CN114006967A - Mobile phone test equipment and test method thereof - Google Patents

Abstract

The invention discloses a mobile phone test device and a test method thereof, wherein the test device comprises: an annular guide rail; the electric movable bearing platform is used for mounting a mobile phone of the child to be tested and is mounted on the annular guide rail; the virtual positioning device is connected with the mobile phone of the child to be detected in a signal mode; the wireless network router is in signal connection with the to-be-tested child mobile phone; the controller is connected with the electric mobile bearing platform and the wireless network router; and the server is in signal connection with the mobile phone of the child to be tested. The invention solves the problem of low performance detection efficiency of the existing mobile phone for children.

Description

Mobile phone test equipment and test method thereof

Technical Field

The invention relates to the technical field of mobile terminals, in particular to a mobile phone test device and a test method thereof.

Background

In the process of developing the child mobile phone, performance tests of driving speed detection, WIFI detection and position timing positioning need to be carried out on the child mobile phone. The performance test requires a tester to carry a child mobile phone to take a vehicle outdoors, and the child mobile phone is carried to move at a specified driving speed, so that the detection efficiency of the child mobile phone is low.

Disclosure of Invention

In order to overcome the defects in the prior art, the mobile phone test equipment and the test method thereof are provided so as to solve the problem of low performance detection efficiency of the existing children mobile phone.

In order to achieve the above object, there is provided a mobile phone test apparatus, comprising:

an annular guide rail;

the electric movable bearing platform is used for mounting a mobile phone of the child to be tested and is mounted on the annular guide rail;

the virtual positioning device is connected with the mobile phone of the child to be detected in a signal mode;

the wireless network router is in signal connection with the to-be-tested child mobile phone;

the controller is connected with the electric mobile bearing platform and the wireless network router; and

and the server is in signal connection with the mobile phone of the child to be tested.

Further, the annular guide rail comprises an inner annular rail and an outer annular rail which are concentrically arranged.

Further, the electric movable platform comprises:

the bearing plate is provided with two through limiting grooves on two opposite sides of the bottom of the bearing plate respectively, the inner ring rail and the outer ring rail are arranged in the two limiting grooves in a sliding mode respectively, and the side wall of each limiting groove is provided with a shaft hole;

the transmission rotating shaft is rotatably arranged in the shaft holes of the two limiting grooves in a penetrating manner;

the two walking rollers are respectively and coaxially connected to two ends of the transmission rotating shaft, and the inner ring rail and the outer ring rail are respectively supported on the two walking rollers; and

the motor is used for driving the transmission rotating shaft and is arranged on the bearing plate, and the motor is connected to the controller.

Furthermore, a lower groove is formed in the middle of the bottom of the bearing plate, the motor is installed in the lower groove, and the transmission rotating shaft penetrates through the lower groove.

Further, a worm wheel is installed at the output end of the motor, a worm is coaxially installed on the transmission rotating shaft, and the worm wheel is meshed with the worm.

Furthermore, the walking rollers are rubber rollers.

The invention provides a testing method of mobile phone testing equipment, which comprises the following steps:

mounting a mobile phone of a child to be tested on an electric mobile bearing platform;

starting the child mobile phone to be detected, wherein the child mobile phone to be detected acquires positioning information of a virtual positioning device at a preset time interval;

the controller starts the electric movable bearing platform to enable the electric movable bearing platform to move along the circumferential direction of the annular guide rail;

the controller starts the wireless network router;

based on the distance difference between the positioning information of two adjacent times and the preset time interval, the to-be-detected child mobile phone calculates and obtains the moving speed of the to-be-detected child mobile phone, generates a moving signal carrying the positioning information of the latest time when the moving speed is greater than zero, and after the moving speed is greater than a threshold value, the to-be-detected child mobile phone sends an abnormal movement signal to the outside and starts a wireless signal detection function, so that the to-be-detected child mobile phone is paired with the wireless network router in a signal coverage range of the wireless network router;

after the wireless network router is paired with the child mobile phone to be tested, the child mobile phone to be tested sends an entering signal to the outside when the pairing is successful, and sends a leaving signal to the outside when the pairing of the wireless router is disconnected and the moving speed is higher than zero;

the server receives the move signal, the transaction signal, the entry signal, and the exit signal.

The test equipment and the test method of the mobile phone test equipment have the advantages that the annular guide rail is erected indoors, the electric mobile bearing platform is used for carrying the mobile phone of the child to be tested to move, the virtual positioning technology is combined, so that the mobile phone of the child to be tested can acquire the positioning information of the carrying movement displacement at intervals, the speed of the mobile phone of the child to be tested is calculated based on the interval time to detect the speed of the mobile phone of the child to be tested, the wireless signal detection and the positioning function detection, the mobile phone carried by a tester is prevented from carrying out an outfield test, and the mobile phone performance detection efficiency is improved.

Drawings

Other features, objects and advantages of the present application will become more apparent upon reading of the following detailed description of non-limiting embodiments thereof, made with reference to the accompanying drawings in which:

fig. 1 is a schematic structural diagram of a mobile phone test device according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of an electric movable platform according to an embodiment of the present invention.

Detailed Description

The present application will be described in further detail with reference to the following drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the relevant invention and not restrictive of the invention. It should be noted that, for convenience of description, only the portions related to the present invention are shown in the drawings.

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present application will be described in detail below with reference to the embodiments with reference to the attached drawings.

Referring to fig. 1 and 2, the present invention provides a mobile phone test apparatus, including: the system comprises a ring-shaped guide rail 1, an electric mobile bearing platform 2, a virtual positioning device, a wireless network router, a controller and a server.

Wherein, the annular guide rail 1 is circular or oval. The electric movable bearing platform is arranged on the annular guide rail. The electric mobile bearing platform 2 is used for installing a mobile phone 3 of a child to be tested.

The virtual positioning device is connected with the mobile phone 3 of the child to be detected through signals. And the wireless network router is in signal connection with the child mobile phone 3 to be tested. In this embodiment, the child mobile phone includes a wireless communication module, and the child mobile phone is connected to the wireless network router through a wireless signal of the wireless communication module. After the wireless communication module of the child mobile phone and the wireless network router are started, the wireless communication module of the child mobile phone and the wireless network router are connected in a matched mode.

The controller is connected with the electric mobile bearing platform 2 and the wireless network router. The controller is used for controlling the running speed of the electric mobile bearing platform on the circular guide rail and turning on and off the wireless network router.

The server is connected with the mobile phone 3 of the child to be tested through signals. The server is used for receiving various signals sent by the mobile phone of the child to be tested.

As a preferred embodiment, the circular guide 1 comprises an inner circular rail 11 and an outer circular rail 12, which are concentrically arranged. In this embodiment, the inner ring rail and the outer ring rail are each an annular stainless steel tube.

As a preferred embodiment, the motorized mobile platform 2 comprises: a bearing plate 21, a transmission rotating shaft 22, two walking rollers 24 and a motor 23.

Wherein, two through-going limit grooves are respectively arranged on two opposite sides of the bottom of the bearing plate 21. The inner ring rail 11 and the outer ring rail 12 are respectively arranged in the two limit grooves in a sliding manner. The limiting groove penetrates through the two opposite ends of the bearing plate. The side wall of the limiting groove is provided with a shaft hole.

The transmission shaft 22 is rotatably inserted into the shaft holes of the two limiting grooves. Two traveling rollers 24 are coaxially connected to both ends of the driving shaft 22, respectively. The inner ring rail 11 and the outer ring rail 12 are supported on two traveling rollers 24, respectively. The motor 23 is mounted on the base plate 21. The motor 23 is connected to the controller. The motor 23 is used for driving the transmission rotating shaft 22. The motor drives the transmission rotating shaft to rotate, and drives the walking rollers to roll on the inner ring rail and the outer ring rail, so that the electric movable bearing platform is driven to move along the circumferential direction of the annular guide rail.

In the present embodiment, a lower groove is formed in the middle of the bottom of the support plate 21. The motor 23 is mounted in the lower groove. The drive shaft 22 extends through the lower groove. The upper part of the bearing plate is provided with a tray, and the mobile phone of the child to be tested is clamped and fixed in the tray.

In a preferred embodiment, the motor is mounted in the lower groove. The output end of the motor 23 is mounted with a worm wheel 231. The worm 221 is coaxially installed on the transmission rotating shaft 22. The worm wheel 231 is engaged with the worm 221. The motor drives the running roller to rotate through the worm and gear.

In a preferred embodiment, the running rollers 24 are rubber rollers.

The invention provides a testing method of mobile phone testing equipment, which is characterized by comprising the following steps:

s1: and (3) installing the mobile phone 3 of the child to be tested on the electric mobile bearing platform 2.

Specifically, the mobile phone of the child to be tested is installed in the tray.

S2: and starting the child mobile phone 3 to be tested, wherein the child mobile phone 3 to be tested acquires the positioning information of the virtual positioning device at a preset time interval.

And starting the mobile phone of the child to be detected and a virtual positioning device (such as a displacement genius). The mobile phone 3 of the child to be detected acquires the positioning information of the virtual positioning device at preset time intervals. The predetermined time interval is, for example, 5 minutes or 10 minutes.

And virtually updating the map position of the mobile phone of the child to be tested by a map virtual positioning technology.

Specifically, the to-be-tested child mobile phone acquires positioning information every 5 minutes, wherein the positioning information comprises the longitude and latitude of the to-be-tested mobile phone.

S3: the controller turns on the electric moving deck 2 so that the electric moving deck 2 moves in the circumferential direction of the endless guide rail 1.

The controller starts the motor, so that the walking roller rolls on the upper parts of the inner ring rail and the outer ring rail along the circumferential direction of the inner ring rail and the outer ring rail of the annular guide rail.

Meanwhile, the controller controls the rotating speed of the motor to realize the running speed of the electric movable bearing platform.

S4: the controller starts the wireless network router.

After the electric mobile bearing platform runs for a period of time, the controller starts the wireless network router.

S5: based on the distance difference between the two adjacent positioning information and the preset time interval, the to-be-detected child mobile phone 3 calculates to obtain the moving speed of the to-be-detected child mobile phone 3, generates a moving signal carrying the latest positioning information when the moving speed is greater than zero, and after the moving speed is greater than a threshold value, the to-be-detected child mobile phone 3 sends out a transaction signal and starts a wireless signal detection function, so that the to-be-detected child mobile phone 3 is paired with the wireless network router in a signal coverage range of the wireless network router.

And calculating to obtain a distance difference value according to the longitude and latitude in the positioning information of the two adjacent times. According to the distance difference (L) and the preset time interval (t), the mobile phone 3 of the child to be tested calculates and obtains the moving speed (V ═ L/t) of the mobile phone 3 of the child to be tested.

And when the moving speed is greater than zero, the mobile phone of the child to be detected generates a moving signal carrying the latest positioning information.

When the moving speed is greater than a threshold value (speed threshold value), the child mobile phone 3 to be detected sends out a transaction signal, and the child mobile phone to be detected starts a wireless signal detection function, so that the child mobile phone 3 to be detected is connected with the wireless network router in a matching manner when the child mobile phone 3 to be detected enters a signal coverage range of the wireless network router.

S6: after the wireless network router is paired with the child mobile phone 3 to be tested, the child mobile phone 3 to be tested sends an entering signal to the outside when the pairing is successful, and sends a leaving signal to the outside when the pairing of the wireless router is disconnected and the moving speed is larger than zero.

The method comprises the steps of building Wi-Fi (wireless communication technology) router equipment indoors, registering ID (identity) information of the Wi-Fi router equipment in a mobile phone of a child to be detected, turning on a Wi-Fi detection function switch in the mobile phone of the child to be detected, and turning on a Wi-Fi detection function. Keeping the mobile phone of the child to be detected moving on the track, activating Wi-Fi detection:

1) when the switch of the indoor Wi-Fi router is set to be on, the Wi-Fi detection function of the mobile phone of the child to be detected can detect that the equipment enters a Wi-Fi coverage area, and at the moment, an entering signal (such as a mail notification) entering the Wi-Fi area can be sent to the server.

2) When the indoor Wi-Fi router switch is set to be 'off', the Wi-Fi detection function of the children mobile phone to be detected detects that the equipment leaves the Wi-Fi coverage area, and at the moment, a leaving signal (mail notification) of leaving the Wi-FiI area is sent to the server.

S7: the server receives a mobile signal, a transaction signal, an incoming signal and an outgoing signal.

The child mobile phone to be tested calculates the running speed according to the position change and the running time, triggers the speed detection function and sends position information and speed information to the server, and therefore the requirement that an administrator at the server can monitor the child mobile phone to be tested to enter and leave a specific Wi-Fi area in real time is met.

According to the test equipment and the test method of the mobile phone test equipment, the annular guide rail is erected indoors, the electric mobile bearing platform is used for carrying the mobile phone of the child to be tested to move, the virtual positioning technology is combined, so that the mobile phone of the child to be tested can acquire the positioning information carrying the movement displacement at intervals, the speed of the mobile phone of the child to be tested is calculated based on the interval time so as to detect the speed of the mobile phone of the child to be tested, the wireless signal detection and the positioning function detection, the mobile phone carrying by a tester is avoided from being subjected to an external field test, and the mobile phone performance detection efficiency is improved.

The above description is only a preferred embodiment of the application and is illustrative of the principles of the technology employed. It will be appreciated by a person skilled in the art that the scope of the invention as referred to in the present application is not limited to the embodiments with a specific combination of the above-mentioned features, but also covers other embodiments with any combination of the above-mentioned features or their equivalents without departing from the inventive concept. For example, the above features may be replaced with (but not limited to) features having similar functions disclosed in the present application.

Claims (7)

1. A mobile phone test device, comprising:

an annular guide rail;

the electric movable bearing platform is used for mounting a mobile phone of the child to be tested and is mounted on the annular guide rail;

the virtual positioning device is connected with the mobile phone of the child to be detected in a signal mode;

the wireless network router is in signal connection with the to-be-tested child mobile phone;

the controller is connected with the electric mobile bearing platform and the wireless network router; and

and the server is in signal connection with the mobile phone of the child to be tested.

2. The handset testing device of claim 1 wherein the annular guide track comprises inner and outer concentrically arranged annular rails.

3. The handset test apparatus of claim 2 wherein the motorized mobile platform comprises:

the bearing plate is provided with two through limiting grooves on two opposite sides of the bottom of the bearing plate respectively, the inner ring rail and the outer ring rail are arranged in the two limiting grooves in a sliding mode respectively, and the side wall of each limiting groove is provided with a shaft hole;

the transmission rotating shaft is rotatably arranged in the shaft holes of the two limiting grooves in a penetrating manner;

the two walking rollers are respectively and coaxially connected to two ends of the transmission rotating shaft, and the inner ring rail and the outer ring rail are respectively supported on the two walking rollers; and

the motor is used for driving the transmission rotating shaft and is arranged on the bearing plate, and the motor is connected to the controller.

4. The handset testing device according to claim 3, wherein a lower groove is formed in a middle of a bottom of the platform plate, the motor is mounted in the lower groove, and the transmission rotating shaft penetrates through the lower groove.

5. The mobile phone test device of claim 4, wherein a worm wheel is mounted at an output end of the motor, a worm is coaxially mounted on the transmission rotating shaft, and the worm wheel is meshed with the worm.

6. The handset test apparatus of claim 1 wherein the walking rollers are rubber rollers.

7. A method for testing mobile phone test equipment according to any one of claims 1-6, comprising the steps of:

mounting a mobile phone of a child to be tested on an electric mobile bearing platform;

starting the child mobile phone to be detected, wherein the child mobile phone to be detected acquires positioning information of a virtual positioning device at a preset time interval;

the controller starts the electric movable bearing platform to enable the electric movable bearing platform to move along the circumferential direction of the annular guide rail;

the controller starts the wireless network router;

based on the distance difference between the positioning information of two adjacent times and the preset time interval, the to-be-detected child mobile phone calculates and obtains the moving speed of the to-be-detected child mobile phone, generates a moving signal carrying the positioning information of the latest time when the moving speed is greater than zero, and after the moving speed is greater than a threshold value, the to-be-detected child mobile phone sends an abnormal movement signal to the outside and starts a wireless signal detection function, so that the to-be-detected child mobile phone is paired with the wireless network router in a signal coverage range of the wireless network router;

after the wireless network router is paired with the child mobile phone to be tested, the child mobile phone to be tested sends an entering signal to the outside when the pairing is successful, and sends a leaving signal to the outside when the pairing of the wireless router is disconnected and the moving speed is higher than zero;

the server receives the move signal, the transaction signal, the entry signal, and the exit signal.

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