CN215934865U - Test system of mobile terminal - Google Patents

Abstract

The disclosure relates to a test system of a mobile terminal, and relates to the technical field of terminal test. The test system comprises: the system comprises a shielding cabinet, a network switching device and a network input device; the network switching device is arranged in the shielding cabinet, and an input port of the network switching device is connected with the network input device; the output port of the network switching device is used for connecting with the communication interface of the mobile terminal when the tested mobile terminal exists in the shielding cabinet; the network switching device is used for outputting the network signal of the network input device through the communication interface. The test system provided by the disclosure can reduce the pressure of a wireless network in a test work area, and provides dual guarantee of stable network environment for the tested mobile terminal, thereby improving the accuracy of the test result of the mobile terminal.

Description

Test system of mobile terminal

Technical Field

The disclosure relates to the technical field of terminal testing, in particular to a testing system of a mobile terminal.

Background

In the related art, with the popularization of wireless networks, a mobile terminal installed with a tested application program is generally connected to a wireless network in an office area where a tester is located, and the application program in the tested mobile terminal is tested based on a network environment provided by the wireless network.

The wireless network in the office area provides a network environment for the mobile terminal for testing, and also provides a network environment for other equipment in the office area, and the other equipment can occupy more network resources, so that the network environment where the mobile terminal for testing is located is unstable, and the testing result is inaccurate.

Disclosure of Invention

The present disclosure provides a test system of a mobile terminal to improve accuracy of a test result of the mobile terminal. The technical scheme of the disclosure is as follows:

according to a first aspect of the embodiments of the present disclosure, there is provided a test system of a mobile terminal, the test system including: the system comprises a shielding cabinet, a network switching device and a network input device;

the network switching device is arranged in the shielding cabinet, and an input port of the network switching device is connected with the network input device;

the output port of the network switching device is used for connecting with the communication interface of the mobile terminal when the tested mobile terminal exists in the shielding cabinet;

the network switching device is used for outputting the network signal of the network input device through the communication interface.

In some embodiments, the test system further comprises a test rack placed in the shielding cabinet, one or more layers of partition boards are arranged in the test rack, and the network switching device is placed on any one of the partition boards;

the clapboard can also be used for placing the tested mobile terminal.

In other embodiments, the network switching device includes at least one network switch, an input port of each network switch is connected to the network input device, and an output port of each network switch is used for connecting to the mobile terminal under test;

when the test rack comprises a plurality of partitions, the plurality of partitions comprise a first partition and a second partition, the first partition is used for placing the mobile terminal to be tested, and the network switch is placed on the second partition.

In other embodiments, the network switching device includes at least one network switch, an input port of each network switch is connected to the network input device, and an output port of each network switch is used for connecting to the mobile terminal under test;

for each layer of the partition, the partition comprises a first area and a second area, the first area is used for placing the tested mobile terminal, and the network switch is placed on the second area.

In other embodiments, any partition is parallel to the lower surface of the shielding cabinet, or the inclination angle between any partition and the lower surface of the shielding cabinet is an acute angle.

In other embodiments, the bottom of the partition board is hinged in the test rack, a plug is arranged on the partition board, a plurality of jacks are arranged on the side surface of the test rack, and the jacks are different in position; the plug is used for being inserted into any one of the jacks.

In other embodiments, the test rack is connected with the cabinet body of the shielding cabinet through a sliding rail.

In other embodiments, the test system further comprises a power input device;

the output end of the power input device is connected with the input end of the network switching device;

the network switching device is also used for supplying power to the mobile terminal.

In other embodiments, the power input device includes a power cord; a first wire inlet through which the power wire passes is formed in the cabinet body of the shielding cabinet;

the first wire inlet is covered by a shielding copper mesh.

In other embodiments, the network switch device is a USB network switch.

In other embodiments, the test system further comprises a router, an input of the router is connected to the output port of the network input device, and an output of the router is used for transmitting the wireless network signal;

the router is used for establishing wireless network connection with the mobile terminal to be tested through the wireless network signal when the mobile terminal to be tested is not connected with the network switching device through a wired network.

In other embodiments, the testing system further comprises at least one ventilation device disposed on the cabinet body of the shielded cabinet.

In other embodiments, the ventilation device comprises a fan, the cabinet body is provided with a ventilation opening, and the fan is arranged in the ventilation opening;

the vent is covered by a shielding copper mesh.

In other embodiments, the network input device comprises a network cable; a second wire inlet through which the network cable passes is formed in the cabinet body of the shielding cabinet;

the second wire inlet is covered by a shielding copper mesh.

In other embodiments, the bottom of the shielding cabinet is provided with universal wheels and a height adjusting device.

In other embodiments, the shielding cabinet comprises a cabinet body and a cabinet door, the cabinet door is a magnetic door, and the cabinet body and the cabinet door are opened and closed in a magnetic type.

The technical scheme provided by the embodiment of the disclosure at least brings the following beneficial effects:

in the embodiment of the disclosure, on one hand, the tested mobile terminal is placed in the shielding cabinet, so that other devices cannot be connected with the network inside the shielding cabinet, and the network inside the shielding cabinet is ensured not to be interfered by external devices; on the other hand, the network switching device is arranged to enable the tested mobile terminal to be connected with the network provided by the network input device in a wired connection mode, so that the stability of the mobile terminal in connection with the network is improved. Therefore, the testing system provided by the disclosure can reduce the pressure of testing the wireless network of the work area, and provides double guarantee of stabilizing the network environment for the tested mobile terminal, thereby improving the accuracy of the testing result of the mobile terminal.

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 present disclosure and, together with the description, serve to explain the principles of the disclosure and are not to be construed as limiting the disclosure.

FIG. 1 is a block diagram illustrating a test system for a mobile terminal in accordance with an exemplary embodiment;

FIG. 2 is a block diagram illustrating another test system for a mobile terminal in accordance with one illustrative embodiment;

FIG. 3 is a block diagram illustrating another test system for a mobile terminal in accordance with one illustrative embodiment;

FIG. 4 is a block diagram illustrating another test system for a mobile terminal in accordance with one illustrative embodiment;

FIG. 5 is a block diagram illustrating another test system for a mobile terminal in accordance with one illustrative embodiment;

FIG. 6 is a block diagram illustrating another test system for a mobile terminal in accordance with one illustrative embodiment;

FIG. 7 is a block diagram illustrating another test system for a mobile terminal in accordance with an exemplary embodiment;

FIG. 8 is a block diagram illustrating another test system for a mobile terminal in accordance with one illustrative embodiment;

fig. 9 is a schematic structural diagram illustrating another test system for a mobile terminal according to an exemplary embodiment.

Detailed Description

In order to make the technical solutions of the present disclosure better understood by those of ordinary skill in the art, the technical solutions in the embodiments of the present disclosure will be clearly and completely described below with reference to the accompanying drawings.

It should be noted that the terms "first," "second," and the like in the description and claims of the present disclosure and in the above-described drawings are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the disclosure described herein are capable of operation in sequences other than those illustrated or otherwise described herein. The implementations described in the exemplary embodiments below are not intended to represent all implementations consistent with the present disclosure. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present disclosure, as detailed in the appended claims. The user information to which the present disclosure relates may be information authorized by the user or sufficiently authorized by each party.

The following explains terms related to the embodiments of the present disclosure.

USB (Universal Serial Bus): an external bus standard.

Type-C: an interface standard.

Micro USB: an interface standard.

Lightning: an interface standard.

And iOS: an operating system.

According to the test system of the mobile terminal, provided by the embodiment of the disclosure, by arranging the shielding cabinet, the wireless network outside the cabinet body can be effectively shielded, so that the phenomenon that the tested mobile terminal is connected with the wireless network outside the cabinet is avoided, and the invasion of the tested mobile terminal to the wireless network resources outside the cabinet is also avoided; and because the network switching device is arranged, the inside of the test system can provide a wired network for the tested mobile terminal, thereby effectively ensuring that the tested mobile terminal has a stable network environment, and also providing a quick charging function, thereby avoiding worrying about the problem of electric quantity consumption of the mobile terminal in the test process, and further carrying out long-time uninterrupted test.

Fig. 1 is a schematic structural diagram illustrating a test system 10 of a mobile terminal according to an exemplary embodiment, where as shown in fig. 1, the test system 10 includes: a shielding cabinet 11, a network switching device 12 and a network input device 13;

the network switching device 12 is arranged in the shielding cabinet 11, and an input port of the network switching device 12 is connected with the network input device 13;

the output port of the network switching device 12 is used for connecting with the communication interface of the mobile terminal 20 when the mobile terminal 20 to be tested exists in the shielding cabinet 11;

and a network switching device 12 for outputting the network signal of the network input device 13 through the communication interface.

The mobile terminal 20 may be at least one of a smart phone, a smart watch, a tablet computer, and the like.

In some embodiments, the output port of the network switching device 12 is a communication port, and the network switching device 12 is connected to a communication interface of the mobile terminal 20 through the communication interface, so as to input the network signal of the network input device 13 into the mobile terminal 20.

The network switching device 12 also includes a power port, which may be a USB port. Wherein, the power supply port of the network switching device 12 can be connected with the power input interface of the mobile terminal 20 through the USB connection line, so as to input the power provided by the network switching device 12 to the mobile terminal 20.

In other embodiments, the output ports of the network switching device 12 are both communication interfaces and power supply ports. Accordingly, the output port of the network switch 12 can be connected to the communication interface of the mobile terminal 20 through a USB connection line, and the USB connection line can input the power provided by the network switch 12 to the mobile terminal 20 and can input the network signal of the network input device 13 to the mobile terminal 20.

With continued reference to fig. 1, the shielding cabinet 11 includes a cabinet body 111 and a cabinet door 112, the cabinet door 112 is a magnetic door, and the cabinet body 111 and the cabinet door 112 are opened and closed in a magnetic manner.

Except the side where the cabinet door 112 is located, the five sides of the cabinet body 111 are integrally formed without any gap. For example, the cabinet 111 may be formed by laser welding, so as to ensure that five surfaces of the cabinet 111 are integrally formed.

In this embodiment of the disclosure, since the shielding cabinet 11 employs the magnetic door, it can be ensured that there is no gap between the cabinet body 111 and the cabinet door 112 after the cabinet door 112 is closed, and in addition, there is no gap between five faces of the cabinet body 111 itself, so that the space formed by the cabinet body 111 and the cabinet door 112 is airtight, and further, the six-face 360-degree circular shielding function of the shielding cabinet 11 is realized.

Referring to fig. 2, the testing system 10 further includes a testing jig 14 disposed in the shielding cabinet 11, one or more partitions 141 are disposed in the testing jig 14, and the network switching device 12 is disposed on any partition 141;

a shelf 141, which can also be used to hold the mobile terminal 20 under test.

When the test rack 14 includes a plurality of layers of partition boards 141, the number of layers of the partition boards 141 may be set as required, which is not specifically limited in the present disclosure; for example, the number of layers of the separator 141 may be 4, 5, 6, 7, or 9, and the like.

In the embodiment of the present disclosure, because the test rack 14 is disposed in the shielding cabinet 11, the shielding cabinet 11 can accommodate a plurality of tested mobile terminals 20, that is, the plurality of tested mobile terminals 20 can be simultaneously placed in the shielding cabinet 11 for testing, so that the accommodating space provided by the shielding cabinet 11 is fully utilized, and the space utilization rate is improved.

In some embodiments, any partition 141 is disposed parallel to the lower surface of the shielding cabinet 11; alternatively, the inclination angle between any partition 141 and the lower surface of the shielding cabinet 11 is acute.

In the embodiment of the present disclosure, since each partition 141 can adjust the angle, the technician can adjust the angle of the partition 141 as needed, so as to more conveniently see the display screen of the mobile terminal 20 inside the shielding cabinet 11, and check the test condition of the mobile terminal 20 through the display screen, thereby improving the convenience of the test rack 14 in the using process.

In some embodiments, the bottom of the partition 141 is hinged in the test rack 14, the partition 141 is provided with a plug 1411, the side surface of the test rack 14 is provided with a plurality of jacks 1412, and the positions of the jacks 1412 are different; a latch 1411 for insertion into any one of the plurality of receptacles. In the case where the latch 1411 is inserted into the different insertion holes 1412, the size of the inclination angle between the partition 141 and the lower surface of the shield cabinet 11 is different.

In some embodiments, with continued reference to fig. 3, each layer of baffles 141 includes a first sub-baffle 1413 and a second sub-baffle 1414, wherein the first sub-baffle 1413 is secured within the test rack 14, the second sub-baffle 1414 is hingedly connected to the first sub-baffle 1413, and the second sub-baffle 1414 has a latch 1411 disposed thereon.

Wherein, be provided with the roof beam in the test jig 14, the both ends of roof beam and two side fixed connection of test jig 14. The bottom of the partition 141 is hinged to the upper surface of the beam. In the case where the diaphragm 141 includes the first sub-diaphragm 1413 and the second sub-diaphragm 1414, the first sub-diaphragm 1413 is fixed to the upper surface of the beam.

The technician may rotate the partition 141 to insert the latch 1411 into the appropriate receptacle 1412 such that the angle of inclination between the partition 141 and the lower surface of the shielding cabinet 11 meets the angle the technician desires to set. The number of the jacks 1412 can be set as required, which is not particularly limited in this disclosure; for example, for each partition 141, the test rack 14 is provided with 4 receptacles 1412 on both sides to meet the requirements of different tilt angles.

In the embodiment of the present disclosure, since the socket 1412 and the plug 1411 are respectively disposed on the testing jig 14 and the partition 141, an inclination angle between the partition 141 and the lower surface of the shielding cabinet 11 can be set as required, thereby improving the applicability of the shielding cabinet 11.

In some embodiments, each layer of partition 141 has a non-slip retainer 1415 disposed thereon; the anti-slip holder 1415 is used for holding the mobile terminal 20 to be tested when the partition 141 is placed obliquely, so as to prevent the mobile terminal 20 from being damaged by slipping.

The size, number and arrangement position of the anti-slip holders 1415 may be determined according to the size of the mobile terminal 20 to be tested, so that the mobile terminal 20 to be tested can be fixed on the partition 141, which is not particularly limited by the present disclosure; for example, referring to fig. 3, two non-slip holders 1415 are provided for each mobile terminal 20.

In some embodiments, the test rack 14 is connected to the cabinet 111 of the shielding cabinet 11 by a sliding rail.

Wherein, this slide rail can be the silence slide rail to can avoid appearing too much noise at the slip in-process, improve user's use and experience.

In the embodiment of the present disclosure, because the slide rail is arranged between the test rack 14 and the shielding cabinet 11, the test rack 14 can slide through the slide rail, so that a technician can pull the test rack 14, and the test rack 14 slides out, so that the mobile terminal 20 can be conveniently taken or placed, the technician does not need to reach the inside of the shielding cabinet 11, or the cabinet body 111 of the shielding cabinet 11 shields the sight line, and the convenience of the test rack 14 in the using process is further improved.

In some embodiments, the network switching device 12 includes at least one network switch 121, an input port of each network switch 121 is connected to the network input device 13, and an output port of each network switch 121 is used for connecting to the mobile terminal 20 under test.

When the network switching device includes a plurality of network switches 121, the plurality of network switches 121 are provided on the test rack 14. Since each network switch 121 has a plurality of output ports, the network input device 13 needs to be connected to an input port of one network switch 121 located at an end of the plurality of network switches 121, and the output port of the network switch 121 is connected to an input port of another network switch 121, so that the plurality of network switches 121 are connected end to end. Thus, each network switch 121 can be connected to the network provided by the network input device 13 using one network cable 131.

In some embodiments, the network switching device 12 may be a USB network switch. In this embodiment, the USB network switch is disposed in the shielding cabinet, so that the network signal transmission between the network input device 13 and the mobile terminal 20 is more stable.

In one possible implementation, when the test rack 14 includes multiple partitions 141, the multiple partitions 141 include a first partition 141a and a second partition 141b, the first partition 141a being used for placing the mobile terminal 20 to be tested; the network switch 121 is placed on the second partition 141 b.

In this implementation, since the partition 141 for placing the network switch 121 does not need to be disposed obliquely, accordingly, the first partition 141a is disposed at an acute angle to the lower surface of the shielding cabinet 11, and the second partition 141b is disposed parallel to the lower surface of the shielding cabinet 11.

In this implementation, by distinguishing the first partition 141a from the second partition 141b, the pins 1413 and the sockets 1414 are provided for the first partition 141a, and the pins 1413 and the sockets 1414 do not need to be provided for all the partitions 141, so that the time cost and the resource cost spent by the partitions 141 in the production and manufacturing process are saved.

The number of the first and second partitions 141a and 141b may be set as needed, and the present disclosure is not particularly limited thereto. For example, referring to fig. 3, taking the mobile terminal 20 as a handset as an example, the first partition 141a and the second partition 141b are disposed at intervals, one layer of the handset is released, and one layer of the network switch 121 is released, so as to separate the handset from the network switch 121.

In the embodiment of the present disclosure, by distinguishing the partition 141 for placing the mobile terminal 20 under test from the partition 141 for placing the network switch 121, the mobile terminal 20 and the network switch 121 can be placed separately, thereby effectively utilizing the placement space provided by the test rack 14.

In another possible implementation, for each layer of the partition 141, the partition 141 includes a first area for placing the mobile terminal 20 under test and a second area on which the network switch 121 is placed.

For example, referring to fig. 4, taking the first area of the partition 141 as the left area and the second area as the right area as an example, the network switch 121 is disposed in the left area of the partition 141, the mobile terminal 20 to be tested is disposed in the right area of the partition 141, and the output port of the network switch 121 can be connected to the mobile terminal 20 disposed on the same partition 141.

In this implementation, the network switch 121 and the mobile terminal 20 under test connected to each other may be placed in different areas on the same partition 141, so that one kind of partition 141 may be produced during the production process, thereby improving the applicability of the partition 141.

With continued reference to fig. 2, the test system further includes a power input device 15;

the output end of the power input device 15 is connected with the input end of the network switching device 12;

the network switching device 12 is also used for supplying power to the mobile terminal 20.

The power input device 15 includes a power line and a power source. For ease of illustration, referring to fig. 2, a power input device 15 inputs power supplied from a power source external to the shielded cabinet 11 into the interior of the shielded cabinet through a power cord.

In some embodiments, the network switching device 12 provides the power of the power input device 15 to the mobile terminal 20 through a USB connection. In the embodiment of the disclosure, the USB connection line can transmit data and provide a fast charging function.

Wherein, the one end of USB connecting wire is the USB interface, and the interface of the other end can include multiple interface Type, and this multiple interface Type can include interfaces such as Type-C interface, Micro USB interface, Lightning interface to be applicable to the mobile terminal 20 of different grade Type.

For example, for the mobile terminal 20 installed with the iOS os, the interface is a Lightning interface, and a USB connection line having the Lightning interface can be used to connect the mobile terminal; for another example, for a mobile terminal 20 installed with an android operating system, the interface thereof may be a Type-C interface, and the USB connection line 15 having the same Type-C interface may be used to connect therewith.

Each network switch 121 may provide a preset number of output ports, where the preset number may be determined according to the type of the network switch 121, and the type of the network switch 121 is not specifically limited in this disclosure; for example, if the network switch 121 is provided with 6 output ports, the network switch 121 can provide 6 wired networks at most for 6 mobile terminals 20.

In the embodiment of the present disclosure, the power provided by the power input device 15 is input to the mobile terminal 20 under test through the network switching device 12, so that the wired network can be provided for the mobile terminal 20 under test, and power can be supplied to the mobile terminal 20 under test, thereby ensuring the network and power supply of the mobile terminal 20 during the test.

Referring to fig. 5, the power input device 15 includes a power supply line 151; the cabinet body 111 of the shielding cabinet 11 is provided with a first wire inlet 1111 for the power wire 151 to pass through;

the first wire inlet 1111 is covered by a shielding copper mesh.

The power supply voltage provided by the power line 151 may be 220V.

In the embodiment of the present disclosure, the shielding effectiveness between the inside and the outside of the cabinet body 111 of the shielding cabinet 11 is ensured by covering the wire inlet for the power wire 151 to pass through with the shielding copper mesh.

Accordingly, with continued reference to fig. 5, the network input device 13 includes a network cable 131; the cabinet body 111 of the shielding cabinet 11 is provided with a second wire inlet 1112 for the network cable 131 to pass through;

the second wire inlet 1112 is covered by a shielding copper mesh.

In one possible implementation, the first wire inlet 1111 and the second wire inlet 1112 may be disposed at adjacent positions to facilitate a technician to cover the two wire inlets together.

The network input device 13 further includes a network device located outside the shielding cabinet. For convenience of illustration, referring to fig. 2, the network input device 13 inputs a network signal provided by a network device outside the shielded cabinet 11 into the inside of the shielded cabinet through the network cable 131.

In the embodiment of the present disclosure, the shielding effectiveness between the inside and the outside of the cabinet body 111 of the shielding cabinet 11 is ensured by covering the wire inlet for the network cable 131 to pass through with the shielding copper net.

In the embodiment of the present disclosure, the cabinet body 111 and the cabinet door 112 of the shielding cabinet 11 may be made of steel plates; the surfaces of the cabinet body 111 and the cabinet door 112 are both provided with electromagnetic radiation coatings. Referring to fig. 6, the bottom of the shielding cabinet 11 is provided with universal wheels 113 and a height adjusting device 114.

The number and the arrangement positions of the universal wheels 113 and the height adjusting devices 114 can be set and modified by the skilled person as required, which is not specifically limited by the present disclosure, for example, one universal wheel 113 can be arranged at each corner of the bottom quadrangle of the shielding cabinet 11, and one height adjusting device 114 can be arranged at each side of the bottom quadrangle.

For example, the height adjusting means 114 may include an adjusting lever provided with a through hole into which one end of the hand lever extends, and a hand lever. Technicians can rotate the hand adjusting rod piece to enable the adjusting rod to ascend or descend relative to the ground, and therefore the ground clearance of the shielding cabinet can be adjusted.

It should be noted that the height adjusting device 114 may also include other components or achieve height adjustment through other manners, which are not specifically limited in this application.

In the embodiment of the present disclosure, the universal wheels 113 are disposed at the bottom of the shielding cabinet 11, so that a technician does not need to move the shielding cabinet 11 with great effort, but only needs to push the shielding cabinet 11, thereby increasing the speed of moving the shielding cabinet 11; in addition, since the height adjusting device 114 is disposed at the bottom of the shielding cabinet 11, even if the ground where the shielding cabinet 11 is located is uneven, the shielding cabinet 11 can be in a horizontal state by adjusting the height adjusting device 114, thereby improving the practicability of the shielding cabinet 11.

Referring to fig. 7, the test system 10 further includes a router 16, an input end of the router 16 is connected to an output port of the network input device 13, and an output end of the router 16 is used for transmitting a wireless network signal; the router 16 is used for establishing a wireless network connection with the mobile terminal 20 to be tested through a wireless network signal when the mobile terminal 20 to be tested is not connected with the network switching device 12 through a wired network.

In some embodiments, the network input device 13 is provided with at least two network cables 131; the output port of the network input device 13 is also the interface of the network cable 131. An interface of one network line 131 is connected to an input port of the network switching device 12, and an interface of the other network line 131 is connected to an input port of the router 16.

In other embodiments, the router 16 may be connected to an output port of the network input device 13 by means of the network switching device 12. Correspondingly, the network input device 13 is provided with at least one network cable 131; an interface of the network cable 131 is connected to an input port of the network switching device 12, and an output port of the network switching device 12 is connected to an input port of the router 16.

It should be noted that the output port of any network switch 121 in the network switching device 12 may be connected to the input port of the router 16, that is, it is not necessary that the output ports of the plurality of network switches 121 are all connected to the input port of the router 16.

In the embodiment of the present disclosure, by setting the router 16, the mobile terminal 20 can be connected to the wireless network provided by the router 16 when not connected to the network switching device 12, so that the selection manner of the network in the test process of the mobile terminal 20 is enriched, the dual network guarantee of the mobile terminal 20 is realized from both wired and wireless aspects, and the network stability of the mobile terminal 20 in the test process is further improved.

Referring to fig. 8, the testing system 10 further includes at least one ventilator 17, the ventilator 17 being disposed on the cabinet 111 of the shielded cabinet 11.

In some embodiments, ventilation means 17 are provided for ventilating and dissipating heat from the shielding cabinet 11 in real time.

In the embodiment of the present disclosure, the ventilation device 17 is disposed on the cabinet body 111 of the shielding cabinet 11 to ventilate and dissipate heat of the shielding cabinet, so as to ensure that the temperature inside the cabinet body 111 can be located in a suitable temperature range as much as possible, that is, the temperature of the shielding cabinet 11 is controlled, thereby ensuring that the tested mobile terminal 20 is always in a relatively stable temperature testing environment as much as possible, and thus ensuring that the testing result of the mobile terminal 20 is not affected by the temperature as much as possible, and further improving the accuracy of the testing result of the mobile terminal 20.

Referring to fig. 9, the ventilation device 17 includes a fan 171, a ventilation opening 1113 is provided on the cabinet 111, and the fan 171 is disposed in the ventilation opening 1113.

In one possible implementation, the fan 171 may be a brushless fan. Because the motor of the brushless fan has no electric brush, the loss is smaller, the noise is lower, the service life is longer, the maintenance cost is lower, and the interference of electric sparks to other devices in the test system is reduced.

In the embodiment of the present disclosure, a technician may set the number of the fans 171 as needed, which is not specifically limited by the present disclosure; for example, referring to fig. 9, two vents 1113 are provided in the top of the shielded cabinet 11, and one fan 171 is provided in each vent 1113.

Wherein the vent 1113 is covered by a shielding copper mesh.

In the embodiment of the present disclosure, the shielding effectiveness between the inside and the outside of the cabinet body 111 of the shielding cabinet 11 is ensured by covering the wire inlet for the network cable 131 to pass through with the shielding copper net.

The test system 10 of the mobile terminal 20 provided by the embodiment of the present disclosure can be isolated from the wireless network in the external office area, that is, the stability and the fluency of the wireless network in the office area are protected, and meanwhile, an independent and good test environment including a placement environment, a charging environment, a network environment, a temperature control environment, and the like can be provided for the mobile terminal 20 to be tested. Since the messy test environment and the encroachment of the wireless network in the office area can be avoided, the centralized management of the mobile terminal 20 can be realized, and the test system 10 is suitable for a large number of application test scenes which are performed in a centralized manner and production scenes of the mobile terminal 20.

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

It will be understood that the present disclosure 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 present disclosure is limited only by the appended claims.

Claims (16)

1. A test system for a mobile terminal, the test system comprising: the system comprises a shielding cabinet, a network switching device and a network input device;

the network switching device is arranged in the shielding cabinet, and an input port of the network switching device is connected with the network input device;

the output port of the network switching device is used for connecting with the communication interface of the mobile terminal when the tested mobile terminal exists in the shielding cabinet;

the network switching device is used for outputting the network signal of the network input device through the communication interface.

2. The testing system of claim 1, further comprising a testing rack disposed in the shielding cabinet, wherein one or more layers of partition plates are disposed in the testing rack, and the network switching device is disposed on any one of the partition plates;

the clapboard can also be used for placing the tested mobile terminal.

3. The system for testing mobile terminals of claim 2, wherein the network switch device comprises at least one network switch, each network switch having an input port connected to the network input device, and an output port connected to the mobile terminal under test;

when the test rack comprises a plurality of partitions, the plurality of partitions comprise a first partition and a second partition, the first partition is used for placing the mobile terminal to be tested, and the network switch is placed on the second partition.

4. The system for testing mobile terminals of claim 2, wherein the network switch device comprises at least one network switch, each network switch having an input port connected to the network input device, and an output port connected to the mobile terminal under test;

for each layer of the partition, the partition comprises a first area and a second area, the first area is used for placing the tested mobile terminal, and the network switch is placed on the second area.

5. The testing system of the mobile terminal according to claim 2, wherein any partition is disposed parallel to the lower surface of the shielding cabinet, or an inclination angle between any partition and the lower surface of the shielding cabinet is an acute angle.

6. The system for testing the mobile terminal according to claim 5, wherein the bottom of the partition board is hinged in the test rack, the partition board is provided with a plug, the side of the test rack is provided with a plurality of jacks, and the jacks are arranged at different positions; the plug is used for being inserted into any one of the jacks.

7. The system for testing the mobile terminal according to claim 2, wherein the testing jig is connected to the cabinet body of the shielding cabinet through a sliding rail.

8. The test system of claim 1, further comprising a power input device;

the output end of the power input device is connected with the input end of the network switching device;

the network switching device is also used for supplying power to the mobile terminal.

9. The test system for mobile terminals according to claim 8, wherein the power input means includes a power line; a first wire inlet through which the power wire passes is formed in the cabinet body of the shielding cabinet;

the first wire inlet is covered by a shielding copper mesh.

10. The system for testing a mobile terminal according to claim 1, wherein said network switch device is a USB network switch.

11. The test system of claim 1, further comprising a router, an input of the router being connected to the output port of the network input device, an output of the router being configured to transmit the wireless network signal;

the router is used for establishing wireless network connection with the tested mobile terminal through the wireless network signal when the tested mobile terminal is not connected with the network switching device through a wired network.

12. The system for testing a mobile terminal of claim 1, further comprising at least one ventilation device disposed on a cabinet body of said shielded cabinet.

13. The system for testing the mobile terminal according to claim 12, wherein the ventilation device comprises a fan, a ventilation opening is formed in the cabinet body, and the fan is disposed in the ventilation opening;

the vent is covered by a shielding copper mesh.

14. The test system of claim 1, wherein the network input device comprises a network cable; a second wire inlet through which the network cable passes is formed in the cabinet body of the shielding cabinet;

the second wire inlet is covered by a shielding copper mesh.

15. The testing system of the mobile terminal according to claim 1, wherein the bottom of the shielding cabinet is provided with universal wheels and a height adjusting device.

16. The system for testing the mobile terminal according to claim 1, wherein the shielding cabinet comprises a cabinet body and a cabinet door, the cabinet door is a magnetic door, and the cabinet body and the cabinet door are opened and closed in a magnetic manner.

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