CN111540998B

CN111540998B - Portable antenna applied to 5G mobile communication

Info

Publication number: CN111540998B
Application number: CN202010387303.9A
Authority: CN
Inventors: 刘发明
Original assignee: JIEYU HARDWARE ELECTRONIC (SHENZHEN) CO LTD
Current assignee: JIEYU HARDWARE ELECTRONIC (SHENZHEN) Co.,Ltd.
Priority date: 2020-05-09
Filing date: 2020-05-09
Publication date: 2021-04-30
Anticipated expiration: 2040-05-09
Also published as: CN111540998A

Abstract

The invention discloses a portable antenna applied to 5G mobile communication, which comprises a machine wire, a signal pot and a holding frame, wherein the machine wire is welded with the signal pot, the signal pot is installed and connected with the holding frame, the machine wire consists of an external detector, an internal detector and a welding wire, the external detector is locked with the internal detector, the internal detector is welded with the welding wire, the signal pot comprises a signal receiving disc, a pot body, a shaft lock and a ventilation structure, the signal receiving disc is welded with the pot body, the pot body is connected with the shaft lock shaft, the ventilation structure is installed on the pot body, the signal receiving disc is provided with a pneumatic transmission structure, the holding frame comprises an installation shaft plate, a holding handle, a support plate and a base, the installation shaft plate and the support plate are locked with the holding handle, the installation shaft plate is connected with the support plate, electromagnetism displaces along the pneumatic transmission structure when wind power is interfered, and is concentrated at the pot body, the electromagnetism is transferred and concentrated, the ventilation structure realizes spiral air outlet, wind power generates upward pulling force when being sent out, and the handheld antenna is more labor-saving.

Description

Portable antenna applied to 5G mobile communication

Technical Field

The invention relates to the field of communication antennas, in particular to a portable antenna applied to 5G mobile communication.

Background

In a wireless communication system, scientific researchers often carry antenna equipment to go to a plurality of places to carry out technical tests, and the portable antenna is required to be a handheld antenna with small size and cannot be an overlarge external antenna.

The test site of the prior art is mostly located in a relatively open area, if wind power is large during testing, the thrust of wind can make the antenna receive large resistance, the gravity of holding is increased, the placing direction of the antenna can be deviated, the transmission of electromagnetic signals can be interfered during testing, signals are weakened, and the accuracy of data testing is reduced.

Disclosure of Invention

The invention mainly aims to overcome the defects of the prior art and provide a portable antenna applied to 5G mobile communication to solve the problems that most test sites are located in a relatively open area, if wind power is high during testing, the thrust of the wind can enable the antenna to bear large resistance, the handheld gravity is increased, the placing direction of the antenna can deviate, the transmission of electromagnetic signals can be interfered during testing, the signals are weakened, and the accuracy of data testing is reduced.

The invention is realized by adopting the following technical scheme: a portable antenna applied to 5G mobile communication structurally comprises a machine wire, a signal pot and a holding frame, wherein the right end of the machine wire is welded with the signal pot, the signal pot is installed and connected with the upper end of the holding frame, the machine wire consists of an external detector, an internal detector and a welding wire, the right side of the external detector is locked with the internal detector, and the right side of the internal detector is welded with the welding wire.

Further preferably, the signal pot includes signal receiving dish, the pot body, shaft lock, ventilation structure, signal receiving dish and the welding of pot body ring side, the pot body ring side is connected with shaft lock axle, ventilation structure installs in pot body bottom, the structure is sent to the wind is installed to signal receiving dish front side.

Preferably, the holder comprises an installation shaft plate, a holding handle, a support plate and a base, the installation shaft plate, the support plate and the holding handle are locked on the left side, the installation shaft plate is connected with the upper end shaft of the support plate in a shaft mode, and the bottom of the support plate is welded with the base.

Preferably, the ventilation structure comprises an air inlet, an inclined air duct and a spiral air supply duct, the right end of the air inlet is connected with the inclined air duct in an assembled mode, and the inner ring side of the inclined air duct is embedded with the spiral air supply duct.

Further preferably, the air supply structure comprises a middle air supply position, a lateral air supply position and an external air supply position, the left side and the right side of the middle air supply position are connected with the lateral air supply position in an installing mode, and the left side and the right side of the lateral air supply position are connected with an external air supply position in an assembling mode.

Further preferably, middle part position front side dress of sending wind is equipped with middle part air supply rail, lateral part position front side dress of sending wind is equipped with lateral part air supply rail, outside position front side dress of sending wind is equipped with outside air supply rail, lateral part air supply rail mid-mounting has lateral part air feed wheel, outside air supply rail mid-mounting has outside air feed wheel.

Further preferably, the spiral air supply cylinder comprises a cylinder shaft and a fan plate, and the side of the cylinder shaft ring is welded with the fan plate.

Preferably, the inner measuring device comprises a device disc, a paging ring and an inner measuring plate, the device disc is connected with the side shaft of the paging ring, and the center of the device disc is embedded with the inner measuring plate.

Advantageous effects

The handheld holding frame is characterized in that a signal pot faces a signal position to be detected, electromagnetic signals are concentrated on a machine line and the signal pot for testing, the electromagnetic signals are interfered by wind power when receiving the signals, the electromagnetic signals are displaced to the pot body along a wind conveying structure and are concentrated at the pot body and are opposite to an inner detector, the inner detector carries out data testing on the electromagnetic signals, the interfered electromagnetic signals are transferred and concentrated, then testing is carried out, and data stability testing is realized; when no wind interference exists, the electromagnetic signal is directly transmitted to an external detector, and the external detector performs data test; meanwhile, the air is filled into the air inlet and is sent out from the inclined air barrel through the spiral air supply barrel, the barrel shaft drives the fan plate to rotate in a spiral mode, air supply force is increased through spiral action, upward pulling force on the antenna is generated when wind power is sent out, gravity of workers in hand holding is reduced, and the workers in hand holding are more labor-saving in hand holding.

Compared with the prior art, the invention has the beneficial effects that: electromagnetism is sent the structure displacement along wind during wind-force interference, concentrates on the pot body department, realizes electromagnetism transfer and concentrates, and the inner detector carries out the data test, and the data test is stable accurate, and ventilation structure realizes spiral air-out, and wind-force has produced ascending pulling force when sending out, and handheld antenna is more laborsaving.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 shows a schematic structural diagram of a portable antenna applied to 5G mobile communication according to the present invention.

Fig. 2 shows a side-view flattened structure schematic diagram of the signal pot.

Fig. 3 shows a structural schematic diagram of the signal pot and the mounting shaft plate of the invention with the handle flattened in front view.

Fig. 4 shows a schematic structural view of the air conveying structure of the present invention.

Fig. 5 shows the structure schematic diagram of the inclined air duct and the spiral air supply duct of the invention.

FIG. 6 shows a schematic diagram of the structure of the invented inner detector.

In the figure: the device comprises a machine line 1, a signal pot 2, a holding frame 3, an external detector 10, an internal detector 11, a welding line 12, a signal receiving disc 20, a pot body 21, a shaft lock 22, a ventilation structure 23, an air supply structure 200, an installation shaft plate 30, a holding handle 31, a support plate 32, a base 33, an air inlet 230, an inclined air duct 231, a spiral air supply duct 232, a middle air supply position 40, a side air supply position 41, an external air supply position 42, a middle air supply rail 400, a side air supply rail 410, an external air supply rail 420, a side air supply wheel 4100, an external air supply wheel 4200, a duct shaft 2321, a fan plate 2330, a device disc 110, a paging 111 and an internal measuring plate 112.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious 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.

Embodiment 1 referring to fig. 1 to 4, the present invention provides a portable antenna technology applied to 5G mobile communication: the structure of the device comprises a machine line 1, a signal pot 2 and a holding frame 3, wherein the machine line 1 is welded with the signal pot 2, the signal pot 2 is installed and connected with the holding frame 3, the machine line 1 consists of an external detector 10, an internal detector 11 and a welding wire 12, the external detector 10 is locked with the internal detector 11, the internal detector 11 is welded with the welding wire 12, the signal pot 2 comprises a signal receiving disc 20, a pot body 21, a shaft lock 22 and a ventilation structure 23, the signal receiving disc 20 is welded with the pot body 21, the pot body 21 is connected with the shaft lock 22 through a shaft, the ventilation structure 23 is installed on the pot body 21, the signal receiving disc 20 is provided with a wind sending structure 200, signal electromagnetism moves towards the pot body 21 along the wind sending structure 200 and is concentrated at the pot body 21 and is opposite to the internal detector 11, the internal detector 11 carries out data test on the electromagnetism, the interfered electromagnetism is transferred and concentrated, then the test is carried out, and the data can be, the holder 3 comprises an installation shaft plate 30, a holding handle 31, a support plate 32 and a base 33, the installation shaft plate 30, the support plate 32 and the holding handle 31 are locked, the installation shaft plate 30 is connected with the support plate 32 through a shaft, the support plate 32 is welded with the base 33, the ventilation structure 23 comprises an air inlet 230, an inclined air cylinder 231 and a spiral air supply cylinder 232, the air inlet 230 is connected with the inclined air cylinder 231 in an assembling manner, the inclined air cylinder 231 is embedded with the spiral air supply cylinder 232, the air supply structure 200 comprises a middle air supply position 40, a side air supply position 41 and an outer air supply position 42, the air supply structure 200 plays a role of uniform electromagnetic and stable conveying during electromagnetic displacement, the middle air supply position 40 is connected with the side air supply position 41 in an installing manner, the side air supply position 41 is connected with the outer air supply position 42 in an assembling manner, a middle air supply rail 400 is arranged on the middle air supply position 40, and an air supply rail 410 is arranged on the side of the side air supply position 41, an external air supply rail 420 is installed on the external air supply position 42, a lateral air supply wheel 4100 is installed on the lateral air supply rail 410, an external air supply wheel 4200 is installed on the external air supply rail 420, and the lateral air supply wheel 4100 and the external air supply wheel 4200 roll to drive the electromagnetism to accelerate and control the electromagnetism to move in a uniform direction.

The handheld frame 3, the signal pot 2 faces the signal position to be detected, the electromagnetic signal is concentrated on the machine line 1 and the signal pot 2 for testing, when receiving the signal, the electromagnetic is interfered by wind power, the electromagnetic moves to the pot body 21 along the wind feeding structure 200, the electromagnetic is concentrated on the pot body 21 and is opposite to the inner detector 11, the inner detector 11 carries out data testing on the electromagnetic, the interfered electromagnetic is transferred and concentrated, then the testing is carried out, the data stability testing is realized, when the electromagnetic moves, the wind feeding structure 200 plays a role of uniform electromagnetic and stable conveying, the electromagnetic batches move from the middle wind feeding position 40, the side wind feeding position 41 and the external wind feeding position 42 along the middle wind feeding rail 400, the side wind feeding rail 410 and the external wind feeding rail 420, and the side wind feeding wheel 4100 and the external wind feeding wheel 4200 roll to drive the electromagnetic to accelerate the movement and control the electromagnetic to move to the uniform direction; when no wind interference exists, the electromagnetic signal is directly transmitted to the position of the external detector 10, and the external detector 10 carries out data test.

Embodiment 2 referring to fig. 5 to 6, the present invention provides a portable antenna technology applied to 5G mobile communication: the structure of the spiral air supply cylinder 232 comprises a cylinder shaft 2321 and a fan plate 2330, the cylinder shaft 2321 is welded with the fan plate 2330, the internal detector 11 comprises a device disc 110, a paging 111 and an internal detection plate 112, the device disc 110 is connected with the paging 111, the device disc 110 is embedded with the internal detection plate 112, the spiral air supply cylinder 232 performs spiral action to increase air supply force, wind power generates upward pulling force on an antenna when being sent out, the gravity held by a worker is reduced, and the hand holding is more labor-saving.

The wind is filled into the wind inlet 230 and is sent out from the inclined wind barrel 231 through the spiral wind barrel 232, the barrel shaft 2321 drives the fan plate 2330 to rotate in a spiral mode, the air supply force is increased through spiral action, the wind power generates upward pulling force on the antenna while being sent out, the gravity of a worker in a handheld mode is reduced, and the handheld mode is more labor-saving.

Compared with the prior art, the invention has the technical progress that: electromagnetism is concentrated in pot body 21 department along wind send structure 200 displacement during wind-force interference, realizes electromagnetism transfer and concentrates, and surveyor 11 carries out data test, and data test is stable accurate, and ventilation structure 23 realizes spiral air-out, and wind-force has produced ascending pulling force when seeing off, and it is more laborsaving to hand antenna.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims

1. The utility model provides a be applied to 5G mobile communication's portable antenna, its structure includes machine line (1), signal pot (2), holds frame (3), machine line (1) and signal pot (2) welding, signal pot (2) and hold frame (3) erection joint, its characterized in that:

the machine line (1) consists of an external detector (10), an internal detector (11) and a welding line (12), wherein the external detector (10) is locked with the internal detector (11), and the internal detector (11) is welded with the welding line (12);

the signal pot (2) comprises a signal receiving disc (20), a pot body (21), a shaft lock (22) and a ventilation structure (23), wherein the signal receiving disc (20) is welded with the pot body (21), the pot body (21) is connected with the shaft lock (22) through a shaft, the ventilation structure (23) is arranged on the pot body (21), and the signal receiving disc (20) is provided with an air supply structure (200);

the air supply structure (200) comprises a middle air supply position (40), a side air supply position (41) and an external air supply position (42), the middle air supply position (40) is connected with the side air supply position (41) in an installing mode, and the side air supply position (41) is connected with the external air supply position (42) in an assembling mode;

the wind power generation device is characterized in that a middle air supply rail (400) is arranged on the middle air supply position (40), a side air supply rail (410) is arranged on the side air supply position (41), an outer air supply rail (420) is arranged on the outer air supply position (42), a side air supply wheel (4100) is arranged on the side air supply rail (410), and an outer air supply wheel (4200) is arranged on the outer air supply rail (420).

2. The portable antenna applied to 5G mobile communication according to claim 1, wherein: the holder (3) comprises an installation shaft plate (30), a holding handle (31), a support plate (32) and a base (33), the installation shaft plate (30), the support plate (32) and the holding handle (31) are locked, the installation shaft plate (30) is connected with the support plate (32) through a shaft, and the support plate (32) is welded with the base (33).

3. The portable antenna applied to 5G mobile communication according to claim 1, wherein: the ventilation structure (23) comprises an air inlet (230), an inclined air barrel (231) and a spiral air supply barrel (232), the air inlet (230) is connected with the inclined air barrel (231) in an assembling mode, and the inclined air barrel (231) is embedded with the spiral air supply barrel (232).

4. A portable antenna applied to 5G mobile communication according to claim 3, wherein: the spiral air supply cylinder (232) comprises a cylinder shaft (2321) and a fan plate (2330), and the cylinder shaft (2321) is welded with the fan plate (2330).

5. The portable antenna applied to 5G mobile communication according to claim 1, wherein: the inner detector (11) comprises a device disc (110), a paging (111) and an inner measuring plate (112), the device disc (110) is connected with the paging (111) in a shaft mode, and the device disc (110) and the inner measuring plate (112) are embedded.