CN111212443B

CN111212443B - Intelligent detection system and method for WIFI signals of underground garage

Info

Publication number: CN111212443B
Application number: CN202010000887.XA
Authority: CN
Inventors: 付冲
Original assignee: Jiangsu Wei Lu Robot Technology Co ltd
Current assignee: Jiangsu Wei Lu Robot Technology Co ltd
Priority date: 2020-01-02
Filing date: 2020-01-02
Publication date: 2023-03-28
Anticipated expiration: 2040-01-02
Also published as: CN111212443A

Abstract

The invention discloses an underground garage WIFI signal intelligent detection system and method. Placing a mobile phone to be detected on a mobile phone clamp or a placing platform; the detection mobile phone is connected with the trolley motion control electronic box: opening the authority in the mobile phone, and controlling each WiFi parameter in the electronic box to be grabbed and recorded by the trolley; after the trolley motion control electronic box receives an operation signal of the remote control terminal, the power supply of the trolley motion driving motor is switched on, the trolley motion driving motor starts to drive the trolley group, the trolley group drives the trolley to walk around the annular suspension rail, the trolley walks in an annular shape at each time and can sequentially pass through different WiFi (wireless fidelity) stations of the router, and the trolley motion control electronic box records the signal intensity records of the signals passing through the WiFi stations in real time.

Description

Intelligent detection system and method for WIFI signals of underground garage

Technical Field

The invention relates to an underground garage WIFI signal intelligent detection system and method, and belongs to the field of signal detection.

Background

A mobile phone manufacturer needs to detect Wifi performance of a mobile phone. In the prior art, in the detection method, wifi signal data are recorded while the mobile phone is moved within a specified range for detection personnel, because the detection results adopt manual moving and recording modes, errors can occur along with the increase of detection amount, and the efficiency is low, and the detection mode seriously influences the requirements of intellectualization and high efficiency.

Disclosure of Invention

Aiming at the problems, the invention provides the underground garage WIFI signal intelligent detection system and method which are more reliable in detection result, high in detection efficiency and capable of saving labor cost.

In order to solve the problems, the invention adopts the following technical scheme: the invention provides an intelligent WIFI signal detection system for an underground garage, which comprises a plurality of mobile phone clamps, a trolley motion control electronic box, a trolley motion driving motor, a crane group, a suspension rail, a plurality of routers, a plurality of attenuators and a remote control terminal.

The mobile phone clamp is arranged in the trolley; the trolley motion control electric box is arranged on the trolley; a crane group is arranged at the top of the trolley; the trolley movement driving motor is connected with the crane group to drive the crane group to travel on the suspension track; the routers are arranged on the suspension track, each router is provided with an attenuator, the distance between the routers can be set at will according to the use requirements of users, the signal range of the routers can be adjusted due to the attenuators, so that the routers can be set at equal intervals or designed at unequal intervals, and when the length of the suspension track cannot be divided by the number of the routers, the signal intensity can be adjusted through the attenuators

When the time from no signal to signal acquisition of the mobile phone needs to be detected, a shielding box can be additionally arranged below the suspension track, the trolley can run through the shielding box, and the length, the width and the height of the shielding box are greater than those of the trolley; the shielding box comprises an electric door and an industrial personal computer, wherein the industrial personal computer is used for receiving the instruction signal and setting the power-on time of the electric door; when the power supply of the electric door is switched on, the electric door is closed, and when the preset time is reached, the power supply of the electric door is switched off, and the electric door is opened.

In order to reduce the size of the trolley, the intelligent WIFI signal detection system for the underground garage is also provided with a workbench which is a stepped workbench, the trolley stops at the workbench after detection is finished, and a worker walks onto the workbench to take down a detection mobile phone.

In order to ensure that the detection time of the mobile phone is not limited by time and the use is more convenient and flexible, the suspension track can provide power for the trolley motion control electric box, the trolley motion driving motor, the shielding box, the router, the attenuator and the lifting driving motor in a tramcar mode.

The invention also provides an intelligent detection method for the WIFI signals of the underground garage, which comprises the following steps:

step one, system setting: the mobile phone clamp is arranged in the trolley; the trolley motion control electric box is arranged on the trolley; a trolley movement driving motor is connected with the crane group to drive the crane group to travel on a suspension rail; the suspension track is provided with routers, each router is provided with an attenuator, the distance between the routers can be set at will according to the use requirements of users, the signal range of the routers can be adjusted due to the attenuators, so that the routers can be set at equal intervals or designed at unequal intervals, and when the length of the suspension track cannot be divided by the number of the routers, the signal intensity can be adjusted through the attenuators.

Secondly, placing the mobile phone to be detected (the number of the mobile phone clamps or the placing platforms can be set according to the requirements of a user) on the mobile phone clamps or the placing platforms;

step three, establishing connection between the detection mobile phone and the trolley motion control electronic box: opening the authority in the mobile phone, and controlling each WiFi parameter in the electronic box to be grabbed and recorded by the trolley;

step four, after the trolley movement control electronic box receives an operation signal of the remote control terminal, switching on a power supply of a trolley movement driving motor, driving a crane group by the trolley movement driving motor, driving the trolley to walk around the annular suspension track by the crane group, enabling the trolley to sequentially pass through different WiFi (wireless fidelity) stations of the router after walking in an annular shape each time, and recording signal intensity records passing through each WiFi station in real time by the trolley movement control electronic box;

step five, after the detection is finished, stopping the trolley from walking; and taking out the detection mobile phone, and taking data to complete a test cycle.

When the time from no signal to signal acquisition of the mobile phone needs to be detected, the system in the first step further comprises a shielding box, the shielding box is arranged below the suspension track, the trolley can run through the shielding box, and the length, the width and the height of the shielding box are larger than those of the trolley; the shielding box comprises an electric door and an industrial personal computer, wherein the industrial personal computer is used for receiving the instruction signal and setting the power-on time of the electric door; when the power supply of the electric door is switched on, the electric door is closed, and when the preset time is reached, the power supply of the electric door is switched off, and the electric door is opened. When the trolley travels to the shielding box, the remote control terminal sends a signal for closing the electrically operated gate and simultaneously sends a signal for disconnecting the power supply of the trolley movement driving motor; the power supply of the trolley movement driving motor is disconnected, the trolley stops walking and stays in the shielding box, the electric door is closed, the trolley is located in the shielding area, wiFi signals are cut off, the trolley movement control electric box collects information of WiFi signals of the mobile phone, the trolley stays in the shielding box for a period of time, the electric door is opened, meanwhile, the power supply of the trolley movement driving motor is switched on, the trolley starts walking, and the trolley movement control electric box collects the record of acquiring the WiFi signals.

In order to ensure that the detection time of the mobile phone is not limited by time and the mobile phone is more convenient and flexible to use, the suspension track can provide power for the trolley motion control electric box, the trolley motion driving motor, the shielding box, the router, the attenuator and the lifting driving motor in a tramcar mode.

Compared with the prior art which is the closest approach, the invention has the following beneficial effects: the design of the system improves the reliability and the detection efficiency of the detection result and also saves the labor cost.

Drawings

Fig. 1 is a schematic structural diagram of a local garage-leaving WIFI signal intelligent detection system.

Fig. 2 is a schematic structural view of the cart.

Figure 3 is a top view of the cart.

Fig. 4 is a table usage state diagram.

Fig. 5 is a state diagram of the trolley entering the shielding box.

The system comprises a mobile phone clamp 1, a trolley 2, a trolley motion control electronic box 3, a trolley motion driving motor 4, a crane group 5, a hanging rail 6, a router 7, an attenuator 8, a remote control terminal 9, a shielding box 10, a workbench 11, an electric door 12, an electric door industrial personal computer 13, a lifting driving motor 14, a telescopic rod 15 and a lifting industrial personal computer 16.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Embodiment I, as shown in fig. 1 to 5, the invention provides an intelligent detection system for WIFI signals of an underground garage, which comprises 6 mobile phone clamps 1, a trolley 2, a trolley motion control electronic box 3, a trolley motion driving motor 4, a crane group 5, a

suspension track

6, 7

routers

7, 7 attenuators 8, a remote control terminal 9, a shielding box 10 and a workbench 11.

The mobile phone clamp is arranged in the trolley; the trolley motion control electric box is arranged on the trolley; a crane group is arranged at the top of the trolley; the trolley movement driving motor is connected with the crane group to drive the crane group to travel on the suspension track; 7 routers are arranged on the suspension track, and each router is provided with an attenuator; the length and the width of the suspension rail are 40 meters and 20 meters respectively.

As shown in fig. 5, the shielding box is arranged below the suspension track, the trolley can run through the shielding box, and the length, width and height of the shielding box are greater than those of the trolley; the shielding box comprises an electric door 12 and an electric door industrial personal computer 13, wherein the industrial personal computer is used for receiving the instruction signal and setting the power-on time of the electric door; when the power supply of the electric door is switched on, the electric door is closed, and when the preset time is reached, the power supply of the electric door is switched off, and the electric door is opened.

The workstation be cascaded workstation, after the detection, the dolly stops in workstation department, the staff walks onto the workstation and takes off the detection cell-phone.

The suspension track adopts a tramcar mode to provide power for the trolley movement control electric box, the trolley movement driving motor, the shielding box, the router, the attenuator and the lifting driving motor.

The engineering process of the intelligent WIFI signal detection system for the underground garage is as follows;

the detection mobile phone is connected with the trolley motion control electronic box: the inside of the mobile phone is opened, and each parameter of WiFi in the bag is grabbed and recorded by the trolley motion control electric box.

After the trolley motion control electronic box receives an operation signal of the remote control terminal, the power supply of the trolley motion driving motor is switched on, the trolley motion driving motor starts to drive the crane group, the crane group drives the trolley to walk around the annular suspension rail, the trolley walks in an annular shape at each time and can sequentially pass through different WiFi (wireless fidelity) stations of the router, and the trolley motion control electronic box records the signal intensity of each WiFi station in real time.

When the time from no signal to signal acquisition of the mobile phone needs to be detected, the remote control terminal sends a signal for closing the electrically operated gate when the trolley travels to the shielding box, and simultaneously sends a signal for disconnecting the power supply of the trolley movement driving motor; dolly movement driving motor's power disconnection, the dolly stops the walking, stop in the shielded cell-box, the electrically operated gate is closed, the dolly is in the shielded cell, the wiFi signal has been cut off, the information of detection cell-phone wiFi disconnection is gathered to the dolly movement control electronic box, the dolly stops 10 seconds (the settlement of this time, can set for according to user's demand) back in the shielded cell-box, the electrically operated gate is opened, simultaneously dolly movement driving motor power switch-on, the dolly begins the walking, the dolly movement control electronic box gathers the dolly and begins to walk to the record that acquires the wiFi signal.

After the detection is finished, the trolley stops at the workbench; the staff walks onto the workstation and takes out the detection cell-phone, takes data, accomplishes a test cycle.

Example II

The difference with embodiment I lies in, this embodiment has adopted elevating system to replace the workstation, elevating system include lift driving motor 14, telescopic link 15, lift industrial computer 16, elevating system is equipped with between crane group and dolly, and the dolly is connected in the telescopic link below. The trolley motion control electronic box adopts the Hua IPC-610.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims

1. The intelligent WIFI signal detection system for the underground garage is characterized by comprising a plurality of mobile phone clamps, a trolley motion control electronic box, a trolley motion driving motor, a crane group, a suspension rail, a plurality of routers, a plurality of attenuators and a remote control terminal;

the mobile phone clamp is arranged in the trolley; the trolley motion control electric box is arranged on the trolley; a crane group is arranged at the top of the trolley; the trolley movement driving motor is connected with the crane group to drive the crane group to travel on the suspension track; the suspension track is provided with routers, and each router is provided with an attenuator;

the trolley can run through the shielding box, and the length, the width and the height of the shielding box are greater than those of the trolley; the shielding box comprises an electric door and an industrial personal computer, wherein the industrial personal computer is used for receiving the instruction signal and is provided with a clock for switching on the power supply of the electric door; when the power supply of the electric door is switched on, the electric door is closed, and when the preset time is reached, the power supply of the electric door is switched off, and the electric door is opened.

2. The intelligent underground garage WIFI signal detection system of claim 1, further comprising a workbench, wherein the workbench is a stepped workbench.

3. The intelligent detection system for WIFI signals of underground garages according to claim 1 or 2, wherein the suspension rail is powered by a trolley motion control electric box, a trolley motion driving motor, a shielding box, a router, an attenuator and a lifting driving motor in a tramcar mode.

4. The intelligent detection method for the WIFI signals of the underground garage is applied to the intelligent detection system for the WIFI signals of the underground garage, and is characterized by comprising the following steps:

step one, system setting: the mobile phone clamp is arranged in the trolley; the trolley motion control electric box is arranged on the trolley; a trolley movement driving motor is connected with the crane group to drive the crane group to travel on a suspension rail; the suspension track is provided with routers, and each router is provided with an attenuator;

secondly, placing the mobile phone to be detected on a mobile phone clamp or a placing platform;

step four, after the trolley movement control electronic box receives an operation signal of the remote control terminal, a power supply of a trolley movement driving motor is switched on, the trolley movement driving motor starts to drive the crane group, the crane group drives the trolley to travel around the annular suspension rail, the trolley travels in an annular shape each time and can sequentially pass through different WiFi (wireless fidelity) stations of the router, and the trolley movement control electronic box records the signal intensity records passing through each WiFi station in real time;

5. The intelligent detection method for WIFI signals of the underground garage according to claim 4, wherein the system setting of the first step further comprises a shielding box, the shielding box is arranged below the suspension rail, the trolley can run through the shielding box, and the length, the width and the height of the shielding box are greater than those of the trolley; the shielding box comprises an electric door and an industrial personal computer, wherein the industrial personal computer is used for receiving the instruction signal and setting the power-on time of the electric door; when the power supply of the electric door is switched on, the electric door is closed, and when the preset time is reached, the power supply of the electric door is switched off, and the electric door is opened;

when the time from no signal to signal acquisition of the mobile phone needs to be detected, the remote control terminal sends a signal for closing the electrically operated gate when the trolley travels to the shielding box, and simultaneously sends a signal for disconnecting the power supply of the trolley movement driving motor; the power supply of the trolley motion driving motor is disconnected, the trolley stops walking and stays in the shielding box, the electric door is closed, the trolley is located in the shielding area, wiFi signals are cut off, the trolley motion control electric box collects information of WiFi signals of the mobile phone, the trolley stays in the shielding box according to preset time, the electric door is opened, meanwhile, the power supply of the trolley motion driving motor is switched on, the trolley starts walking, and the trolley motion control electric box collects the record of obtaining the WiFi signals.

6. The intelligent detection method for WIFI signals of the underground garage according to claim 4, wherein the system set in the first step further comprises a workbench which is a stepped workbench, when the detection is finished, the trolley stops at the workbench, and a worker walks onto the workbench to take off the detection mobile phone.

7. The intelligent detection method for WIFI signals of the underground garage according to any one of claims 5 to 6, wherein the suspension rail adopts a tramcar mode to provide power for a trolley movement control electric box, a trolley movement driving motor, a shielding box, a router, an attenuator and a lifting driving motor.