CN204578616U - A kind of terminal heating testing apparatus - Google Patents

Abstract

The utility model relates to a kind of terminal heating testing apparatus, comprise: manipulator measured terminal being carried out to touch operation, real-time monitoring measured terminal surface temperature changes and generates thermographic thermal infrared imager, controls described manipulator and thermal infrared imager and carries out the heat picture that described thermal infrared imager generates analyzing the main frame generating test report; Wherein, described manipulator is connected with main frame respectively by netting twine with described thermal infrared imager, communicates with main frame respectively by ICP/IP protocol.

Description

A kind of terminal heating testing apparatus

Technical field

The utility model relates to the measuring technology of terminal, particularly relates to a kind of terminal heating testing apparatus.

Background technology

Current terminal heating method of testing, great majority have come by manual testing, such as: under room temperature environment, measured terminal is placed on the table, terminal charged, converses, play games, watch the operation such as video, browsing page, then with artificial hand-held infrared thermometer, temperature imaging and temperature survey are carried out to measured terminal surface.

But mainly there is following problem in the method that terminal heating test is manually carried out in existing dependence:

The first, test process does not realize automation, and testing efficiency is low, and test process is easily subject to the interference of extraneous factor, and test result accuracy rate is low; Because whole test process is all manual operation, human factor is very large, and test result is easily affected; In addition, use infrared thermometer to carry out temperature imaging and temperature survey to measured terminal, the factors such as the distance between instrument and measured terminal, angle are difficult to control; Further, operating personnel participate in test environment, also can cause interference to test result.

The second, due to manually-operated limitation, test result imperfection, cannot simultaneously acquisition terminal outer surface institute a little, there is no detailed test scene yet, complete test report cannot be formed.

Utility model content

In view of this, the utility model embodiment is expected to provide a kind of terminal heating testing apparatus, the problems such as the testing efficiency existed when can solve existing terminal heating test is low, accuracy is low, test result imperfection.

For achieving the above object, the technical solution of the utility model is achieved in that

The invention provides a kind of terminal heating testing apparatus, described device comprises:

Measured terminal is carried out to the manipulator of touch operation; Real-time monitoring measured terminal surface temperature changes and generates thermographic thermal infrared imager; Control described manipulator and thermal infrared imager and carry out the heat picture that described thermal infrared imager generates analyzing the main frame generating test report;

Wherein, described manipulator is connected with main frame respectively by netting twine with described thermal infrared imager, communicates with main frame respectively by ICP/IP protocol.

Preferably, described manipulator comprises touch controller, supports the lateral slide rail of described touch controller transverse shifting and support the longitudinal side rails that described touch controller vertically moves.

Preferably, described touch controller comprise to measured terminal screen carry out touch operation contact cotrol head and support described contact cotrol head to move up and down slide up and down guide rail.

Preferably, described device also comprises the shielding case body of the test environment providing calm constant temperature for measured terminal;

Described manipulator, described infrared video camera are all arranged in described shielding case body.

Preferably, described shielding case body comprises the fixture preventing measured terminal movement.

Preferably, described device also comprises the relay charged to measured terminal;

Described relay is positioned at outside shielding case body, and one end is connected with main frame by serial ports, and the charging instruction of Receiving Host, the other end is connected with measured terminal.

Preferably, described device also comprises temperature in Real-Time Monitoring shielding case body and temperature in the shielding case body monitored is reported to the intelligent themometer of main frame;

Described intelligent themometer is positioned at shielding case body, is connected with main frame by USB.

Preferably, described device also comprises the heat sink of lowering the temperature to shielding case body environment;

Described heat sink is positioned at shielding case body, is connected with main frame by serial ports, the cooling instruction that Receiving Host sends; Described heat sink includes but not limited to cooling fan.

Preferably, described device also comprises and carries out intelligent positioning to measured terminal and by the measured terminal position feedback the determined monitoring camera to main frame;

Described monitoring camera is positioned at shielding case body, is connected with main frame by USB.

The terminal heating testing apparatus that the utility model embodiment provides, comprise: manipulator measured terminal being carried out to touch operation, real-time monitoring measured terminal surface temperature changes and generates thermographic thermal infrared imager, controls described manipulator and thermal infrared imager and carries out the heat picture that described thermal infrared imager generates analyzing the main frame generating test report; Wherein, described manipulator is connected with main frame respectively by netting twine with described thermal infrared imager, and communicates with main frame respectively by ICP/IP protocol.So, when making to test terminal heat condition, do not need artificial participation, improve testing efficiency and test accuracy rate, make test result more perfect.

Accompanying drawing explanation

Fig. 1 is the utility model embodiment terminal heating testing apparatus composition structural representation;

Fig. 2 is the simple connection relation schematic diagram in the utility model embodiment terminal heating testing apparatus between each parts;

Fig. 3 is the utility model embodiment terminal heating method of testing schematic flow sheet.

Embodiment

In the utility model embodiment, terminal heating testing apparatus comprises terminal heating testing apparatus and comprises: the manipulator operated terminal, real-time monitoring terminal surface temperature changes and generates thermographic thermal infrared imager, controls described manipulator and thermal infrared imager and carries out the heat picture that described thermal infrared imager generates analyzing the main frame generating test report; Wherein, described manipulator is connected with main frame respectively by netting twine with described thermal infrared imager, and communicates with main frame respectively by ICP/IP protocol.

Below in conjunction with accompanying drawing and tool embodiment, the utility model skill terminal heating testing apparatus composition structure is described in further detail.As shown in Figure 1, described terminal heating testing apparatus comprises the utility model embodiment terminal heating testing apparatus structure: manipulator 11, thermal infrared imager 12, main frame 13; Wherein,

Described manipulator 11, for carrying out touch operation to measured terminal 10;

Concrete, the longitudinal side rails 113 that manipulator 11 comprises touch controller 111, supports the lateral slide rail 112 of described touch controller transverse shifting and support described touch controller to vertically move.

Described touch controller bag 111 comprises the contact cotrol head 1111 measured terminal 10 screen being carried out to touch operation, and support described contact cotrol head to move up and down slide up and down guide rail 1112.

Described thermal infrared imager 12, changes for monitoring measured terminal 10 surface temperature in real time and generates thermography;

Described main frame 13, for controlling described manipulator and thermal infrared imager, and carries out analysis generation test report to the heat picture that described thermal infrared imager generates.

Wherein, described manipulator 11 is connected with main frame 13 by netting twine, is communicated with main frame 13 by ICP/IP protocol;

After test starts, main frame 13 sends connection manipulator 11 and orders, and after manipulator 11 successful connection, carries out initialization operation to manipulator 11, as: the three axle speeds of service, three axle ranges etc. are set; After completing manipulator 11 initialization, main frame 13 controls manipulator 11 pairs of measured terminals 10 according to the test case pre-set and carries out various operation.Wherein, described manipulator comprises the operation that measured terminal 10 carries out: simulation staff is clicked, double-clicked, long by, the action such as sliding screen, dragging.

Described thermal infrared imager 12 is connected with main frame 13 by netting twine, is communicated with main frame 13 by ICP/IP protocol;

After test starts, described main frame 13 sends connection thermal infrared imager 12 and orders, after thermal infrared imager 12 successful connection, carry out initialization operation to thermal infrared imager 12, after initialization completes, thermal infrared imager 12 starts, the energy launched by receiving measured terminal 10, reflect and conduct measures the surface temperature of measured terminal 10, and the energy information of collection input thermal infrared imager 12 is processed, after converting thermography to, be sent to main frame 13.

The temperature data that described main frame 13 Real-time Obtaining thermal infrared imager 12 obtains and thermography; After acquisition temperature data and thermography, the temperature data that main frame 13 pairs of thermal infrared imagers 12 send and thermography are analyzed, and finally generate test report, and carry out output display by display.

In the utility model embodiment, described device also comprises for measured terminal 10 provides the shielding case body 14 of the test environment of calm constant temperature; Described manipulator 11, infrared video camera 12 are all arranged in described shielding case body 14; Described main frame 13 can be positioned at outside shielding case body 14; Wherein, also comprise the fixture 15 preventing measured terminal 10 movement in described shielding case body, described fixture 15 is connected with the base plate of described shielding case body 14.

Affect test proceed to prevent measured terminal in test process because electricity exhausts, described device also comprises relay 16, for charging to measured terminal 10; Described relay 16 is positioned at outside shielding case body 14, and one end is connected with main frame 13 by serial ports, the charging instruction of Receiving Host 13, and the other end is connected with measured terminal 10.

Main frame 13 sends charging instruction to relay 16 by serial ports, after relay 16 receives the charging instruction of main frame 13 transmission, automatically inputs the electric current within the scope of 1.5A ~ 2.0A to measured terminal 10; After charging complete, main frame 13 sends cut-offing instruction to relay 16 by serial ports, and described relay 16 stops charging to measured terminal 10 after receiving the cut-offing instruction of main frame 13 transmission.

In addition, in order to prevent the impact of outside environmental elements, needing to monitor in real time the temperature in shielding case body 14, when the temperature in shielding case body 14 is too high, needing to carry out cooling process to described shielding case body environment.Described in the utility model embodiment, terminal heating testing apparatus also comprises intelligent themometer 17 and heat sink 18, and wherein, temperature in the shielding case body monitored for temperature in Real-Time Monitoring shielding case body, and is reported to main frame 13 by described intelligent themometer 17; Described intelligent themometer 17 is arranged in described shielding case body 14, is connected with main frame 13 by USB; Described heat sink 18 is for lowering the temperature to shielding case body 14 environment; Described heat sink 18 is positioned at shielding case body 14, is connected with main frame 13 by serial ports, the cooling instruction that Receiving Host 13 sends; Described heat sink 18 includes but not limited to cooling fan.

When described main frame 13 receive exceed predetermined threshold value from the temperature in the shielding case body 14 of intelligent themometer 17 time, described main frame 13 sends cooling instruction to heat sink 18 by serial ports, described heat sink 18 pairs of shielding case body environment are lowered the temperature, as started cooling fan etc.; Variations in temperature in described intelligent themometer 17 Real-Time Monitoring shielding case body 14 simultaneously, and real-time report is to main frame 13, when in described shielding case body, temperature is lower than predetermined threshold value, described main frame 13 is sent by serial ports and stops cooling instruction to described heat sink 18, described heat sink 18 stops cooling work, as closed cooling fan lamp.

In the utility model embodiment, described device also comprises monitoring camera 19, for carrying out intelligent positioning to measured terminal 10, and by measured terminal 10 position feedback determined to main frame 13; Described main frame 13 is according to described monitoring camera 19 feedack, and selected needs carry out generating heat the region to be measured of test, and driving device hand 11 and thermal infrared imager 12 on this basis; Described monitoring camera 19 is positioned at shielding case body, is connected with main frame by USB.

Fig. 2 is the simple connection relation schematic diagram in the utility model embodiment terminal heating testing apparatus between each parts.Composition structure shown in composition graphs 2 and annexation, the utility model embodiment terminal heating method of testing as shown in Figure 3, comprises the following steps:

Step 301: measured terminal is configured;

In this step, measured terminal is configured and comprises: first, measured terminal 10 is fixed in the fixture 15 in shielding case body 14; Then, positioned by described monitoring camera 19 pairs of measured terminals 10; Next, main frame 13 is according to the positioning result of monitoring camera 19, and selected needs carry out the region to be measured tested that generates heat;

Step 302: carry out test case and write;

In this step, first create new test case, then created test case is write and compiled, finally generate executable file.

Step 303: the heat condition of measured terminal is tested;

In this step, according to the executable file that step 302 generates, transfer manipulator 11 pairs of measured terminals 10 to operate, transfer the omnidistance real-time monitoring terminal surface temperature of infrared thermography 12 simultaneously, the temperature information of collection input infrared thermography 12 is processed, after converting thermography to, be sent to main frame 13; And by the temperature in intelligent themometer 17 Real-Time Monitoring shielding case body 14, and the temperature in the shielding case body monitored is reported to main frame 13; When described main frame 13 receive exceed predetermined threshold value from the temperature in the shielding case body 14 of intelligent themometer 17 time, described main frame 13 sends cooling instruction to heat sink 18 by serial ports, described heat sink 18 pairs of shielding case body environment are lowered the temperature, as started cooling fan etc.; Variations in temperature in described intelligent themometer 17 Real-Time Monitoring shielding case body 14 simultaneously, and real-time report is to main frame 13, when in described shielding case body, temperature is lower than predetermined threshold value, described main frame 13 is sent by serial ports and stops cooling instruction to described heat sink 18, described heat sink 18 stops cooling work, as closed cooling fan lamp.

Affect test proceed to prevent measured terminal in test process because electricity exhausts, in test process, main frame 13 can send charging instruction to relay 16 by serial ports, after relay 16 receives the charging instruction of main frame 13 transmission, automatically input the electric current within the scope of 1.5A ~ 2.0A to measured terminal 10; After charging complete, main frame 13 sends cut-offing instruction to relay 16 by serial ports, and described relay 16 stops charging to measured terminal 10 after receiving the cut-offing instruction of main frame 13 transmission.

Step 304: generate test report;

In this step, the temperature data that main frame 13 pairs of thermal infrared imagers 12 send and thermography are analyzed, and finally generate test report, and carry out output display by display.

The terminal heating testing apparatus recorded in the utility model embodiment is only for above-described embodiment, but be not limited only to this, those of ordinary skill in the art is to be understood that: it still can be modified to the technical scheme described in foregoing embodiments, or equivalent replacement is carried out to wherein some or all of technical characteristic, or the position relationship of wherein section components is exchanged; And these amendments or replacement, do not make the essence of appropriate technical solution depart from the scope of each embodiment technical scheme of the utility model.

The above, be only preferred embodiment of the present utility model, is not intended to limit protection range of the present utility model.

Claims (9)

1. a terminal heating testing apparatus, it is characterized in that, described device comprises:

Measured terminal is carried out to the manipulator of touch operation; Real-time monitoring measured terminal surface temperature changes and generates thermographic thermal infrared imager; Control described manipulator and thermal infrared imager and carry out the heat picture that described thermal infrared imager generates analyzing the main frame generating test report;

Wherein, described manipulator is connected with main frame respectively by netting twine with described thermal infrared imager, communicates with main frame respectively by ICP/IP protocol.

2. device according to claim 1, it is characterized in that, described manipulator comprises touch controller, supports the lateral slide rail of described touch controller transverse shifting and support the longitudinal side rails that described touch controller vertically moves.

3. device according to claim 2, is characterized in that, described touch controller comprise to measured terminal screen carry out touch operation contact cotrol head and support described contact cotrol head to move up and down slide up and down guide rail.

4. device according to claim 1,2 or 3, it is characterized in that, described device also comprises the shielding case body of the test environment providing calm constant temperature for measured terminal;

Described manipulator, described infrared video camera are all arranged in described shielding case body.

5. device according to claim 4, it is characterized in that, described shielding case body comprises the fixture preventing measured terminal movement.

6. device according to claim 4, it is characterized in that, described device also comprises the relay charged to measured terminal;

Described relay is positioned at outside shielding case body, and one end is connected with main frame by serial ports, and the charging instruction of Receiving Host, the other end is connected with measured terminal.

7. device according to claim 4, it is characterized in that, described device also comprises temperature in Real-Time Monitoring shielding case body and temperature in the shielding case body monitored is reported to the intelligent themometer of main frame;

Described intelligent themometer is positioned at shielding case body, is connected with main frame by USB.

8. device according to claim 4, it is characterized in that, described device also comprises the heat sink of lowering the temperature to shielding case body environment;

Described heat sink is positioned at shielding case body, is connected with main frame by serial ports, the cooling instruction that Receiving Host sends; Described heat sink includes but not limited to cooling fan.

9. device according to claim 4, is characterized in that, described device also comprises and carries out intelligent positioning to measured terminal and by the measured terminal position feedback the determined monitoring camera to main frame;

Described monitoring camera is positioned at shielding case body, is connected with main frame by USB.