CN113381819A

CN113381819A - 5G communication equipment test support and use method thereof

Info

Publication number: CN113381819A
Application number: CN202010883805.0A
Authority: CN
Inventors: 陈华明
Original assignee: Shenzhen Shundacheng Technology Co ltd
Current assignee: Shenzhen Shundacheng Technology Co ltd
Priority date: 2020-08-28
Filing date: 2020-08-28
Publication date: 2021-09-10

Abstract

The invention discloses a 5G communication equipment test support, which comprises an emergency electronic box, wherein the upper end of the emergency electronic box is provided with a comprehensive tester, the upper end of the comprehensive tester is provided with a signal generator, one side of the emergency electronic box is provided with a first bottom box, the upper end of the first bottom box is provided with a first equipment groove near the front part, the upper end of the first bottom box is provided with a first port box near the rear part, the front end of the first port box is provided with four groups of first connecting ports, one side of the first bottom box is provided with a second bottom box, the upper end of the second bottom box is provided with a second equipment groove near the front part, standard equipment is arranged in the second equipment groove, the upper end of the second bottom box is provided with a second port box near the rear part, and the front end of the second port box is provided with four groups of second connecting ports; the invention can flexibly connect 5G equipment with different models, meanwhile, the data is convenient for debugging the 5G equipment in the later period under the comparison, and the data obtained under the simulation environment is more persuasive.

Description

5G communication equipment test support and use method thereof

Technical Field

The invention relates to the field of energy-saving and environment-friendly devices, in particular to a test bracket for 5G communication equipment and a using method thereof.

Background

The 5G network, namely the fifth generation mobile communication network, is the latest generation cellular mobile communication technology, the 5G communication equipment is the new generation communication equipment based on the 5G network, the 5G communication equipment needs to complete the data detection in the corresponding aspect before being put into use, the 5G communication equipment can be put into use after being debugged, and a special equipment 5G communication equipment test support needs to be used during the test.

The existing 5G communication equipment test support has certain disadvantages in use, and the existing 5G communication equipment test support has single connecting port and small quantity and cannot be flexibly connected with equipment to be tested with different models; the existing 5G communication equipment test support has no reference object during testing, and the tested data has no contrast; when the existing 5G communication equipment test support is used for testing, data of equipment to be tested in an unstable high-altitude environment cannot be simulated, the data lack of persuasion, and certain influence is brought to actual use.

Disclosure of Invention

The invention aims to provide a 5G communication equipment testing support and a using method thereof, which solve the problems that the existing 5G communication equipment testing support has single connecting port and small quantity and can not be flexibly connected with equipment to be tested with different models; the existing 5G communication equipment test support has no reference object during testing, and the tested data has no contrast; the existing 5G communication equipment test support can not simulate data of equipment to be tested in an unstable high-altitude environment during testing, and the data is lack of persuasion.

The purpose of the invention can be realized by the following technical scheme:

A5G communication equipment test support comprises an emergency electric box, wherein a comprehensive tester is installed at the upper end of the emergency electric box, a signal generator is installed at the upper end of the comprehensive tester, a first bottom box is installed on one side of the emergency electric box, a first equipment groove is installed at the upper end of the first bottom box by the front part, a first port box is installed at the upper end of the first bottom box by the rear part, four groups of first connecting ports are installed at the front end of the first port box, a second bottom box is installed at one side of the first bottom box, a second equipment groove is installed at the upper end of the second bottom box by the front part, standard equipment is installed in the second equipment groove, a second port box is installed at the upper end of the second bottom box by the rear part, and four groups of second connecting ports are installed at the front end of the second port box;

the utility model discloses an emergency electric box, including first port case, port case back cover, mortise, electric box back cover, battery, emergency electric box, wire arrangement board, port case back cover, the mid-mounting of port case back cover has the handle, install a plurality of groups of tenons around the port case back cover, the mortise of corresponding tenon is all seted up to the rear end of first port case and second port case, the electric box back cover is installed to the rear end of emergency electric box, the battery is installed under by the inside of emergency electric box, the inside of emergency electric box is by last installation wire arrangement board.

As a further scheme of the invention: the four groups of first connecting ports are sequentially arranged from top to bottom, the sizes and the shapes of the four groups of first connecting ports are different, each group of first connecting ports consists of six groups of interfaces, and the arrangement of the second connecting ports is the same as that of the first connecting ports.

As a further scheme of the invention: the length and the width of the port box rear cover are smaller than those of the first port box and the second port box, and the port box rear cover is movably joggled with the rear ends of the first port box and the second port box.

As a further scheme of the invention: the length, the width and the depth in the groove of the first equipment groove and the second equipment groove are equal, and the first equipment groove is fixedly connected with the first bottom box and the second equipment groove is fixedly connected with the second bottom box.

As a further scheme of the invention: the spiral data line is installed to the rear end of first connection port, the circuit board is installed to the rear end of spiral data line, the port chip is installed to the rear end of circuit board, the inner structure of second port case is the same with the inner structure of first port case.

As a further scheme of the invention: the rubber pad is installed to the inside bottom of first under casing, two sets of vibrating motor are installed to the upper end of rubber pad, the biography steel sheet that shakes is installed to vibrating motor's upper end, the inner structure of second under casing is the same with the inner structure of first under casing.

A use method of a 5G communication equipment test bracket comprises the following specific use method:

the method comprises the following steps: selecting corresponding standard equipment, establishing a connection relation with the standard equipment through a plurality of different second connection ports at the front end of a second port box, connecting the second connection ports with the standard equipment by using data lines, enabling the second connection ports to be separated from the second port box and flexibly connected with the standard equipment under the stretching state of a spiral data line at the rear end of the second connection ports, arranging the standard equipment in a second equipment groove to prevent the standard equipment from moving in a test, establishing the connection relation between equipment to be tested and a first connection port by using the same method, and arranging the equipment to be tested in a first equipment groove;

step two: the device comprises a comprehensive tester and a signal generator which are externally and electrically connected, wherein signals generated by the signal generator are transmitted to a port chip by a spiral data line through a connection relation established between the signal generator and a device to be tested and standard equipment after being received by the device to be tested and the standard equipment, the data are fed back to the comprehensive tester by the port chip through an internal circuit, the comprehensive tester is used for carrying out comparison and analysis on the data, the signal generator is continuously adjusted to obtain analysis comparison data under different signal values, and the device to be tested is convenient to debug in the later period;

step three: after the first round of test is accomplished, external electric connection vibrating motor, the vibrations that vibrating motor produced transmit to equipment to be tested and standard equipment through the biography steel sheet that shakes, the operational environment of simulation equipment under the unstable circumstances in high altitude, step two is repeated, obtain the operational data of equipment under the unstable circumstances in high altitude, the rubber pad slows down vibrating motor to the impact of first under casing and second under casing bottom box, when unable completion external electric connection, launch the battery of emergent electronic box inside, test under the convenient emergency self-power supply condition in the short time.

The invention has the beneficial effects that:

1. according to the invention, the first connection port and the second connection port are matched with the spiral data line, when connection relation with the equipment to be tested and the standard equipment is established, a plurality of groups of different first connection ports and second connection ports can meet connection requirements of different types of equipment to be tested and standard equipment, and meanwhile, after the spiral data line is stretched, a plurality of groups of different first connection ports and second connection ports can be conveniently connected with the equipment to be tested and the standard equipment in a cross mode, so that the connection is flexible, and the connection problem caused by the fixation of the connection ports can be avoided;

2. different standard equipment is selected to be connected with the second connecting port according to test requirements by arranging the second port box and the second connecting port, a group of standard data is tested by the standard equipment in the testing process, the test data is tested after the equipment to be tested is connected with the first connecting port, and the two groups of data are compared with each other, so that the deviation of the equipment to be tested is reflected more visually, and the equipment to be tested is convenient to debug in the later period;

3. through setting up first equipment groove, second equipment groove and pass the steel sheet cooperation vibrating motor that shakes, 5G equipment is under high altitude operational environment, because the wind-force influence, there is the instability, in the test process, the vibrations that vibrating motor produced reach the bottom of equipment to be measured and standard equipment after the transmission of passing the steel sheet that shakes, drive equipment to be measured and the vibrations of standard equipment, the operating condition of analog device under the unstable environment in high altitude, the operational data of equipment under the unstable operational environment is tested out, make the data persuasion that obtains stronger.

4. According to the invention, the plurality of groups of different first connecting ports and second connecting ports are arranged to be matched with the spiral data lines, so that different ports can be conveniently connected, the tests of different types of 5G equipment are met, the spiral data lines can be stretched to be conveniently and flexibly connected with the 5G equipment, the data tested by using standard equipment is compared with the data of the equipment to be tested, the later debugging of the equipment to be tested is facilitated, and the vibration motor is matched with the vibration transmission steel plate to simulate the unstable working environment at high altitude of the 5G equipment, so that the tested data is more persuasive.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

Fig. 1 is a schematic overall structure diagram of a 5G communication device testing stand according to the present invention.

Fig. 2 is a rear view of the overall structure of a 5G communication equipment test rack according to the present invention.

Fig. 3 is an internal structure view of an emergency electric box in a 5G communication equipment test support according to the present invention.

Fig. 4 is a side cross-sectional view of a first port box in a 5G communications equipment testing rack of the present invention.

Fig. 5 is an internal structure diagram of a first bottom box in a 5G communication device testing rack according to the present invention.

In the figure: 1. an emergency electric box; 2. a comprehensive tester; 3. a signal generator; 4. a first port box; 5. a first connection port; 6. a second port box; 7. a second connection port; 8. standard equipment; 9. a second bottom case; 10. a second equipment tank; 11. a first bottom case; 12. a first equipment tank; 13. a port box rear cover; 14. a handle; 15. a tenon; 16. mortises; 17. a rear cover of the electric box; 18. a wire arranging plate; 19. a storage battery; 20. a spiral data line; 21. a circuit board; 22. a port chip; 23. a rubber pad; 24. a vibration motor; 25. and (5) vibrating the steel plate.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, a 5G communication equipment testing stand includes an emergency electronic box 1, an integrated tester 2 is installed at the upper end of the emergency electronic box 1, a signal generator 3 is installed at the upper end of the integrated tester 2, a first bottom box 11 is installed at one side of the emergency electronic box 1, a first equipment slot 12 is installed at the upper end of the first bottom box 11 near the front portion, a first port box 4 is installed at the upper end of the first bottom box 11 near the rear portion, four groups of first connection ports 5 are installed at the front end of the first port box 4, a second bottom box 9 is installed at one side of the first bottom box 11, a second equipment slot 10 is installed at the upper end of the second bottom box 9 near the front portion, a standard equipment 8 is installed inside the second equipment slot 10, a second port box 6 is installed at the upper end of the second bottom box 9 near the rear portion, and four groups of second connection ports 7 are installed at the front end of the second port box 6;

port case back cover 13 is all installed to the rear end of first port case 4 and second port case 6, the mid-mounting of port case back cover 13 has handle 14, install a plurality of groups tenon 15 around port case back cover 13, corresponding tenon 15's tongue-and-groove 16 is all seted up to the rear end of first port case 4 and second port case 6, electronic box back cover 17 is installed to the rear end of emergent electronic box 1, battery 19 is installed by the inside of emergent electronic box 1 down, the inside of emergent electronic box 1 is by installing reason line board 18 on.

The four groups of first connecting ports 5 are sequentially arranged from top to bottom, the sizes and the shapes of the four groups of first connecting ports 5 are different, each group of first connecting ports 5 consists of six groups of interfaces, the arrangement of the second connecting ports 7 is the same as that of the first connecting ports 5, and errors and influence on test data caused by the fact that equipment to be tested and standard equipment 8 are connected with the test support are avoided.

The length and the width of the port box rear cover 13 are smaller than those of the first port box 4 and the second port box 6, the port box rear cover 13 is movably joggled with the rear ends of the first port box 4 and the second port box 6, and the port box rear cover 13 can be conveniently taken down by means of the handle 14 for maintenance.

The length, the width and the depth in the groove of the first equipment groove 12 and the second equipment groove 10 are equal, the first equipment groove 12 is fixedly connected with the first bottom box 11, the second equipment groove 10 is fixedly connected with the second bottom box 9, and therefore the equipment to be tested and the standard equipment 8 are prevented from being separated from the test support when the unstable working environment is simulated.

The spiral data line 20 is installed at the rear end of the first connecting port 5, the circuit board 21 is installed at the rear end of the spiral data line 20, the port chip 22 is installed at the rear end of the circuit board 21, the internal structure of the second port box 6 is the same as that of the first port box 4, and the spiral data line 20 is stretched to facilitate the first connecting port 5 to establish connection with the equipment to be tested, the second connecting port 7 and the standard equipment 8.

Rubber pad 23 is installed to the inside bottom of first under casing 11, and two sets of vibrating motor 24 are installed to the upper end of rubber pad 23, and the upper end of vibrating motor 24 is installed and is passed the steel sheet 25 that shakes, and the inner structure of second under casing 9 is the same with the inner structure of first under casing 11, and the vibrations that vibrating motor 24 produced simulate unstable operational environment after reaching equipment to be measured and standard equipment 8 through passing the steel sheet 25 that shakes.

the method comprises the following steps: firstly, selecting corresponding standard equipment 8, establishing a connection relation with the standard equipment 8 through a plurality of different second connection ports 7 at the front end of a second port box 6, connecting the second connection ports 7 with the standard equipment 8 by using data lines, enabling the second connection ports 7 to be separated from the second port box 6 and flexibly connected with the standard equipment 8 under the stretching state of a spiral data line 20 at the rear end of the second connection ports 7, then arranging the standard equipment 8 in a second equipment groove 10 to prevent the standard equipment 8 from moving in a test, establishing the connection relation between equipment to be tested and a first connection port 5 by using the same method, and then arranging the equipment to be tested in a first equipment groove 12;

step two: the comprehensive tester 2 and the signal generator 3 are externally and electrically connected, the model of the comprehensive tester 2 is 5253A, the model of the signal generator 3 is 1445B, after the signals generated by the signal generator 3 are received by the equipment to be tested and the standard equipment 8, the data are transmitted to the port chip 22 through the spiral data wire 20 through the connection relation established between the first connection port 5 and the second connection port 7, the model of the port chip 22 is QFP48, the data are fed back to the comprehensive tester 2 through the internal circuit by the port chip 22, the comprehensive tester 2 is used for carrying out contrast analysis on the data, the signal generator 3 is continuously adjusted to obtain analysis contrast data under different signal values, and the equipment to be tested is convenient to debug in the later period;

step three: after the first round of test is accomplished, external electric connection vibrating motor 24, this vibrating motor 24's model is HY, the vibrations that vibrating motor 24 produced transmit to equipment and standard equipment 8 to be tested through passing the steel sheet 25 that shakes, the operational environment of analog device under the unstable circumstances in high altitude, repeat step two, obtain the working data of equipment under the unstable circumstances in high altitude, rubber pad 23 slows down the impact of vibrating motor 24 to first under casing 11 and the 9 bottom boxes of second under casing, when unable completion external electric connection, launch the battery 19 of emergent electronic box 1 inside, the test under the convenient emergency self-power supply condition in the short time.

According to the invention, the first connection port 5 and the second connection port 7 are arranged to be matched with the spiral data line 20, when a connection relation is established between the equipment to be tested and the standard equipment 8, a plurality of groups of different first connection ports 5 and second connection ports 7 can meet the connection requirements of different types of equipment to be tested and standard equipment 8, and meanwhile, after the spiral data line 20 is stretched, a plurality of groups of different first connection ports 5 and second connection ports 7 can be conveniently connected with the equipment to be tested and the standard equipment 8 in a cross way, so that the connection is flexible, and the connection problem caused by the fixation of the connection ports can be avoided; through the arrangement of the second port box 6 and the second connecting port 7, different standard equipment 8 is selected to be connected with the second connecting port 7 according to test requirements, a group of standard data is tested by the standard equipment 8 in the testing process, the test data is tested after the equipment to be tested is connected with the first connecting port 5, and the two groups of data are mutually compared, so that the deviation of the equipment to be tested is reflected more visually, and the equipment to be tested is convenient to debug in the later period; through setting up first equipment groove 12, second equipment groove 10 and pass steel sheet 25 cooperation vibrating motor 24 that shakes, 5G equipment is under high altitude operational environment, because the wind-force influence, there is the instability, in the test process, the vibrations that vibrating motor 24 produced reach the bottom of equipment to be measured and standard equipment 8 after the transmission of passing steel sheet 25 that shakes, drive equipment to be measured and the vibrations of standard equipment 8, the operating condition of 5G equipment under the unstable environment of high altitude is simulated, the running data of 5G equipment under the unstable operational environment is tested out, make the data convincing force that obtains stronger.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims

1. The 5G communication equipment testing support is characterized by comprising an emergency electric box (1), wherein an integrated tester (2) is installed at the upper end of the emergency electric box (1), a signal generator (3) is installed at the upper end of the integrated tester (2), a first bottom box (11) is installed at one side of the emergency electric box (1), a first equipment groove (12) is installed at the upper end of the first bottom box (11) by the front portion, a first port box (4) is installed at the upper end of the first bottom box (11) by the rear portion, four groups of first connecting ports (5) are installed at the front end of the first port box (4), a second bottom box (9) is installed at one side of the first bottom box (11), a second equipment groove (10) is installed at the upper end of the second bottom box (9) by the front portion, standard equipment (8) is installed inside the second equipment groove (10), a second port box (6) is arranged at the upper end of the second bottom box (9) close to the rear part, and four groups of second connecting ports (7) are arranged at the front end of the second port box (6);

the utility model discloses a rear-end connection device of emergency electronic box, including first port case (4), port case back lid (13) are all installed to the rear end of first port case (4) and second port case (6), the mid-mounting of port case back lid (13) has handle (14), install a plurality of groups tenon (15) all around port case back lid (13), mortise (16) of corresponding tenon (15) are all seted up to the rear end of first port case (4) and second port case (6), electronic box back lid (17) are installed to the rear end of emergency electronic box (1), battery (19) are installed by lower to the inside of emergency electronic box (1), the inside of emergency electronic box (1) is by last installation reason line board (18).

2. The 5G communication equipment test support according to claim 1, wherein the four groups of the first connecting ports (5) are sequentially arranged from top to bottom, the four groups of the first connecting ports (5) are different in size and shape, each group of the first connecting ports (5) is composed of six groups of interfaces, and the arrangement of the second connecting ports (7) is the same as that of the first connecting ports (5).

3. The 5G communication equipment test support according to claim 1, wherein the length and width of the port box back cover (13) are smaller than those of the first port box (4) and the second port box (6), and the port box back cover (13) is movably joggled with the back ends of the first port box (4) and the second port box (6).

4. The 5G communication equipment test support according to claim 1, wherein the first equipment groove (12) and the second equipment groove (10) are equal in length, width and depth, and the first equipment groove (12) and the first bottom case (11) and the second equipment groove (10) and the second bottom case (9) are fixedly connected.

5. The 5G communication equipment test support according to claim 1, wherein a spiral data line (20) is installed at the rear end of the first connection port (5), a circuit board (21) is installed at the rear end of the spiral data line (20), a port chip (22) is installed at the rear end of the circuit board (21), and the internal structure of the second port box (6) is the same as that of the first port box (4).

6. The 5G communication equipment test support according to claim 1, wherein the inner bottom end of the first bottom case (11) is provided with a rubber pad (23), the upper end of the rubber pad (23) is provided with two groups of vibration motors (24), the upper end of each vibration motor (24) is provided with a vibration transmission steel plate (25), and the inner structure of the second bottom case (9) is the same as that of the first bottom case (11).

7. The use method of the 5G communication equipment test bracket according to claim 1, wherein the specific use method of the test bracket is as follows:

the method comprises the following steps: firstly, selecting corresponding standard equipment (8), establishing a connection relation between a plurality of different second connection ports (7) at the front end of a second port box (6) and the standard equipment (8), connecting the second connection ports (7) and the standard equipment (8) by using data lines, and arranging the standard equipment (8) in a second equipment groove (10) to prevent the standard equipment (8) from moving in a test by using a spiral data line (20) at the rear end of the second connection port (7) under a stretching state to facilitate the second connection port (7) to be separated from the second port box (6) to be flexibly connected with the standard equipment (8), establishing the connection relation between the equipment to be tested and a first connection port (5) by using the same method, and arranging the equipment to be tested in a first equipment groove (12);

step two: the integrated tester (2) and the signal generator (3) are externally connected and electrically connected, after signals generated by the signal generator (3) are received by the equipment to be tested and the standard equipment (8), the data are transmitted to the port chip (22) through the spiral data wire (20) through the connection relation established between the first connection port (5) and the second connection port (7), then the data are fed back to the integrated tester (2) through the internal circuit by the port chip (22), the data are compared and analyzed by the integrated tester (2), the analysis comparison data under different signal values are obtained by continuously adjusting the signal generator (3), and the equipment to be tested is convenient to debug in the later period;

step three: after the first round of test is accomplished, external electric connection vibrating motor (24), the vibrations that vibrating motor (24) produced transmit to equipment to be tested and standard equipment (8) through biography vibration steel sheet (25), the operational environment of simulation equipment under the unstable condition in high altitude, repeat step two, obtain the working data of equipment under the unstable environment in high altitude, rubber pad (23) slow down vibrating motor (24) to the impact of first under casing (11) and second under casing (9) bottom box, when unable completion external electric connection, launch battery (19) of emergent electronic box (1) inside, test under the self-power supply condition promptly in the convenient short time.