to the testing module in the tested mobile terminal positioned on the testing position. A plurality of test positions are arranged in parallel along a straight line, the test positions are not affected with each other, and the test positions can be added, removed or replaced. The adaptability, accessibility and flexibility of the detection equipment are enhanced, corresponding test positions can be added, removed or replaced according to different use requirements, and the difficulty of changing, increasing or reducing the test positions caused by the change of test items is reduced. The tested mobile terminal is transmitted among the plurality of test positions through the transmission module, so that the transmission efficiency is improved, and the tested mobile terminal is convenient to test.

Description

Test equipment and test method thereof

Technical Field

The present disclosure relates to the field of device technologies, and in particular, to a test device and a test method for the test device.

Background

With the gradual popularization of electronics and intelligence, a mobile terminal is one representative of the electronics and intelligence, and the mobile terminal is used in more and more fields to different degrees. The mobile terminal is provided with a plurality of sensors, and different information can be sensed through the sensors, so that more intelligent service can be provided.

Before the mobile terminal is shipped from a factory after being assembled, the mobile terminal needs to be tested again to ensure the realizability of the sensor function in the shipped mobile terminal.

Disclosure of Invention

The present disclosure provides a test apparatus and a test method of the test apparatus.

In a first aspect of the embodiments of the present disclosure, a test apparatus is provided, which includes: a plurality of test sites arranged in parallel along a straight line in the horizontal direction; the transmission module is positioned on the test positions and used for transmitting the mobile terminal to be tested among the test positions; and the testing module is positioned above the transmission module and used for testing at least one sensor corresponding to the testing module in the tested mobile terminal positioned on the testing position.

In one embodiment, different test sites have test modules for testing different sensors in the mobile terminal under test.

In one embodiment, the test apparatus further comprises: and the scanning module is positioned above or in front of the test position and used for acquiring the identification information of the tested mobile terminal by scanning the identification code area of the tested mobile terminal.

In one embodiment, the test apparatus further comprises: the processing module is positioned on the test position and used for receiving and processing test information of the test module for testing at least one sensor corresponding to the test module in the tested mobile terminal; the scanning module with the processing module electricity is connected, still is used for: and establishing wireless communication connection between the processing module and the tested mobile terminal by scanning the wireless communication information displayed by the tested mobile terminal.

In one embodiment, the test apparatus further comprises: and the display module is positioned on the test position and used for displaying test information of the test module for testing at least one sensor corresponding to the test module in the tested mobile terminal.

In one embodiment, the test apparatus further comprises: the material tray is used for bearing the mobile terminal to be tested; the transmission module includes: the first transmission module is positioned below the test module and used for transmitting the material tray among the test positions along a first horizontal direction; and the second transmission module is positioned below the first transmission module and used for transmitting the material tray among the plurality of test positions along a second horizontal direction, and the first horizontal direction is opposite to the second horizontal direction.

In one embodiment, the test apparatus further comprises: and the lifting module is positioned on one side of the test position and used for transmitting the material tray between the first transmission module and the second transmission module.

In one embodiment, the tray comprises: the mobile terminal bearing part is used for fixing the mobile terminals to be tested with different sizes or different shapes; and the charging tray body is used for fixing the mobile terminal bearing piece.

In a second aspect of the embodiments of the present disclosure, a testing method is provided, including: the method comprises the steps that a mobile terminal to be tested is transmitted among test positions through a transmission module on the test positions which are arranged in parallel along a straight line in the horizontal direction; and testing at least one sensor corresponding to the testing module in the tested mobile terminal on the testing position through the testing module positioned above the transmission module.

In one embodiment, the method further comprises: and scanning the identification code area of the tested mobile terminal through a scanning module positioned above or in front of the test position to acquire the identification information of the tested mobile terminal.

In one embodiment, the method further comprises: scanning wireless communication information displayed by the tested mobile terminal through the scanning module, and establishing wireless communication connection between the processing module positioned on the test position and the tested mobile terminal; and processing test information of testing at least one sensor corresponding to the testing module in the tested mobile terminal by the testing module through the processing module.

In one embodiment, the method further comprises: and displaying test information of testing at least one sensor corresponding to the test module in the tested mobile terminal by the test module through the display module positioned on the test position.

In one embodiment, the method further comprises: the material tray bearing the tested mobile terminal is transmitted among the plurality of test positions along a first horizontal direction through a first transmission module in the transmission modules; and the material tray is conveyed among the plurality of test positions along a second horizontal direction through a second conveying module positioned below the first conveying module, wherein the first horizontal direction is opposite to the second horizontal direction.

In one embodiment, the method further comprises: and the material tray is transmitted between the first transmission module and the second transmission module through the lifting module positioned on one side of the test position.

In a third aspect of the embodiments of the present disclosure, a non-transitory computer-readable storage medium is provided, in which computer-executable instructions are stored, and when executed by a processor, implement the method of any one of the above.

The technical scheme provided by the embodiment of the disclosure can have the following beneficial effects:

the test equipment comprises a plurality of test positions, a transmission module and a test module which are arranged in parallel along a straight line. The transmission module is positioned on the test positions and used for transmitting the mobile terminal to be tested among the test positions; and the test module is positioned above the transmission module and used for testing at least one sensor in the tested mobile terminal positioned on the test position. A plurality of test positions are arranged in parallel along a straight line, the test positions are not affected with each other, and the test positions can be added, removed or replaced. The adaptability, accessibility and flexibility of the detection equipment are enhanced, corresponding test positions can be added, removed or replaced according to different use requirements, and the difficulty of changing, increasing or reducing the test positions caused by the change of test items is reduced. The tested mobile terminal is transmitted among the plurality of test positions through the transmission module, so that the transmission efficiency is improved, and the tested mobile terminal is convenient to test. After the corresponding test positions are added, removed or replaced, at least one sensor in the tested mobile terminal can be tested through the test module positioned on the test positions, and the detection efficiency is further improved.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the invention and together with the description, serve to explain the principles of the invention.

Fig. 1 is a schematic structural diagram of a test apparatus of a general mobile terminal;

FIG. 2 is a schematic diagram of a test apparatus according to an exemplary embodiment;

FIG. 3 is a schematic diagram illustrating a scan module according to an exemplary embodiment;

FIG. 4 is a schematic diagram of a tray configuration according to an exemplary embodiment;

FIG. 5 is a schematic diagram illustrating a display module configuration according to an exemplary embodiment;

FIG. 6 is a schematic diagram illustrating a structure of a test bit in accordance with an illustrative embodiment;

FIG. 7 is a schematic diagram illustrating the construction of a camera bellows calibration assembly according to an exemplary embodiment;

FIG. 8 is a schematic diagram illustrating a construction of a distance sensing calibration assembly according to an exemplary embodiment;

FIG. 9 is a schematic diagram illustrating another configuration of test bits in accordance with an illustrative embodiment;

FIG. 10 is a schematic diagram illustrating a configuration of an NFC test assembly in accordance with one illustrative embodiment;

FIG. 11 is a schematic diagram illustrating a light-sensitive calibration/test assembly according to an exemplary embodiment;

FIG. 12 is a schematic diagram illustrating a configuration of a fingerprint testing assembly in accordance with an exemplary embodiment;

FIG. 13 is a schematic flow chart diagram illustrating a testing method in accordance with an exemplary embodiment;

FIG. 14 is a schematic flow chart diagram illustrating another testing method in accordance with an exemplary embodiment;

FIG. 15 is a schematic flow chart diagram illustrating another testing method in accordance with an exemplary embodiment;

FIG. 16 is a flow diagram illustrating another testing method according to an example embodiment.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present invention. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the invention, as detailed in the appended claims.

Referring to fig. 1, a schematic structural diagram of a conventional testing apparatus is shown. The workbench of the testing equipment comprises a workbench surface and a main panel, wherein a station turntable mechanism and a protection plate are arranged on the workbench surface, four stations are uniformly arranged around the station turntable mechanism, testing clamps corresponding to the four stations are also uniformly arranged in the station turntable mechanism, and the testing clamps are used for placing testing mobile phones. The test equipment needs to manually place products such as mobile phones on the test fixture, and after the test is finished, the products such as the mobile phones need to be manually taken out of the test fixture.

The test equipment is a surrounding type test station, the number of the test stations is fixed and limited due to the influence of factors such as a main panel of a working table and the like, the layout of the test stations is limited, more test stations are difficult to increase, when more test items are required, redundant test stations are not provided, and only the existing four test stations can be reused. Therefore, the accessibility, flexibility and adaptability of the test equipment are poor, the test efficiency is low, and the updating of the test equipment and the improvement of the test efficiency are not facilitated.

Referring to fig. 2, a schematic structural diagram of a testing apparatus provided in an embodiment of the present disclosure is shown, where the testing apparatus includes:

a plurality of test bits 1 arranged in parallel along a straight line in the horizontal direction.

And the transmission module 2 is positioned on the test bit 1 and used for transmitting the mobile terminal to be tested among the test bits 1.

And the test module 3 is positioned above the transmission module and used for testing at least one sensor corresponding to the test module in the tested mobile terminal positioned on the test position 1.

The test bits 1 in this embodiment are arranged in parallel along a straight line in the horizontal direction, each individual test bit 1 does not affect each other, and each test bit can individually test the mobile terminal to be tested. Test bit 1 may be a separate test cabinet for testing the mobile terminal under test. The mobile terminal can include mobile phones, tablet computers, vehicle-mounted central control equipment, wearable equipment, intelligent equipment and the like, and the mobile terminal comprises at least one sensing device, and the intelligent equipment can further comprise intelligent office equipment, intelligent household equipment and the like.

The adjacent test positions 1 can be connected through a connecting piece or a fixing piece, and the gap between the adjacent test positions 1 after connection is smaller than a preset threshold value, so that the transmission module 2 can conveniently transmit the tested mobile terminal between different test positions 1.

Because a plurality of different test sites 1 are arranged in parallel along a straight line in the horizontal direction, and the number of the test sites 1 is not limited, the test sites 1 can be adjusted according to actual use requirements, such as addition, removal or replacement, and the like, and the adjusted test sites are still arranged in parallel along the straight line, so that the test sites can be adjusted again according to the use requirements next time. In this embodiment, shown in FIG. 2 are 5 test bits arranged side by side along a straight line, namely test bit 101, test bit 102, test bit 103, test bit 104, and test bit 105.

Through a plurality of test positions 1 arranged in parallel along a straight line in the horizontal direction, corresponding test positions 1 can be added, removed or replaced according to different use requirements, the adaptability, accessibility and flexibility of the detection equipment are enhanced, the difficulty of test position change, increase or reduction caused by the change of test items is reduced, and the detection efficiency of the detection equipment is improved.

For example, the test positions with different test modules 3 may be adjusted according to the actual required test items and/or test objects, and then the at least one sensor in the mobile terminal under test is tested by the different test modules 3 in the different test positions 1.

The test site 1 includes the transmission module 2, and the position of the transmission module 2 in the test site 1 is not limited, and in this embodiment, the transmission module 2 is located at the middle lower part of the test site 1, so that the test module 3 can conveniently test the object to be tested. The heights of the transmission modules 2 in different test positions 1 are the same, and the interval is smaller than a preset threshold value, so that the mobile terminal to be tested can be conveniently transmitted among a plurality of test positions 1 through the transmission modules 2. The preset threshold value can be set according to actual use requirements.

The transmission module 2 includes but is not limited to: conveyor belts and roller conveyors, and the like. The specific structure of the transport module 2, for example, the specific structure of the conveyor belt and the roller conveyor, is not limited herein, as long as the mobile terminal under test can be transported between the transport modules 2 of the plurality of test sites 1.

In one embodiment, each transmission module 2 may individually perform transmission driving, and the transmission module 2 may include a driver, such as a motor, for driving a conveyor belt or a transmission roller, etc., so as to transmit the mobile terminal to be tested.

And the testing module 3 is positioned above the transmission module 2 and used for testing at least one sensor in the tested mobile terminal positioned on the testing position 1, and the sensor can be a sensor corresponding to the testing module. The specific position of the test module 3 above the transmission module 2 in the test site 1 is not limited.

Because the test position 1 is arranged in parallel along a straight line, the test position can be added, removed or replaced according to actual use requirements, and then the test module 3 can be added, removed or replaced, so that the sensor in the tested mobile terminal can be tested according to service requirements.

The test modules 3 in the same test site 1 may be different, and different test modules 3 in the same test site 1 are used for testing different sensors in the tested mobile terminal. Different test sites 1 may also have test modules 3 for testing different sensors in the mobile terminal under test. The test modules 3 in different test sites 1 are also different, and different test modules 3 included in different test sites 1 are used for performing different tests on different sensors in the tested mobile terminal.

The test module 3 includes but is not limited to: the device comprises a camera bellows calibration test component, a distance sensing calibration component, a light sensing calibration component, an NFC reading test component, a level meter, an acceleration sensor, a gyroscope, a fingerprint test component, a light sensing test component and/or a distance sensing test component and the like. When a single test site includes a plurality of test modules 3, the positions between the plurality of test modules 3 are not limited, and can be adaptively set according to business requirements. When a plurality of test components are included in a single test site 1, the positions between the plurality of test components are not limited.

The test module 3 in each test site 1 may be set according to actual service requirements, and the test component included in the test module 3 may be determined according to the type of at least one sensor included in the mobile terminal to be tested. For example, the test module in the first test position comprises a camera bellows calibration test component and a fingerprint test component, and the test module in the second test position comprises a distance sensing calibration component and a light sensing calibration component.

The position of at least one testing component included in the testing module 3 at the testing position 1 is not limited, and the testing module can be set according to actual business requirements, and can test the sensor in the tested mobile terminal transmitted by the transmission module 2 in the testing position 1, and a specific testing sequence or testing process is not limited here, and the testing module can test according to a certain sequence according to the preset sequence.

For example, the mobile terminal under test includes a light sensor, a distance sensor and a fingerprint sensor, and the mobile terminal under test is tested by the first test site and then by the second test site. When testing at least one sensor in the mobile terminal under test in first test position, can carry out the test of darkroom calibration through camera bellows calibration test assembly to the light sensor among the mobile terminal under test earlier, rethread fingerprint test assembly tests fingerprint sensor. And then, the distance sensor in the mobile terminal to be tested is calibrated and tested through the distance sensing calibration component in the second test position, and finally, the light sensor is calibrated and tested through the light sensing calibration component.

Through the plurality of test positions of the equipment arranged in parallel along the straight line in the embodiment, the adaptability, accessibility and flexibility of the detection equipment are enhanced, the corresponding test positions can be added, removed or replaced according to different use requirements, and the difficulty of changing, increasing or reducing the test positions caused by the change of test items is reduced. The tested mobile terminal is transmitted among the plurality of test positions through the transmission module, so that the transmission efficiency is improved, and the tested mobile terminal is convenient to test. After the corresponding test positions are added, removed or replaced, at least one sensor in the tested mobile terminal can be tested through the test module positioned on the test positions, and the detection efficiency is further improved.

Referring to fig. 2, in one embodiment, the test apparatus further comprises: and the scanning module 4 is positioned above or in front of the test position 1 and used for acquiring the identification information of the tested mobile terminal by scanning the identification code area of the tested mobile terminal.

The scanning module 4 may be a module such as a code scanning gun that can scan an identification code area of the mobile terminal to be tested, and the specific structure is not limited here. The scanning module 4 may obtain the identification information of the mobile terminal to be tested by scanning the identification code area of the mobile terminal to be tested, and the identification information is used as the unique identification code of the mobile terminal to be tested and is used for distinguishing different mobile terminals to be tested.

The identification information may include identification information in the form of a two-dimensional code, a bar code, and the like, and is displayed in the form of a two-dimensional code or a bar code. The identification information includes but is not limited to: and the material number, the serial number and the like of the mobile terminal to be tested.

After the scanning module 4 scans the identification code area of the tested mobile terminal, the testing device can identify the tested mobile terminal, which indicates that the tested mobile terminal is scanned and identified by the testing device, and the testing device will test the tested mobile terminal. Each tested mobile terminal needs to be scanned by the scanning module 4 before being tested by the testing module 3 in the tested position 1, and the testing equipment can identify each scanned tested mobile terminal, so that each tested mobile terminal can be matched with the testing information, and the testing information of each tested mobile terminal can be determined more conveniently.

Fig. 3 is a schematic structural diagram of a scan module according to an embodiment. The scanning module 4 includes a scanning carriage 401, a cylinder 402, an angle adjusting part 403, and a scanning part 404. The scan frame 401 is used to fix and support the air cylinder 402, the angle adjusting part 403 and the scan part 404, and the bottom of the scan frame 401 may be fixed in front of or above the first test site 1 for testing the mobile terminal under test. A cylinder 402 is located at the top of the scan support 401 for moving the scan element 404 in a horizontal direction. An angle adjustment member 403 is coupled to the telescopic member of the cylinder 402 for adjusting the angle of the scanning assembly 404. The scanning unit 404 is connected to the angle adjusting unit 403, and is configured to scan the identification information of the mobile terminal under test.

Through the cylinder 402 and the angle adjusting part 403 in the scanning module 4, the position of the scanning part 404 can be adjusted according to business requirements, so that loading, scanning and the like are facilitated.

Referring to fig. 2, in another embodiment, the test apparatus further includes: a loading level 5 and a unloading level 6.

The material loading position 5 comprises a material loading cabinet body, a material loading opening is arranged at the top of the material loading cabinet body, the material loading opening is communicated with the transmission module 2 of the first test position 101, and the tested mobile terminal is transmitted to the transmission module 2 of the first test position 101 through the material loading opening. The blanking position 6 comprises a blanking cabinet body, a blanking opening is formed in the top of the blanking cabinet body, the blanking opening is communicated with the transmission module 2 of the fifth test position 105, and the tested mobile terminal can be taken down through the blanking opening.

And the material loading position 5 is positioned in front of the test positions 1 which are arranged in parallel along a straight line and used for transmitting the tested mobile terminal to the test position 1, so that the test position 1 can test the tested mobile terminal conveniently. And the discharging position 6 is positioned behind the test positions 1 which are arranged in parallel along the straight line and used for outputting the tested mobile terminal from the test equipment. The feeding level 5 and the discharging level 6 may be independent cabinets.

The material loading position 5 is located in front of the test position located at one end in the test positions arranged in parallel along the straight line, and the tested mobile terminal can be conveniently transmitted to the test position 1 through the material loading position 5 to be tested. The blanking position 6 is located behind the test position at the other end in the test positions arranged in parallel along the straight line, and the tested mobile terminal after the test can be output from the test equipment through the blanking position 6, so that the subsequent test on other tested mobile terminals is facilitated.

Referring to fig. 2, in an embodiment, the scanning module 4 is located at the top of the feeding position 5, and is configured to scan the mobile terminal to be tested before transmitting the mobile terminal to be tested to the testing position 1 through the feeding position 5, so as to obtain the identification information of the mobile terminal to be tested, and thus, the testing information corresponds to the mobile terminal to be tested.

Referring to fig. 2, in another embodiment, the scanning module 4 may also be located at the top of the blanking level 6 for retesting the tested mobile terminal tested by the module 3 to obtain the identification information of the tested mobile terminal again. Through the identification information of the tested mobile terminal scanned twice, the tested mobile terminal can be determined to have completed testing, and testing statistics and the like of the tested mobile terminal are facilitated.

In one embodiment, the test apparatus further comprises:

and the processing module is positioned on the test position 1 and used for receiving and processing test information of the test module 3 for testing at least one sensor corresponding to the test module in the tested mobile terminal.

The scanning module 4 is electrically connected with the processing module and is also used for: and establishing wireless communication connection between the processing module and the tested mobile terminal by scanning the wireless communication information displayed by the tested mobile terminal.

The wireless communication information displayed by the tested mobile terminal can be wireless network connection information, and the wireless communication connection between the processing module and the tested mobile terminal can be established through the wireless network connection information. The wireless communication information can be displayed in the form of two-dimensional codes and the like, after the scanning module 4 scans the wireless communication information, the processing module is wirelessly connected with the mobile terminal to be tested, and the processing module and the mobile terminal to be tested can perform wireless communication, such as output transmission and the like.

The position of the processing module in the test position 1 is not limited, the scanning module 4 establishes wireless communication connection between the processing module and the tested mobile terminal after scanning the wireless communication information displayed by the tested mobile terminal, and the tested mobile terminal sends the test information to the processing module in a wireless communication mode after the test module 3 tests the tested mobile terminal.

The scanning module 4 can also send the identification information of the tested mobile terminal to the processing module after scanning the identification information of the tested mobile terminal, so that the processing module can process the test information for testing the sensor in the tested mobile terminal according to the identification information of the tested mobile terminal and the test module 3.

In another embodiment, the processing module is further configured to: after receiving the test information sent by the tested mobile terminal and the identification information of the tested mobile terminal sent by the scanning module 4, the test information is matched with the representation information, and the test information, the identification information and the matching result are uploaded to a background server connected with the processing module, so that the test information of the tested mobile terminal can be conveniently checked subsequently.

In another embodiment, the test apparatus further comprises: and the display module is positioned on the test position 1 and used for displaying test information of testing at least one sensor corresponding to the test module in the tested mobile terminal by the test module. The display module in this embodiment located on test site 1 is not shown.

The display module is electrically connected with the processing module, after the processing module matches the test information of the tested mobile terminal of the test module 3 and the identification information of the tested mobile terminal scanned by the scanning module 4, the test information, the identification information and the matching result are transmitted to the display module, and the display module displays the test information, the identification information and the matching result.

The position of the display module in the test position 1 can be set according to actual service requirements, and the specific position of the display module on the test position 1 is not limited, so that the display module can be conveniently watched. After the display module assembly shows test information, identification information and matching result, relevant personnel can look over the test condition conveniently, be convenient for look over relevant test condition.

Referring to fig. 2, in another embodiment, the display module 7 is further located on the loading level 5, and is configured to display identification information scanned by the scanning module 4, so that a relevant person can conveniently check whether the scanning module 4 completes scanning of the tested mobile terminal.

The display module 7 can also be located on the blanking position 6 and used for displaying the identification information scanned by the scanning module 4 located on the blanking position 6 and the test information of the test module 3 on the tested mobile terminal.

The display module 7 located on the feeding position 5 and the discharging position 6 can be the same display module as the display module located on the testing position 1.

In another embodiment, the test apparatus further comprises:

and the material tray 8 is used for bearing the mobile terminal to be tested. The tested mobile terminal is positioned on the material tray 8, and the transmission module 2 transmits the tested mobile terminal between different test positions 1 through the transmission material tray 8.

Referring to fig. 4, a schematic diagram of a tray is shown, the tray includes: a mobile terminal carrier 801 and a tray body 802, wherein the mobile terminal carrier 801 is positioned on the tray body 802.

And a mobile terminal carrier 801 for fixing the mobile terminal to be tested with different sizes or different shapes. The mobile terminal bearing part 801 can be determined according to the tested mobile terminal, and the mobile terminal bearing part 801 matched with the tested mobile terminal can better fix the tested mobile terminal, so that the tested mobile terminal can be conveniently transmitted and tested.

The tray body 802 is used for fixing the mobile terminal bearing element 801, and the tray body 802 is a general tray, is suitable for different test positions, and can bear and fix different mobile terminal bearing elements 801. The tray body 802 is located on the transmission module 2, and when the transmission module 2 transmits the mobile terminal to be tested, the transmission module transmits the mobile terminal to be tested through the transmission tray 8.

Because the mobile terminal bearing part 801 is positioned on the tray body 802, when different tested mobile terminal parts are tested, different mobile terminal bearing parts 801 can be selected, only the mobile terminal bearing parts 801 need to be replaced, and the tray body 802 does not need to be replaced, so that the replacement cost of the tray can be reduced.

Referring to fig. 2, in another embodiment, the transmission module 2 includes:

and the first transmission module 201 is positioned below the test module 3 and used for transmitting the tray 8 among the plurality of test positions 1 along the first horizontal direction.

And the second transmission module 202 is positioned below the first transmission module 201 and used for transmitting the tray 8 among the plurality of test positions 1 along a second horizontal direction, wherein the first horizontal direction is opposite to the second horizontal direction.

When the mobile terminal to be tested is tested, the mobile terminal to be tested is transmitted between the adjacent test sites 1 through the first transmission module 201, and the transmission direction in the process is a first horizontal direction, namely, the transmission direction is transmitted from one end to the other end of the test sites which are arranged in parallel along a straight line. For example, the tray 8 carrying the mobile terminal to be tested may be transported from a test station adjacent to the loading station 5 to a test station adjacent to the unloading station 6. The test station adjacent to the blanking station 6 is transferring the tray 8 to the blanking station 6.

After the tray 8 is transported to the blanking station 6 by the first transporting module 201 and the mobile terminal under test is taken down, the second transporting module 202 transports the tray 8 between the plurality of test stations 1 in the second horizontal direction. For example, from the feed level 6 in the direction of the feed level 5. In the transmission process, the second transmission module 202 only transmits the tray 8, and the mobile terminal to be tested is no longer located on the tray 8.

The material tray 8 is conveyed from the material discharging position 6 to the material loading position 5 along the second horizontal direction by the second conveying module 202, and the material tray 8 is conveyed to the material loading position 5 again, so that the material tray 8 can be continuously recycled in the material loading position 5. The same batch of tested mobile terminals with the same size or shape can be continuously transmitted and tested without replacing the mobile terminal carrier 801, and the transmission efficiency and the testing efficiency are further improved. If the size or shape of the mobile terminal under test is changed, the mobile terminal carrier 801 may be replaced, and then the mobile terminal devices under test in the same batch after the size or shape is changed may be continuously transported and tested, which may also improve the transportation efficiency and the testing efficiency.

In another embodiment, the test apparatus further comprises:

and the lifting module is positioned on one side of the test position and used for transmitting the material tray between the first transmission module and the second transmission module.

After the tray 8 is transported to the blanking position 6 by the first transport module 201 and the mobile terminal to be tested is taken down, the elevation module transports the tray 8 from the height of the first transport module 201 to the height of the second transport module 202, thereby completing the transfer of the tray 8 between the first transport module 201 and the second transport module 202. After the lifting module moves the tray 8 to the height of the second transmission module 202 from the height of the first transmission module 201, the second transmission module 202 can transmit the tray 8 to the upper material level 5 from the lower material level 6 along the second horizontal direction, so that the tray can be reused conveniently.

After the second transfer module 202 transfers the tray 8 to the loading level 5 in the second horizontal direction, since the second transfer module 202 is lower than the first transfer module 201, the tray also needs to be moved from the height of the second transfer module 202 to the height of the first transfer module 201 by the lifting module. This facilitates the first transferring module 201 to continue transferring the tray in the first horizontal direction.

The lifting module in this embodiment includes but is not limited to: the specific structures of the lifting bracket, the lifting rod, and the like are not limited herein, and any lifting structure that can transfer the tray 8 between the first transfer module 201 and the second transfer module 202 is within the scope of the embodiment.

In one embodiment, the lifting module is located at a loading level and a unloading level. The lifting module can be located material loading level 5, and the material loading mouth is located lifting module's top, can be convenient for by survey mobile terminal's material loading like this after lifting module highly rises to first transmission module with the charging tray from second transmission module. The lifting module can also be located in the material discharging position 6, and the material discharging opening is located above the lifting module. Therefore, the tested mobile terminal can be conveniently taken down, and then the tray is moved downwards to the height of the second transmission module.

In another embodiment, a display module is further provided, and fig. 5 is a schematic diagram of the display module.

This display module assembly includes:

and a display 701 for displaying the test information.

An input component 702 for inputting control instructions. The input component may include a mouse, a keyboard, and other input components.

And a control button 703 for controlling the switch of the test equipment. Such as an on button, an off button, an emergency stop button, etc.

An alarm component 704 can also be included for prompting corresponding information based on a test status of the test device. The test states of the test device include a normal test state and an abnormal test state. The alarm assembly includes: light alarm and audible alarm etc. light alarm includes alarm lamp etc.. When the test device is in a normal test state, the alarm component prompts normal information, and when the test device is in an abnormal test state, the alarm component prompts abnormal information, wherein the prompt information of the two states is different.

The method can also comprise the following steps: and a gas source assembly 705 for controlling the pneumatic portion of the test equipment.

In another embodiment, a test bit is further provided, and fig. 6 is a schematic structural diagram of the test bit.

The test bit includes: a first transmission module 201, a second transmission module 202, a camera bellows calibration assembly 301 and a distance sensing calibration assembly 302.

The first transmission module 201 is higher than the second transmission module 202, the camera module calibration assembly 301 is located above the first transmission module 201, and the distance sensing calibration assembly 302 is located above the camera module calibration assembly 301.

Referring to FIG. 7, a schematic diagram of a camera bellows calibration assembly is shown.

The camera bellows calibration assembly includes a shutter window 3011, a shutter window control assembly 3012, and a securing assembly 3013. The opening and closing window control component 3012 controls opening and closing of the opening and closing window 3011, and the opening and closing window control component 3012 may be an air cylinder, a push rod, or the like. The fixing component 3013 is used to fix the camera bellows calibration component, and may be a snap fixing component or the like.

When the darkbox calibration assembly is tested, the opening and closing window control assembly 3012 controls the opening and closing window 3011 to be in a closed state. After the test of the camera bellows calibration component is finished, the opening and closing window control component 3012 pushes the opening and closing window 3011 to open, the ash card on the distance sensing calibration component 302 is just located above the opening and closing window 3011, and then the distance sensor can be calibrated on the mobile terminal to be tested.

Fig. 8 is a schematic structural diagram of a distance sensing calibration assembly.

The distance sensing calibration assembly comprises: a bracket 3021, a driving motor 3022, a screw slide table 3023, a gray card 3024, and a black card 3025. Lead screw slip table 3023 and driving motor 3022 all are located support 3021, and grey card 3024 and black card 3025 are located lead screw slip table 3023, and driving motor 3022 is used for driving lead screw slip table 3023 to move, and then drives the removal of grey card 3024 and black card 3025, are convenient for test the mobile terminal under test.

In another embodiment, another test bit is provided, and fig. 9 is a schematic structural diagram of the test bit.

The test bit includes: the optical sensor calibration module 303, the NFC test module 304, the level meter 305, the first transmission module 201, and the second transmission module 202. The first transmission module 201 is located above the second transmission module 202, the NFC testing component 304 is located above the first transmission module 201, the level meter 305 is located above the NFC testing component 304, and the light sensing calibration component 303 is located above the level meter 305. The level meter 305 is used to ensure the levelness of the horizontal plane of the testing device so as to meet the testing requirements of the gravitational acceleration sensor and the gyroscope of the tested mobile terminal.

Fig. 10 is a schematic structural diagram of an NFC test component.

The NFC test component includes an NFC card reader 3041, a horizontal direction adjustment bit 3042, and a vertical direction adjustment bit 3043, which can be adjusted according to actual needs.

Referring to fig. 11, a schematic diagram of a light-sensitive calibration device/test device is shown.

The light sensing calibration/test assembly 303 includes: a light source panel 3031, a vertical direction adjusting member 3032, a horizontal direction adjusting member 3033, a moving guide post 3034 and a fixing plate 3035. One end of the movable guide post 3034 is fixedly connected with the light source panel 3031, and the other end thereof penetrates through the fixed plate 3035. One end of the vertical direction adjusting part 3032 is connected with the light source panel 3031, the other end of the vertical direction adjusting part 3032 penetrates through the fixing plate 3035, the distance between the light source panel 3031 and the fixing plate 3035 can be adjusted through the rotation of the vertical direction adjusting part 3032, and the light ray sensor can be conveniently calibrated and tested. The horizontal direction adjusting member 3033 is connected with a bracket and other structures in the test position, so that the position of the light sensation calibration assembly/test assembly 303 in the test position can be adjusted, and the light sensation calibration assembly/test assembly 303 can be adjusted to move in the horizontal direction in the test position through the horizontal direction adjusting member 3033.

In another embodiment, a fingerprint testing assembly is further provided, and referring to fig. 12, a schematic structural diagram of a fingerprint testing assembly is shown.

This fingerprint test subassembly includes: a fingerprint head 3061, a lifter 3062, a servo motor 3063, and a fingerprint test assembly support 3064. The lifter 3062 and the servo motor 3063 are fixed on the fingerprint test assembly support 3064, the lifter 3062 is connected with the servo motor 3063, and the servo motor 3063 is used for driving the lifter 3062 to ascend and descend. The fingerprint head 3061 is fixedly connected to the lifter 3062, and the servo motor 3063 drives the movement of the fingerprint head 3061 by driving the lifter 3062 to move, so that the fingerprint test is performed.

In another embodiment, a test method is also provided. Fig. 13 is a schematic flow chart of the testing method. The method comprises the following steps:

step S100, transmitting the mobile terminal to be tested between the test positions through the transmission module positioned on the test positions which are arranged in parallel along a straight line in the horizontal direction.

And step S200, testing at least one sensor corresponding to the testing module in the tested mobile terminal on the testing position through the testing module positioned above the transmission module.

Because a plurality of test positions are arranged in parallel along a straight line in the horizontal direction, and each test position comprises a transmission module, the mobile terminal to be tested can be transmitted in the plurality of test positions arranged in parallel along the straight line through the transmission module. The number of the plurality of test bits arranged in parallel along the straight line is not limited, and the test bits do not affect each other, so that the test bits can be adjusted according to actual service requirements.

Through a plurality of test positions arranged in parallel along a straight line in the horizontal direction, corresponding test positions can be added, removed or replaced according to different use requirements, the adaptability, accessibility and flexibility of the detection equipment are enhanced, the difficulty of changing, increasing or reducing the test positions caused by the change of test items is reduced, and the detection efficiency of the detection equipment is improved.

In another embodiment, the method further comprises:

and scanning the identification code area of the tested mobile terminal through a scanning module positioned above or in front of the test position to acquire the identification information of the tested mobile terminal.

After the scanning module scans the identification code area of the tested mobile terminal and acquires the identification information of the tested mobile terminal, the scanning module can send the identification information of the tested mobile terminal to the processing module, and the testing equipment can identify the tested mobile terminal, which indicates that the tested mobile terminal will be tested by the testing equipment. The identification information can also be used for matching the test information with the corresponding tested mobile terminal, and the like.

In another embodiment, there is also provided another testing method, referring to fig. 14, the method further comprising:

step S300, scanning the wireless communication information displayed by the tested mobile terminal through the scanning module, and establishing the wireless communication connection between the processing module positioned on the test position and the tested mobile terminal.

Step S400, processing the test information of the test module for testing at least one sensor corresponding to the test module in the tested mobile terminal through the processing module.

After the scanning component scans the wireless communication information displayed by the tested mobile terminal, the wireless communication connection between the processing module and the tested mobile terminal can be established, and the wireless communication between the tested mobile terminal and the processing module can be carried out through the wireless communication connection. In this embodiment, the mobile terminal under test may send, to the processing module, test information that the testing module tests the mobile terminal under test through the wireless communication connection.

After the processing module receives the test information, the processing module may process the test information, for example, upload the test information to a background server or send the test information to other modules.

In another embodiment, the method further comprises: and displaying test information of testing at least one sensor corresponding to the test module in the tested mobile terminal by the test module through the display module positioned on the test position.

The display module can receive the information sent by the processing module and then display the received information, so that related personnel can conveniently check the information in the test process, and the test efficiency is improved.

In another embodiment, there is also provided another testing method, referring to fig. 15, the method further comprising:

and S500, transmitting a material tray bearing the tested mobile terminal among the plurality of test positions along a first horizontal direction through a first transmission module in the transmission modules.

Step S600, the material tray is conveyed among the plurality of test positions along a second horizontal direction through a second conveying module located below the first conveying module, and the first horizontal direction is opposite to the second horizontal direction.

When the mobile terminal to be tested is tested, the mobile terminal to be tested is transmitted between the adjacent test positions through the first transmission module, and the transmission direction in the process is the first horizontal direction, namely, the transmission direction is transmitted from one end to the other end of the test positions which are arranged in parallel along a straight line. For example, the tray carrying the mobile terminal to be tested may be transported from a test station adjacent to the loading station to a test station adjacent to the unloading station. And the test position adjacent to the blanking position transmits the material tray to the blanking position.

After the material tray is transmitted to the blanking position through the first transmission module and the tested mobile terminal is taken down, the second transmission module transmits the material tray among the plurality of test positions along the second horizontal direction. For example, from the blanking position in the direction of the upper level. In the transmission process, the second transmission module only transmits the material tray, and the mobile terminal to be detected is not positioned on the material tray any more.

Through second transmission module along the transmission of second horizontal direction with the charging tray from the unloading position to the material level, with charging tray 8 retransmission to the material level, can continue to recycle the charging tray like this in the material level. The mobile terminal bearing part is arranged on the base, the mobile terminal bearing part is arranged on the mobile terminal bearing part, and the mobile terminal bearing part is arranged on the mobile terminal bearing part. If the size or the shape of the mobile terminal to be tested is changed, the mobile terminal bearing parts can be replaced, the mobile terminal parts to be tested in the same batch after the size or the shape is changed can be continuously transmitted and tested, and the transmission efficiency and the test efficiency can be improved.

In another embodiment, the method further comprises:

and the material tray is transmitted between the first transmission module and the second transmission module through the lifting module positioned on one side of the test position.

The material tray is transmitted to the discharging position through the first transmission module, and after the detected mobile terminal is taken down, the lifting module transmits the material tray to the second transmission module from the height of the first transmission module, so that the material tray is transmitted between the first transmission module and the second transmission module. After the lifting module highly moves the charging tray to the height of second transmission module from first transmission module, can be convenient for second transmission module along the second horizontal direction with the charging tray from unloading position transmission to the material level, and then the used repeatedly of the charging tray of being convenient for.

After the second transmission module transmits the charging tray to the upper material level along the second horizontal direction, the charging tray is required to be moved to the height of the first transmission module from the height of the second transmission module through the lifting module because the second transmission module is lower than the first transmission module. Therefore, the first transmission module can transmit the material tray continuously along the first horizontal direction.

In another embodiment, a test method is also provided.

The test equipment in this embodiment includes 5 test stations arranged side by side along a straight line, namely, a first test station, a second test station, a third test station, a fourth test station, and a fifth test station. Besides 5 testing stations, the testing device also comprises a feeding station and a blanking station. The test module in the first test station comprises a camera bellows calibration component and a distance sensing calibration component. The test module in the second test station comprises a light sensation calibration assembly, an NFC test assembly and a level meter. The test module in the third test station includes first fingerprint test subassembly and light sense calibration subassembly. The test module in the fourth test station comprises a second fingerprint test component and a light sensation test component. The test module in the fifth test station comprises a light sensing test component and a distance sensing test component. The loading station and the unloading station comprise lifting modules. The mobile terminal to be tested in this embodiment is a mobile phone.

Referring to fig. 16, a flow diagram of the method is shown, the method being as follows:

the lifting module in the feeding station is located at the height of the first transmission module, the material tray is located on the lifting module in the feeding station, and the measured mobile terminal is located on the material tray. The mobile terminal to be tested is positioned on the material tray, the scanning module scans the identification information of the mobile terminal to be tested, the identification information comprises the material information of the mobile phone, and the identification information of the mobile terminal to be tested is uploaded to the processing module. The scanning module is used for scanning the wireless communication information displayed by the tested mobile terminal to establish wireless communication connection between the tested mobile terminal and the processing module. The wireless communication connection includes a WIFI connection or the like.

The lifting module located in the feeding station comprises a third transmission module, and the third transmission module transmits the material tray to the first transmission module located in the first testing position. And the first transmission module in the first test station moves the tested mobile terminal to a preset position to start testing. The opening and closing window in the camera bellows calibration assembly is closed to form a camera bellows environment, the processing module sends a camera bellows calibration instruction to the mobile terminal to be tested through wireless communication connection, and the mobile terminal to be tested carries out camera bellows calibration. After the camera bellows calibration test is completed, a distance sensing calibration instruction is sent to the mobile terminal to be tested, a lead screw sliding table in the distance sensing calibration assembly is controlled to drive the ash card to a specified position, and distance sensing calibration is carried out on the mobile terminal to be tested. After the distance sensing calibration is completed, the material tray is conveyed to the second testing station through the first conveying module in the first testing station.

The first transmission module in the second test station receives the material tray transmitted by the first transmission module in the first test station, and the first transmission module in the second test station moves the material tray to a preset position. Sending a light sensing calibration instruction and an NFC test instruction to the tested mobile terminal, carrying out front light sensing calibration on the tested mobile terminal through a fixed light source of a light sensing calibration component, and completing the NFC test on the tested mobile terminal through an NFC white card, an NFC card reader and a test program in the NFC test component. And then, carrying out an acceleration sensor and gyroscope test program on the tested mobile terminal. And finally, the material tray is transmitted to a third test station through a first transmission module in the second test station.

First transmission module in the third test station removes the charging tray to preset position, sends first fingerprint test instruction to being surveyed mobile terminal, and being surveyed mobile terminal starts first fingerprint test procedure. The riser of first fingerprint test subassembly drives 3 ordinary silica gel fingerprint heads and pushes down in proper order, does the removal of perpendicular to streamline direction simultaneously at the horizontal plane, makes 3 fingerprint heads push down in proper order and is surveyed mobile terminal fingerprint test region. After the fingerprint test is completed, the light sensation calibration of the back of the mobile terminal to be tested is carried out through the light sensation calibration assembly. And after the tests are completed, the material tray is transmitted to the fourth test station through the first transmission module of the third test station.

First transmission module in the fourth test station removes the charging tray to preset position, sends second fingerprint test instruction to being surveyed mobile terminal, and the cell-phone starts second fingerprint test procedure, and the riser of second fingerprint test subassembly drives 3 bar silica gel fingerprint heads and pushes down in proper order, does the removal of perpendicular to streamline direction simultaneously at the horizontal plane, makes 3 fingerprint heads press down in proper order and is surveyed mobile terminal fingerprint test region. After the fingerprint test is completed, the light sensation test of the back of the mobile terminal to be tested is carried out through the light sensation calibration assembly. And after the tests are finished, the material tray is transmitted to the fifth test station through the first transmission module of the fourth test station.

And the first transmission module in the fifth test station moves the material tray to a preset position, sends a light sensation test instruction to the tested mobile terminal, and the tested mobile terminal starts a light sensation test program to complete the light sensation test of the front side of the tested mobile terminal through the light source provided by the light sensation test component. After the front light sensation test is completed, a distance sensing test instruction is sent to the tested mobile terminal, the tested mobile terminal starts a distance sensing test program, and the distance sensing test is performed by sequentially pushing the black card and the gray card to the specified positions through the screw rod sliding table in the distance sensing test assembly. And after the test is finished, the tested mobile terminal exits the test program and sends test information to the processing module. And the processing module sends and sends the test information and the test state of the tested mobile terminal to the background server. The background server may include: an information management system.

And after the test of the tested mobile terminal is completed at all the test stations, the first transmission module of the fifth test station transmits the material tray to the discharging station.

After the material tray reaches the designated position of the blanking station, the scanning module positioned at the blanking station scans the identification information of the tested mobile terminal, and the test information of the tested mobile terminal is displayed through the display module. And then the tested mobile terminal is taken down at the blanking station.

The material tray is moved to the height of the second transmission module of the fifth test station through the lifting module positioned at the blanking station, and then the material tray is transmitted to the second transmission module of the fifth test station through the transmission module in the blanking station. And the material tray is sequentially transmitted to the fourth test station, the third test station, the second test station and the second transmission module of the first test station through the second transmission module of the fifth test station. The material tray is transmitted to the lifting module of the feeding station through the first transmission module, and then the material tray is lifted to the initial position through the lifting module in the feeding station.

In another embodiment, a non-transitory computer-readable storage medium is also provided, having stored therein computer-executable instructions that, when executed by a processor, implement the method of any of the above embodiments.

It should be noted that "first" and "second" in the embodiments of the present disclosure are merely for convenience of description and distinction, and have no other specific meaning.

Other embodiments of the invention will be apparent to those skilled in the art from consideration of the specification and practice of the invention disclosed herein. This application is intended to cover any variations, uses, or adaptations of the invention following, in general, the principles of the invention and including such departures from the present disclosure as come within known or customary practice within the art to which the invention pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the invention being indicated by the following claims.

It will be understood that the invention is not limited to the precise arrangements described above and shown in the drawings and that various modifications and changes may be made without departing from the scope thereof. The scope of the invention is limited only by the appended claims.

Claims (15)

1. A test apparatus, comprising:

a plurality of test sites arranged in parallel along a straight line in the horizontal direction;

the transmission module is positioned on the test positions and used for transmitting the mobile terminal to be tested among the test positions;

and the testing module is positioned above the transmission module and used for testing at least one sensor corresponding to the testing module in the tested mobile terminal positioned on the testing position.

2. The test equipment as claimed in claim 1, wherein different ones of the test sites have test modules for testing different sensors in the mobile terminal under test.

3. The test apparatus of claim 1, further comprising:

and the scanning module is positioned above or in front of the test position and used for acquiring the identification information of the tested mobile terminal by scanning the identification code area of the tested mobile terminal.

4. The test apparatus of claim 3, further comprising:

the processing module is positioned on the test position and used for receiving and processing test information of the test module for testing at least one sensor corresponding to the test module in the tested mobile terminal;

the scanning module with the processing module electricity is connected, still is used for: and establishing wireless communication connection between the processing module and the tested mobile terminal by scanning the wireless communication information displayed by the tested mobile terminal.

5. The test apparatus of claim 1, further comprising:

and the display module is positioned on the test position and used for displaying test information of the test module for testing at least one sensor corresponding to the test module in the tested mobile terminal.

6. The test apparatus of claim 1, further comprising:

the material tray is used for bearing the mobile terminal to be tested;

the transmission module includes:

the first transmission module is positioned below the test module and used for transmitting the material tray among the test positions along a first horizontal direction;

and the second transmission module is positioned below the first transmission module and used for transmitting the material tray among the plurality of test positions along a second horizontal direction, and the first horizontal direction is opposite to the second horizontal direction.

7. The test apparatus of claim 6, further comprising:

and the lifting module is positioned on one side of the test position and used for transmitting the material tray between the first transmission module and the second transmission module.

8. The test apparatus of claim 6, wherein the tray comprises:

the mobile terminal bearing part is used for fixing the mobile terminals to be tested with different sizes or different shapes;

and the charging tray body is used for fixing the mobile terminal bearing piece.

9. A test method applied to the test apparatus according to any one of claims 1 to 8, comprising:

the method comprises the steps that a mobile terminal to be tested is transmitted among test positions through a transmission module on the test positions which are arranged in parallel along a straight line in the horizontal direction;

and testing at least one sensor corresponding to the testing module in the tested mobile terminal on the testing position through the testing module positioned above the transmission module.

10. The method of testing of claim 9, further comprising:

and scanning the identification code area of the tested mobile terminal through a scanning module positioned above or in front of the test position to acquire the identification information of the tested mobile terminal.

11. The method of testing of claim 10, further comprising:

scanning wireless communication information displayed by the tested mobile terminal through the scanning module, and establishing wireless communication connection between the processing module positioned on the test position and the tested mobile terminal;

and processing test information of testing at least one sensor corresponding to the testing module in the tested mobile terminal by the testing module through the processing module.

12. The method of testing of claim 9, further comprising:

and displaying test information of testing at least one sensor corresponding to the test module in the tested mobile terminal by the test module through the display module positioned on the test position.

13. The method of testing of claim 9, further comprising:

the material tray bearing the tested mobile terminal is transmitted among the plurality of test positions along a first horizontal direction through a first transmission module in the transmission modules;

and the material tray is conveyed among the plurality of test positions along a second horizontal direction through a second conveying module positioned below the first conveying module, wherein the first horizontal direction is opposite to the second horizontal direction.

14. The method of testing of claim 13, further comprising:

and the material tray is transmitted between the first transmission module and the second transmission module through the lifting module positioned on one side of the test position.

15. A non-transitory computer-readable storage medium having stored therein computer-executable instructions that, when executed by a processor, implement the method of any of claims 9 to 14.

Images