CN111224219B - Receiver for D2D communication technology in adjustable signal source 5G communication - Google Patents

Abstract

The invention discloses a receiver for D2D communication technology in adjustable signal source 5G communication, which structurally comprises an equipment main body, a fixed base, a control panel, a receiving line and a signal enhancement device. Has the advantages that: the invention utilizes the point-surface enhanced structure to enlarge the cross section area of the receiving signal of the antenna to be in a point-surface structure shape when adjusting the direction of the receiving line so as to collect the externally received signal in a circular shape on the receiving line, thereby realizing the good signal receiving performance of a signal source, avoiding the problem that the signal is not well received when the signal is adjusted by moving in a single direction, further needing to be connected with a plurality of antennas, utilizing an anti-interference mechanism to perform an all-round stripping and falling action on the dissociative solidified ions attached to the surface of the receiving line, preventing the dissociative ions at the periphery of the receiving line from generating a magnetic wave interference action on the electric frequency of the receiving line, and simultaneously performing further adsorption treatment on the fallen solidified ions under the coordination action of the adsorption arc rings so as to avoid dissociating and attaching to the surface of the receiving line again.

Description

Receiver for D2D communication technology in adjustable signal source 5G communication

Technical Field

The invention relates to the technical field of 5G communication, in particular to a receiver for a D2D communication technology in adjustable signal source 5G communication.

Background

With the development and gradual enhancement of 5G communication technology, the technology has efficient help for people's daily life and office. In communication systems and networks, D2D technology is generally used to establish communication links in order to improve the efficiency of 5G applications and to expand the network capacity. When a 5G signal is received to a terminal device, a signal source needs to be received through a receiver, in the existing signal receiver, when the signal is poor and the signal receiving strength needs to be enhanced, a plurality of receiving antennas are added on the receiver in the traditional method, so that the signal receiving is enhanced, along with the increase of the receiving antennas, the surface of the receiver is large in load and the receiving lines are easy to collide with each other, and therefore the use cost is increased and the reverse effect is caused;

meanwhile, when the receiving line is exposed in the air for a long time, lighter free solidified ions contained in the air can be directly attached to the surface of the receiving line, and magnetic interference effect is generated when the signal source receives signals under the characteristic effect of the receiving line, so that the terminal equipment has the effect of snowflakes or fragments.

Disclosure of Invention

Aiming at the defects of the prior art, the invention aims to provide a receiver for D2D communication technology in adjustable signal source 5G communication, and aims to solve the problem that when the signal is not good and the signal receiving strength needs to be enhanced in the prior art, the traditional method is to add a plurality of receiving antennas on the receiver so as to enhance the signal receiving, and along with the increase of the receiving antennas, the surface of the receiver is easy to collide with each other due to large load and the receiving lines, so that the use cost is increased and the reverse effect occurs.

In order to achieve the purpose, the invention is realized by the following technical scheme:

the utility model provides a D2D receiver for communication technology in adjustable signal source 5G communication, its structure includes equipment main part, unable adjustment base, control panel, receiving line, signal augmentation device, unable adjustment base installs in equipment main part lower surface and is connected through the electric welding, control panel inlays and is connected in equipment main part front surface and through the electric welding, the receiving line is located equipment main part rear surface right side and electricity and is connected, the signal augmentation device is located the receiving line surface and is connected through the lock, the signal augmentation device includes point face reinforcing structure, jam-proof mechanism, lock loop, jam-proof mechanism installs in the inside and laminating mutually in the receiving line outside of point face reinforcing structure lower surface, the lock loop is installed in jam-proof mechanism lower surface and is connected through the electric welding.

As a further scheme of the invention, the point-surface reinforcing structure comprises a fixed sleeve, movable buttons, an expansion rod, a push disc and a limiting spring, wherein the number of the expansion rod is ten, the upper ends of the expansion rod are respectively connected with the fixed sleeve in an even and equidistant manner through the movable buttons, the lower end of the expansion rod is connected with the push disc through buckling, and the push disc is arranged below the fixed sleeve and is connected with a receiving wire through the limiting spring, so that effective adjustment of signal receiving is facilitated.

As a further scheme of the invention, the inside of the expanding rod is provided with a cable connected with the receiving wire, and the outside material of the expanding rod is consistent with the receiving wire, thereby being beneficial to realizing enhanced signal receiving.

As a further scheme of the invention, ten buckling grooves are formed in the surface of the push disc and are uniformly and equidistantly installed, the buckling grooves are connected with the expanding rod in a buckling mode, and the surface of the outer side of the push disc is provided with the baffle ring and is of an integrated structure, so that the interface receiving range of the push disc is expanded while the receiving line is adjusted.

As a further scheme of the invention, the anti-interference mechanism comprises two adsorption arc rings, two cleaning holes, four rotating rings, a connecting plate and a stroking plate, the two adsorption arc rings are symmetrically installed and connected through electric welding, the four cleaning holes are arranged and are respectively installed on the surfaces of the adsorption arc rings in pairs, the cleaning holes and the adsorption arc rings are of an integrated structure, the rotating rings are arranged on the inner side walls of the adsorption arc rings and are connected through buckling, the two connecting plates are symmetrically connected with the rotating rings, the two stroking plates are arranged and are respectively connected with the connecting plate through electric welding, and therefore anti-interference treatment on butt-joint take-up lines is facilitated to be realized so as to enhance signal receiving of the anti-interference mechanism.

As a further scheme of the invention, the upper surface of the adsorption arc ring is provided with the dense screen plate which is made of an insulating material, so that the further adsorption treatment of the object-like electric ions removed by the stroking plate can be realized.

As a further scheme of the invention, the connecting part of the connecting plate and the rotating ring is in adjustable sliding connection, which is beneficial to realizing the independent adjustment of the binding surface according to the diameter of the receiving wire.

As a further scheme of the invention, the stroking plate is made of insulating materials and has the height consistent with that of the receiving wire, the rectangular frame is arranged in the middle of the stroking plate and is of an integrated structure, and the stroking plate) is provided with a cotton layer on the surface and is connected with the cotton layer through gluing, so that the cleaning effect on the electric ions attached to the surface of the stroking plate exposed outside the receiving wire for a long time can be realized, and the interference effect on signal receiving can be avoided.

Advantageous effects of the invention

Compared with the traditional receiver for the D2D communication technology in the adjustable signal source 5G communication, the invention has the following beneficial effects:

the invention utilizes the point-surface reinforcing structure to enlarge the cross section area of the antenna receiving signal while adjusting the direction of the receiving line, so that the receiving line is in a point-surface structure shape, and then the signal received in a round shape from the outside is converged on the receiving line, thereby realizing the good signal receiving performance of a signal source, and avoiding the problems that the signal is not well received by moving in a single direction when the signal is adjusted, and further a plurality of antennas are required to be connected, which is more complicated.

The invention utilizes the anti-interference mechanism to perform the full-range stripping and falling action on the dissociative solidified electric ions attached to the surface of the receiving wire, thereby preventing the dissociative electric ions at the periphery of the receiving wire from generating the magnetic wave interference action on the electric frequency of the receiving wire, and simultaneously performing further adsorption treatment on the fallen solidified electric ions under the coordination action of the adsorption arc ring so as to avoid the dissociative electric ions from being attached to the surface of the receiving wire again.

Drawings

Other features, objects and advantages of the invention will become more apparent from a reading of the detailed description of non-limiting embodiments with reference to the attached drawings.

In the drawings:

fig. 1 is a schematic structural diagram of a receiver for D2D communication technology in adjustable signal source 5G communication according to the present invention.

FIG. 2 is a schematic top view of the signal amplification device of the present invention.

Fig. 3 is a schematic front view of the point-surface reinforcing structure of the present invention.

Fig. 4 is a schematic view of an internal top view structure of the point-surface reinforcing structure of the present invention.

Fig. 5 is a schematic top view of the interference preventing mechanism of the present invention.

Fig. 6 is a front view structure diagram of the stroking plate of the invention.

In the figure: the device comprises a device body-1, a fixed base-2, a control panel-3, a receiving line-4, a signal enhancement device-5, a point-surface enhancement structure-5 a, an anti-interference mechanism-5 b, a buckling ring-5 c, a fixed sleeve-5 a1, a movable button-5 a2, a spreading rod-5 a3, a push disc-5 a4, a limiting spring-5 a5, a buckling groove-g 1, a blocking ring-g 2, an adsorption arc ring-5 b1, a cleaning hole-5 b2, a rotating ring-5 b3, a connecting plate-5 b4, a stroking plate-5 b5, a dense screen plate-x, a rectangular frame-5 b51 and a cotton layer-5 b 52.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

The first embodiment:

as shown in fig. 1-4, the present invention provides a technical solution for adjusting a receiver for D2D communication technology in signal source 5G communication:

as shown in fig. 1-2, a receiver for D2D communication technology in adjustable signal source 5G communication, the structure of the device comprises a device main body 1, a fixed base 2, a control panel 3, a receiving wire 4 and a signal enhancement device 5, the fixed base 2 is arranged on the lower surface of the equipment main body 1 and is connected with the lower surface of the equipment main body 1 through electric welding, the control panel 3 is embedded on the front surface of the equipment main body 1 and is connected with the front surface of the equipment main body through electric welding, the receiving wire 4 is arranged at the right side of the rear surface of the equipment main body 1 and is electrically connected, the signal enhancement device 5 is arranged at the outer surface of the receiving wire 4 and is connected with the receiving wire 4 through buckling, the signal enhancement device 5 comprises a point-surface reinforcing structure 5a, an anti-interference mechanism 5b and a buckling ring 5c, the anti-interference mechanism 5b is installed inside the lower surface of the point surface reinforcing structure 5a and attached to the outer side of the receiving wire 4, and the buckling ring 5c is installed on the lower surface of the anti-interference mechanism 5b and connected through electric welding.

As shown in fig. 3-4, the point-surface reinforcing structure 5a includes a fixed sleeve 5a1, a movable button 5a2, an expanding rod 5a3, a pushing plate 5a4, and a limiting spring 5a5, the expanding rod 5a3 has ten expanding rods, and the upper ends of the expanding rods are respectively connected with the fixed sleeve 5a1 through the movable buttons 5a2 in a uniform and equidistant manner, the lower end of the expanding rod 5a3 is connected with the pushing plate 5a4 through buckling, the pushing plate 5a4 is installed below the fixed sleeve 5a1 and connected with the receiving line 4 through the limiting spring 5a5, which is favorable for achieving effective adjustment signal reception.

As shown in fig. 3-4, the inside of the expanding rod 5a3 is provided with a cable connected with the receiving wire 4, and the outside material of the expanding rod 5a3 is consistent with the receiving wire 4, which is beneficial to realizing enhanced signal reception.

As shown in fig. 4, ten fastening grooves g1 are formed in the surface of the push plate 5a4 and are uniformly and equidistantly installed, the fastening grooves g1 are connected with the expanding rod 5a3 in a fastening manner, and a retaining ring g2 is formed in the outer side surface of the push plate 5a4 and is of an integrated structure, so that the receiving line 4 can be adjusted, and the interface receiving range of the push plate can be expanded.

In summary, the push disc 5a4 and the expanding rod 5a3 are provided to cooperate with each other to form a point-surface structure when the receiving line 4 is adjusted, so as to enlarge the cross-sectional area for receiving signals and avoid increasing the signals by adding a plurality of antennas.

The specific realization principle is as follows: when the signal receiving device is used, when the signal receiving is poor, the push disc 5a4 is moved upwards manually to enable the push disc to be close to the fixed sleeve 5a1, the expanding rod 5a3 slides outwards at one end connected with the expanding rod under the action of the movement of the push disc 5a4, and is installed in a transverse straight line, so that the cross-sectional area of the receiving line 4 is enlarged, the receiving range of the receiving line 4 to the signal is enlarged through a point-surface structure, the signal receiving intensity of the receiving line 4 can be rapidly enhanced while the signal source direction of the receiving line 4 is adjusted in a moving mode, and meanwhile, the fact that a plurality of receiving antennas are installed on the surface of a receiver when the traditional signal receiving is enhanced is avoided.

The embodiment aims to solve the problem that when the signal receiving strength needs to be enhanced due to poor signal, the traditional method is to add a plurality of receiving antennas on a receiver to enhance the signal receiving, along with the increase of the receiving antennas, the surface of the receiver is easy to collide with each other due to large load, so that the use cost is increased and the reverse effect is achieved.

Second embodiment:

as shown in fig. 1, fig. 2, fig. 5, and fig. 6, the present invention provides a technical solution for a receiver capable of adjusting a D2D communication technology in signal source 5G communication:

as shown in fig. 1-2, a receiver for D2D communication technology in adjustable signal source 5G communication, the structure of the device comprises a device main body 1, a fixed base 2, a control panel 3, a receiving wire 4 and a signal enhancement device 5, the fixed base 2 is arranged on the lower surface of the equipment main body 1 and is connected with the lower surface of the equipment main body 1 through electric welding, the control panel 3 is embedded on the front surface of the equipment main body 1 and is connected with the front surface of the equipment main body through electric welding, the receiving wire 4 is arranged at the right side of the rear surface of the equipment main body 1 and is electrically connected, the signal enhancement device 5 is arranged at the outer surface of the receiving wire 4 and is connected with the receiving wire 4 through buckling, the signal enhancement device 5 comprises a point-surface reinforcing structure 5a, an anti-interference mechanism 5b and a buckling ring 5c, the anti-interference mechanism 5b is installed inside the lower surface of the point surface reinforcing structure 5a and attached to the outer side of the receiving wire 4, and the buckling ring 5c is installed on the lower surface of the anti-interference mechanism 5b and connected through electric welding.

As shown in fig. 5, the interference preventing mechanism 5b includes an adsorption arc ring 5b1, two cleaning holes 5b2, a rotating ring 5b3, a connecting plate 5b4, and a stroking plate 5b5, where the adsorption arc ring 5b1 is provided with two and is symmetrically installed and connected by electric welding, the cleaning holes 5b2 are provided with four and are respectively installed on the surface of the adsorption arc ring 5b1 in pairs, the cleaning holes 5b2 and the adsorption arc ring 5b1 are integrated, the rotating ring 5b3 is provided on the inner side wall of the adsorption arc ring 5b1 and is connected by buckling, the connecting plate 5b4 is provided with two and is symmetrically connected with the rotating ring 5b3, and the stroking plate 5b5 is provided with two and is connected with the connecting plate 5b4 by electric welding, which is beneficial to realizing interference preventing processing on the take-up wire 4 to enhance signal reception.

As shown in fig. 5, the upper surface of the adsorption arc ring 5b1 is provided with a dense mesh plate x made of an insulating material, which is beneficial to further adsorption treatment of the ionized ions removed by the stroking plate 5b 5.

As shown in fig. 5, the connection plate 5b4 is connected to the rotating ring 5b3 in an adjustable sliding connection, which facilitates the autonomous adjustment of the abutting surface according to the diameter of the receiving wire 4.

As shown in fig. 6, the stroking plate 5b5 is made of an insulating material and has a height consistent with that of the receiving wire 4, the middle part of the stroking plate 5b5 is provided with a rectangular frame 5b51 and is of an integrated structure, and the surface of the stroking plate 5b5) is provided with a cotton layer 5b52 and is connected with the cotton layer by gluing, so that the cleaning effect on the electric ions attached to the surface of the receiving wire 4 exposed outside for a long time can be realized, and the interference effect on signal receiving can be avoided.

In conclusion, the anti-interference mechanism 5b is arranged to perform stroking and clearing treatment on the free solidified electric ions on the surface of the take-up wire 4, so that the magnetic interference effect on signal receiving is avoided.

The specific realization principle is as follows: the connecting plate 5b4 and the rotating ring 5b3 are movably adjustable, the stroking plate 5b5 is adjusted to a position where the stroking plate is attached to the receiving line 4, the stroking plate 5b5 rotates along with the rotating ring 5b3, the connecting plate 5b4 synchronously rotates along with the rotating ring, so that the outer surface of the receiving line 4 is attached and stroked, the surface of the stroking plate 5b5 is wiped and cleaned under the action of the cotton layer 5b52, solidified ions attached to the surface of the stroking plate are stripped, and the stripped solidified ions are adsorbed by the dense screen plate x under the action of the adsorbing arc ring 5b1, so that the stripped solidified ions are prevented from being attached to the surface of the receiving line 4 again, and the signal receiving of the receiving line 4 is influenced again.

In order to solve the problem that the receiving wire is exposed in the air for a long time, light free solidified ions contained in the air can be directly attached to the surface of the receiving wire, and magnetic interference effect is generated when a signal source receives signals under the characteristic effect of the receiving wire, so that the terminal equipment has the effect of snowflakes or fragments.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (3)

1. The utility model provides an adjustable D2D receiver for communication technology in signal source 5G communication, its structure includes equipment main part (1), unable adjustment base (2), control panel (3), receiver line (4), signal amplification device (5), its characterized in that: the fixed base (2) is arranged on the lower surface of the equipment main body (1) and connected with the lower surface of the equipment main body (1) through electric welding, the control panel (3) is embedded on the front surface of the equipment main body (1) and connected with the front surface of the equipment main body through electric welding, the receiving wire (4) is arranged on the right side of the rear surface of the equipment main body (1) and electrically connected with the right side of the rear surface of the equipment main body, and the signal strengthening device (5) is arranged on the outer surface;

the signal enhancement device (5) comprises a point-surface reinforcing structure (5 a), an anti-interference mechanism (5 b) and a buckling ring (5 c), wherein the anti-interference mechanism (5 b) is installed inside the lower surface of the point-surface reinforcing structure (5 a) and is attached to the outer side of the receiving wire (4), and the buckling ring (5 c) is installed on the lower surface of the anti-interference mechanism (5 b) and is connected with the anti-interference mechanism through electric welding;

the point-surface reinforcing structure (5 a) comprises a fixed sleeve (5 a 1), a movable button (5 a 2), an expanding rod (5 a 3), a push disc (5 a 4) and a limiting spring (5 a 5), wherein ten expanding rods (5 a 3) are arranged, the upper ends of the expanding rods are respectively connected with the fixed sleeve (5 a 1) through the movable button (5 a 2) in a uniform and equidistant mode, the lower end of each expanding rod (5 a 3) is connected with the push disc (5 a 4) in a buckling mode, the push disc (5 a 4) is installed below the fixed sleeve (5 a 1) and connected with a receiving line (4) through the limiting spring (5 a 5), cables connected with the receiving line (4) are arranged inside the expanding rods (5 a 3), and the external materials of the expanding rods (5 a 3) are consistent with the receiving line (4);

the surface of the push disc (5 a 4) is provided with ten buckling grooves (g 1) which are uniformly and equidistantly arranged, the buckling grooves (g 1) are connected with the expanding rod (5 a 3) in a buckling mode, and the outer side surface of the push disc (5 a 4) is provided with a retaining ring (g 2) and is of an integrated structure;

the anti-interference mechanism (5 b) comprises an adsorption arc ring (5 b 1), two cleaning holes (5 b 2), a rotating ring (5 b 3), a connecting plate (5 b 4) and a stroking plate (5 b5), wherein the adsorption arc ring (5 b 1) is provided with two cleaning holes which are symmetrically arranged and connected through electric welding, the cleaning holes (5 b 2) are provided with four cleaning holes which are two by two and are arranged on the surface of the adsorption arc ring (5 b 1), the cleaning holes (5 b 2) and the adsorption arc ring (5 b 1) are of an integrated structure, the rotating ring (5 b 3) is arranged on the inner side wall of the adsorption arc ring (5 b 1) and connected through buckling, the connecting plate (5 b 4) is provided with two cleaning holes which are symmetrically connected with the rotating ring (5 b 3), and the stroking plate (5 b5) is provided with two cleaning holes which are connected with the connecting plate (5 b 4) through electric welding;

the wire-receiving device is characterized in that the stroking plate (5 b5) is made of an insulating material and is as high as the receiving wire (4), the middle of the stroking plate (5 b5) is provided with a rectangular frame (5 b 51) and is of an integrated structure, and the surface of the stroking plate (5 b5) is provided with a cotton layer (5 b 52) and is connected with the cotton layer through gluing.

2. The receiver of claim 1, wherein the receiver is used for D2D communication technology in 5G communication with an adjustable signal source, and comprises: the upper surface of the adsorption arc ring (5 b 1) is provided with a dense screen (x) which is made of insulating material.

3. The receiver of claim 1, wherein the receiver is used for D2D communication technology in 5G communication with an adjustable signal source, and comprises: the connecting plate (5 b 4) is connected with the rotating ring (5 b 3) in an adjustable sliding way.

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