CN109088644B

CN109088644B - Artificial intelligence signal transmitting device for enhancing signal strength of 5G communication networks

Info

Publication number: CN109088644B
Application number: CN201811129443.5A
Authority: CN
Inventors: 杜都
Original assignee: Zhilian Xintong Technology Co Ltd
Current assignee: Zhilian Xintong Technology Co., Ltd.
Priority date: 2018-09-27
Filing date: 2018-09-27
Publication date: 2020-01-31
Anticipated expiration: 2038-09-27
Also published as: CN109088644A

Abstract

The invention relates to an artificial intelligence signal transmitting device for strengthening signal strength of types of 5G communication networks, which comprises a fixed frame, a supporting base point and an upper bottom plate, wherein a signal diffusion disc is fixedly installed inside the fixed frame through welding, a center frame is arranged in the middle of the signal diffusion disc, a transmitting element is installed right in front of the signal diffusion disc, the outer end of the transmitting element is connected with a supporting bracket, and the supporting base point is fixedly arranged at the bottom of the fixed frame through welding.

Description

Artificial intelligence signal transmitting device for enhancing signal strength of 5G communication networks

Technical Field

The invention relates to the technical field of signal transmitters, in particular to an artificial intelligence signal transmitting device for enhancing signal strength of 5G communication networks.

Background

With the development of science and technology and the progress of the social era, the 5G network is used as a fifth generation mobile communication network, the peak value theoretical transmission speed can reach dozens of Gb per second, which is hundreds of times faster than the transmission speed of the 4G network, the whole super high quality movie can be downloaded and completed within 1 second, the main objective of the 5G network is to enable the terminal user to be always in a networking state, the network needs to use a corresponding signal transmitter when transmitting, the signal generator is devices capable of providing electric signals with various frequencies, waveforms and output levels, and the 5G network is used as a signal source or an excitation source for testing when measuring the amplitude characteristics, the frequency characteristics, the transmission characteristics and other electric parameters of various telecommunication systems or telecommunication devices and measuring the characteristics and the parameters of components.

When the existing signal emitter is used for signal transmission, the whole signal diffusion range is limited, the signal intensity is limited, and meanwhile, the -type signal emitter cannot guarantee the whole balance, so that the phenomena of toppling and damage can occur when the signal emitter is influenced by a strong wind factor.

Disclosure of Invention

The invention aims to provide an artificial intelligence signal transmitting device for enhancing signal strength of types of 5G communication networks, which aims to solve the problems that the prior signal transmitter proposed in the background art has limited signal diffusion range and limited signal strength when in signal transmission, and the type signal transmitter cannot ensure the balance of the whole signal transmitter, so that the signal transmitter is toppled and damaged when being influenced by strong wind factors.

artificial intelligence signal transmitting devices for enhancing signal strength of a 5G communication network comprise a fixing frame, a supporting base point and an upper base plate, wherein a signal diffusion disc is fixedly installed inside the fixing frame through welding, a center frame is arranged in the middle of the signal diffusion disc, a transmitting component is installed right in front of the signal diffusion disc, a supporting bracket is connected to the outer end of the transmitting component, the supporting base point is fixedly arranged at the bottom of the fixing frame through welding, a main supporting rod is connected to the left end and the right end of the supporting base point respectively, the upper base plate is fixedly arranged at the bottom end of the main supporting rod through screws, a rotating roller is installed at the bottom of the upper base plate, a second sliding groove is formed in the outer end of the rotating roller, a lower base plate is installed on the outer side of the second sliding groove through pouring assembly, a middle axis lightning rod is movably connected to the top of the signal diffusion disc, a lubricating port is formed in the front of the upper base plate through welding, an inner embedded groove is fixedly arranged in the front of the signal diffusion disc, aluminum wire winding posts are movably connected to the inner side of the connecting rod, a cylindrical supporting rod, a reinforcing wire winding post is embedded in the connecting rod, a cylinder, a reinforcing wire is arranged between the connecting rod, a reinforcing wire is embedded in the cylinder, a connecting rod, a reinforcing wire is fixedly connected with a reinforcing wire, a reinforcing wire is arranged between the cylinder, a reinforcing wire, a connecting rod, a reinforcing wire is fixedly arranged between the cylinder, a connecting rod, a reinforcing wire is embedded supporting rod, a reinforcing wire is fixedly arranged between the cylinder, a reinforcing wire is embedded supporting rod, a reinforcing wire is fixedly arranged between the cylinder, a reinforcing wire, a connecting rod, a reinforcing wire is fixedly arranged in the cylinder, a connecting rod, a reinforcing wire is arranged between a.

Preferably, the th spout is through constituting slidable structure between embedded fishplate bar, supporting spring and the support holder, and constitutes half enclosed construction between support holder and the fastening snap ring, the th spout is "ten" word structure setting along the outer end of center frame.

Preferably, the upper plate is connected with the second chute through a rotary roller, the upper plate forms a rotatable structure through the rotary roller and the upper plate, an th fixing port is formed in the front face of the upper plate, a steel nail penetrates through the th fixing port, the steel nail is fixedly connected with the lower plate, and a parallel structure is formed between the lower plate and the upper plate.

Preferably, the lightning rod is connected with the signal diffusion disc through the movable shaft, the mounting groove is formed in the upper left end of the lightning rod, the lower left end of the mounting groove is movably connected with the movable shaft, the inner end of the mounting groove is matched with the outer end of the lightning rod in shape, and the cross-sectional area of the lightning rod is smaller than that of the mounting groove.

Preferably, the lubricating port is of a hole-shaped structure and is arranged on the front face of the upper base plate, the middle end of the upper base plate is fixedly provided with a reinforcing rib through welding, the front face of the signal diffusion disc is provided with a baffle, and the baffle is arranged in an inclined step-shaped structure.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, through the arrangement of the aluminum wire winding columns, the aluminum wire winding columns are welded on the outer surface of the signal diffusion disc in combination with the embedded groove, when the aluminum wire winding columns are fixed in the embedded groove, the emission area of the signal diffusion disc can be expanded in the connection aspect of the aluminum wire winding columns and the embedded groove, in addition, the integral signal intensity of the device can be effectively enhanced in the aspect of , the experience of a user on a 5G communication network can be smoother, and the aluminum wire winding columns arranged in an array structure can guarantee the signal enhancement range.

2. According to the invention, through the inclined arrangement of the balance blocks, the balance blocks form a parallel structure along the supporting base point and the signal diffusion disc, the arrangement of the obtuse triangle can enable the gravity center of the balance blocks to be acted on the left lower end of the supporting base point, and the gravity center of the signal diffusion disc is acted on the right upper end of the supporting base point.

3. According to the invention, through the rolling arrangement of the rotating rollers, when a worker installs the device, the device needs to be adjusted to an environment with good signals, the upper bottom plate can provide relative traction force for the rotating rollers after being pushed by a human body, and under the hollow arrangement of the second sliding groove, the worker can easily realize the direction adjustment work of the device by rotating the rotating rollers for 360 degrees in the second sliding groove under the stress of the rotating rollers, so that the signal receiving work of the device is in environments with strong signal intensity while the overall flexibility of the device is embodied, and the overload caused by manual moving on the human body is avoided.

4. According to the invention, through the arrangement of the th sliding groove, the end part of the emission component is in a protruding shape, which is not beneficial to carrying work of a worker on the device, the support bracket is connected with the embedded connection plate through the end, the support bracket can overcome the elastic support of the support spring along with the fact that the emission component is stressed to be close to the middle part of the signal diffusion disc, the slidable operation can be realized in the th sliding groove, when the bottom part of the emission component is overlapped with the central frame, the whole emission component can be embedded in the signal diffusion disc in a disc structure, so that the carrying work of the worker on the signal diffusion disc is facilitated, and the influence on the next times of use of the whole device due to the protrusion of the emission component and the collision of external force is avoided.

5. According to the invention, through the arrangement of the lightning rod, as most of the device is arranged at a high position, when meeting thunder and lightning weather, the device can have a relative lightning protection effect by arranging the lightning rod, so that the normal emission work of the device on signals is ensured, the signal diffusion disc in a disc structure can store rainwater in rainy days, and the baffle in an inclined structure can guide rainwater accumulated in the middle of the signal diffusion disc when covering the front surface of the signal diffusion disc.

Drawings

FIG. 1 is a schematic structural diagram of an artificial intelligence signal transmitting device for enhancing signal strength of kinds of 5G communication networks according to the invention;

FIG. 2 is a schematic diagram of a side view of an artificial intelligence signal transmitting device for enhancing signal strength of G communication networks according to the present invention;

FIG. 3 is a schematic diagram of a signal diffusion disc structure of an artificial intelligence signal transmitting device for enhancing signal strength of G communication networks according to the present invention;

FIG. 4 is a schematic diagram of an upper board structure of an artificial intelligence signal transmitting device for enhancing signal strength of G communication networks according to the present invention;

fig. 5 is a schematic view of the structure of an embedded connection board of the artificial intelligence signal transmitting device for enhancing signal strength of G communication networks.

In the figure, the device comprises a fixed frame 1, a signal diffusion disc 2, a central frame 3, a transmitting component 4, a transmitting component 5, a th sliding groove 6, a supporting bracket 7, an embedded connecting plate 8, a supporting spring 9, a fastening snap ring 10, a supporting base point 11, a main supporting rod 12, a reinforcing block 13, an auxiliary supporting rod 14, a connecting shaft 15, a hydraulic cylinder 16, a fixed bin 17, an upper bottom plate 18, a rotating roller 18, a second sliding groove 20, a lower bottom plate 21, a fixed port 22, a steel nail 23, an embedded groove 24, an aluminum wire winding column 25, a connecting rod 26, a balance block 27, a lightning rod 27, a movable shaft 28, a movable shaft 29, a mounting groove 30, a second fixed port 31, a baffle plate 32, a lubricating port 33 and a reinforcing rib.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only partial embodiments of of the present invention, rather than all embodiments.

With reference to fig. 1-5, the present invention provides technical solutions, an artificial intelligence signal emission device for reinforcing signal strength of a 5G communication network includes a fixed frame 1, a signal diffusion disc 2, a center frame 3, an emission component 4, a th chute 5, a support bracket 6, an embedded connection plate 7, a support spring 8, a fastening snap ring 9, a support base point 10, a main support rod 11, a reinforcing block 12, a secondary support rod 13, a connecting shaft 14, a hydraulic cylinder 15, a fixed bin 16, an upper base plate 17, a rotary roller 18, a second chute 19, a lower base plate 20, a fixed port 21, a steel nail 22, an embedded groove 23, an aluminum wire winding column 24, a connecting rod 25, a balance block 26, a lightning rod 27, a movable shaft 28, a mounting groove 29, a second fixed port 30, a baffle 31, a lubrication port 32 and a reinforcing rib 33, the signal diffusion disc 2 is fixedly installed inside the fixed frame 1 by welding when the signal diffusion disc 2 is provided with the center frame 3, the front face of the signal diffusion disc 2 is fixedly installed with an internal diffusion disc 23, and the signal diffusion disc 23 is connected with a signal diffusion disc 23, the signal diffusion disc 23 is connected with the signal diffusion disc 23, the signal diffusion disc 2, the signal diffusion disc 23 is connected with the embedded diffusion disc 23, the signal diffusion disc 23 is connected with the signal diffusion disc 23, the signal diffusion disc 2 is connected with the signal diffusion disc 23, the signal diffusion disc 2, the signal diffusion disc 23 is connected with the embedded diffusion disc 23, the signal diffusion disc 2 is connected with the signal diffusion disc 23, the signal diffusion disc 2 is connected with the signal diffusion disc 2, the signal diffusion disc 23, the signal diffusion disc 2, the signal diffusion disc 23 is connected with the signal diffusion disc 23, the signal diffusion disc 2, the signal diffusion disc 23, the signal diffusion disc 2 is connected with the embedded support device is connected with the signal diffusion disc 23, the embedded diffusion disc 23, the signal diffusion disc 2, the embedded support device is connected with the embedded support device, the embedded support device is connected with the embedded diffusion disc 23, the embedded support device is connected with the embedded support device, the embedded diffusion disc 23, the embedded support device, the embedded diffusion disc 2, the embedded;

the supporting base point 10 is fixedly arranged at the bottom of the fixing frame 1 by welding, the left end and the right end of the supporting base point 10 are respectively connected with a main supporting rod 11, the outer end of the main supporting rod 11 is fixedly provided with a reinforcing block 12 by a screw, side of the main supporting rod 11 is provided with an auxiliary supporting rod 13, the top end of the auxiliary supporting rod 13 and the bottom end of the supporting base point 10 are fixedly welded, the auxiliary supporting rod 13 is connected with the main supporting rod 11 by a connecting shaft 14, the middle lower end of the supporting base point 10 is provided with a hydraulic cylinder 15 by screw connection, the outer side of the hydraulic cylinder 15 is covered with a fixing bin 16, a nested structure is formed between the reinforcing block 12 and the main supporting rod 11, the main supporting rod 11 and the supporting base point 10 form a triangular structure along the central axis of the hydraulic cylinder 15, the hydraulic cylinder 15 and the fixing bin 16 form a triangular structure, the left lower end of the supporting base point 10 is connected with a connecting rod 25, the left lower end of the connecting rod 25 is provided with a balancing block 26, the balancing block 26 is arranged in an obtuse triangular structure, the main supporting base point 11 when the triangular structure is arranged with the supporting base point 10, the triangular structure, according to the special stability of the triangle, the main supporting base point 10 is arranged so that the mounting of the main supporting frame 1 is in , the gravity center of the main supporting base point is arranged under the supporting rod, the balancing block 11, the balancing block is arranged, the balancing block 10, the balancing block is arranged in a gravity center of the environment of the gravity of the balancing block, the;

the upper bottom plate 17 is fixedly arranged at the bottom end of the main supporting rod 11 through screws, a rotary roller 18 is arranged at the bottom of the upper bottom plate 17, the upper bottom plate 17 is connected with the second sliding groove 19 through the rotary roller 18, the upper bottom plate 17 and the upper bottom plate 17 form a rotatable structure through the rotary roller 18, a fixing port 21 is formed in the front surface of the upper bottom plate 17, a steel nail 22 penetrates through the inside of the fixing port 21, the steel nail 22 is fixedly connected with the lower bottom plate 20, the lower bottom plate 20 and the upper bottom plate 17 are in a parallel structure, a worker holds the main supporting rod 11 to provide relative thrust for the main supporting rod 11, the main supporting rod 11 and the upper bottom plate 17 are fixedly connected, after the upper bottom plate 17 receives the thrust of a human body, the rotary roller 18 is dragged to rotate for 360 degrees in the inside of the second sliding groove 19, the direction adjustment work of the transmitting assembly is realized, after the rotation adjustment work is finished, the worker holds the steel nail 22 to penetrate through the fixing port 21, the rotary work of the upper bottom plate 17 to stop the rotation work of the upper bottom plate 17, the worker can push the upper bottom plate 17, the worker can adjust the direction of the device easily;

the outer end of the rotating roller 18 is provided with a second sliding chute 19, the outer side of the second sliding chute 19 is provided with a lower bottom plate 20 through pouring assembly, the top of the signal diffusion disc 2 is movably connected with a lightning rod 27, the lightning rod 27 is connected with the signal diffusion disc 2 through a movable shaft 28, the left upper end of the lightning rod 27 is provided with a mounting groove 29, the left lower end of the mounting groove 29 is movably connected with the movable shaft 28, the inner end of the mounting groove 29 is matched with the outer end of the lightning rod 27 in shape, the cross-sectional area of the lightning rod 27 is smaller than that of the mounting groove 29, in case of lightning weather, the arrangement of the lightning rod 27 can enable the device to have relative lightning protection effect, the normal emission work of the device to signals is ensured, the front surface of the upper bottom plate 17 is provided with a lubricating port 32, the lubricating port 32 is arranged on the front surface of the upper bottom plate 17 in a porous structure, baffle 31 is installed on the front of signal diffusion dish 2, and baffle 31 is the setting of slope stairstepping structure, and when rainy day, the signal diffusion dish 2 that is the disc structure will play the work of storage to the rainwater, and baffle 31 that is the slope structure will play the work of water conservancy diversion to the rainwater of piling up at signal diffusion dish 2 middle part when covering the front of signal diffusion dish 2.

The working principle of the embodiment is that when a worker fixes the artificial intelligent signal transmitting device with enhanced signal strength of the 5G communication network in a stable high altitude, when a main support rod 11 forms a triangular structure with a support base point 10 as a base point, the main support rod 11 is arranged according to the special stability of the triangle, the installation of the fixing frame 1 is in stable environments, when a reinforcing block 12 made of a steel material is arranged at the outer end of the main support rod 11 in a wrapping mode, the overall strength of the main support rod 11 can be effectively enhanced, the service life of the main support rod 11 is prolonged, then the worker holds the main support rod 11 to provide relative thrust to the main support rod 11, when the main support rod 11 and the upper bottom plate 17 are fixedly connected, after the upper bottom plate 17 receives the thrust of a human body, the worker pulls the rotary roller 18 to rotate within the second chute 19 by 360 degrees, the orientation adjustment work of the transmitting assembly is realized, after the rotation adjustment work is finished, the worker penetrates through the steel nail 22, the fixing opening 21, the rotating work of the upper bottom plate 17 is stopped, the worker pushes the working disc 17 to adjust the gravity of the lightning rod, when the gravity of the lightning rod 19, the lightning rod 2, the lightning rod is pushed, the lightning rod 2, the lightning rod is arranged in a diffusion work, the diffusion work rack, the diffusion rack, the rack is arranged under the diffusion rack, the diffusion rack 2, the diffusion rack 2, the rack 2, when the rack 2, the rack 2 is arranged under diffusion rack, the rack can be combined with diffusion of the rack, the rack can effectively, the rack can be used for preventing the rack from being connected with the diffusion of the rack from being connected, the diffusion rack, the rack from the rack, the rack from the rack, the rack 2, the rack 2, the rack 2, the rack can be used for preventing the rack, the rack from the rack can be used for the rack, the rack.

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

The artificial intelligence signal emission device for reinforcing signal strength of the 5G communication network comprises a fixed frame (1), a support base point (10) and an upper base plate (17), and is characterized in that a signal diffusion disc (2) is fixedly installed inside the fixed frame (1) through welding, a center frame (3) is arranged in the middle of the signal diffusion disc (2), an emission component (4) is installed right in front of the signal diffusion disc (2), the outer end of the emission component (4) is connected with a support bracket (6), the support base point (10) is arranged at the bottom of the fixed frame (1) through welding, the left end and the right end of the support base point (10) are respectively connected with a main support rod (11), the upper base plate (17) is fixedly arranged at the bottom end of the main support rod (11) through screws, a rotary roller (18) is arranged at the bottom of the central axis of the upper base plate (17), the outer end of the rotary roller (18) is provided with a second sliding chute (19), the outer side of the second sliding chute (19) is provided with a lower base plate (20) through assembling, the outer side of the second sliding chute (19) is provided with a lower base point through a fixing rod (20), the mounting rod (20), the upper end of the signal diffusion disc (2) and a fixing rod (2), the fixing rod mounting rod (2) is connected with a fixing rod (16), the cylinder (7), the cylinder (13), the cylinder (7) through a fixing rod (16), the cylinder (13), the cylinder (11), the cylinder (13) is fixedly connected with a fixing rod (7), the cylinder (13), the cylinder (7), the cylinder (11), the cylinder (7) and a fixing structure, the cylinder (13), the cylinder (11), the cylinder (13), the cylinder (7) is fixedly connected with a fixing structure, the cylinder (7), the cylinder (13), the cylinder (7) and a fixing structure, the cylinder (7), the cylinder (11), the cylinder (7) is fixedly connected with a fixing structure, the cylinder (7), the cylinder (2), the cylinder (16), the cylinder (7), the cylinder (16), the cylinder (2), the cylinder (16), the cylinder (7) is connected with a fixing structure, the cylinder (7), the cylinder (3), the cylinder (13), the cylinder (7) and a screw, the cylinder (7) are fixedly connected with a fixing structure, the cylinder (16), the cylinder (7) and a fixing structure, the cylinder (3), the cylinder (2), the cylinder (7), the cylinder (2), the cylinder (3), the cylinder (7) are connected with a fixing rod (3), the.
2. The artificial intelligence signal emission device of kinds of 5G communication networks for reinforcing signal intensity according to claim 1, wherein the chute (5) forms a slidable structure through the embedded connection plate (7), the support spring (8) and the support bracket (6), and forms a semi-enclosed structure between the support bracket (6) and the fastening snap ring (9), and the chute (5) is arranged in a cross-shaped structure along the outer end of the center frame (3).
3. The artificial intelligence signal emission device of kinds of 5G communication network reinforcing signal intensity of claim 1, characterized in that, the upper plate (17) is connected with the second runner (19) through the rotation roller (18), and the upper plate (17) forms a rotatable structure through the rotation roller (18) and the upper plate (17), the front of the upper plate (17) is opened with the fixed port (21), and the interior of the fixed port (21) is penetrated with the steel nail (22), the steel nail (22) and the lower plate (20) are fixedly connected, and the lower plate (20) and the upper plate (17) are parallel structure.
4. The artificial intelligence signal emission device of kinds of 5G communication network reinforcing signal intensity of claim 1, characterized in that, the lightning rod (27) is connected with the signal diffusion dish (2) through the movable shaft (28), and the left upper end of lightning rod (27) is equipped with mounting groove (29), the left lower extreme of mounting groove (29) and movable shaft (28) between the swing joint, and the shape between the inner of mounting groove (29) and the outer end of lightning rod (27) is identical, the cross-sectional area of lightning rod (27) is less than the cross-sectional area of mounting groove (29).
5. The artificial intelligence signal emission device of kinds of 5G communication network reinforcing signal intensity of claim 1, characterized in that, the lubrication mouth (32) is set up in the front of the upper plate (17) in the form of hole-shaped structure, and the middle end of the upper plate (17) is fixed with the strengthening rib (33) through welding, the front of the signal diffusion disc (2) is installed with the baffle (31), and the baffle (31) is set up in the form of inclined ladder-shaped structure.