CN113015030B - 5G communication base station - Google Patents

Abstract

The invention discloses a communication base station, which structurally comprises a machine body, a fixed strip, a signal transmitter and a connecting plate, wherein a 5G signal is transmitted to the outside through the signal transmitter, when the base station is installed in an environment with more ice and snow, the weight of the ice and snow on a signal rod is continuously increased due to the gradual accumulation of the ice and snow, the signal rod is continuously pressed to cause the outer shell to rotate, the outer shell and a sliding rod to generate relative displacement, when the sliding rod moves to the limit position of a reverse thrust groove, the sliding rod is subjected to rail change, the elastic force stored in a pressing rod is released, the extending rod is quickly lifted up to cause the ice and snow to be greatly shaken off, and after the lifting is stopped, a falling structure can continuously work through inertia to impact an ice layer, the ice layer is crushed through the pressurization of an impact head and simultaneously vibrates to shake off the ice layer, the phenomenon that the signal transmitter is bent and broken due to the excessive accumulation of the ice and snow is effectively avoided, and the normal work of the base station in the ice and snow environment is ensured.

Description

5G communication base station

Technical Field

The invention relates to the field of 5G communication base stations, in particular to a 5G communication base station.

Background

The 5G communication base station is a core device of the 5G network, wireless signals can be released to the outside through the 5G communication base station, and then the wireless signals can be received and connected by the 5G device to form the 5G network, in order to increase the signal coverage range of the 5G communication base station and reduce the influence of ground buildings on the wireless signals, the 5G communication base station is often arranged at a higher place, because the 5G communication base station outputs signals through an antenna which extends outwards, if the 5G communication base station is arranged in a northern place with high altitude, in winter, the 5G communication base station is easy to bend and break due to the fact that water vapor of outside air is condensed into ice crystals to be combined with snowfall of the sky, and the ice crystals cover the antenna of the 5G communication base station, and after the accumulation time is long, the antenna of the 5G communication base station is easy to be subjected to pressure generated by excessive ice and snow, so that the output of the 5G signals is influenced.

Disclosure of Invention

In view of the above problems, the present invention provides a 5G communication base station.

In order to achieve the purpose, the invention is realized by the following technical scheme: A5G communication base station structurally comprises a machine body, a fixing strip, a signal transmitter and a connecting plate, wherein the front side of the machine body is connected with the back side of the fixing strip in a welding mode, the signal transmitter is embedded into the front side of the machine body, and the back side of the connecting plate is fixedly connected with the front side of the machine body in an embedding mode; the signal transmitter comprises a fixed block, a receiving plate, two stabilizing springs and a signal rod, wherein the receiving plate is embedded into the fixed block, the upper surface and the lower surface of the signal rod are fixedly connected with the inner layer of the fixed block through the stabilizing springs, the left side of the signal rod is movably clamped with the right side of the receiving plate, the two stabilizing springs are arranged, and the two stabilizing springs are distributed on the upper surface and the lower surface of the signal rod in a mirror image mode.

Furthermore, the signal rod comprises an extension rod, an outer shell, a reverse thrust groove, a sliding rod, four pressing rods and an inner shaft, the left side of the extension rod is fixedly connected with the outer ring of the outer shell in an embedded mode, the reverse thrust groove and the inner part of the outer shell are integrally formed, the top end of the sliding rod is movably connected with the inner layer of the reverse thrust groove, the left side of the sliding rod is fixedly connected with the inner shaft outer ring in an embedded mode through the pressing rods, and gaps among the four pressing rods are uniformly distributed on the inner shaft outer ring in an annular mode.

Furthermore, stretch out the stick and include adapter sleeve, signal rod, shake the board, get rid of the head, adapter sleeve right side and signal rod left side welded connection, shake off the board bottom surface and inlay firmly with the signal rod skin, get rid of the head left side and inlay firmly with the signal rod right side and be connected, it is equipped with two to shake the board, and two shake the board mirror image distribution of falling and be in the signal rod upper and lower face.

Furthermore, shake off the board and include layer board, shrink frame, compression leg, beat the structure, layer board top surface and shrink frame integrated into one piece, shrink frame inlayer is connected through the compression leg with beat the structure bottom surface and inlay firmly, beat the structure and be equipped with threely, three beat the structure clearance and distribute in the layer board top surface evenly.

Furthermore, the hitting structure comprises a bottom frame, an installation block, bouncing balls and a swinging structure, the bottom frame inner layer is movably clamped with the middle section of the swinging structure through the installation block, the bottom surfaces of the bouncing balls are fixedly embedded in the bottom frame inner layer, the number of the bouncing balls is two, and the two bouncing balls are distributed in the bottom frame inner layer in a mirror mode.

Furthermore, the swing structure includes swivel becket, last swing plate, strikes head, resilience groove, the swivel becket outer loop is connected with last swing plate middle section is inlayed admittedly, strike the head and imbed in last swing plate top surface, resilience groove and last swing plate bottom surface be integrated into one piece, it is equipped with twelve to strike the head, and six a set of mirror image distributions of twelve impact heads are in last swing plate top surface.

Furthermore, the impact head comprises an outer pull ring, an inner pressure frame, an extrusion strip and an impact head, wherein the outer ring of the outer pull ring is fixedly connected with the bottom surface of the impact head through the inner pressure frame, two ends of the extrusion strip are embedded into the inner layer of the inner pressure frame, and the inner layer of the outer pull ring is provided with twelve V-shaped groove structures with uniform gaps.

Furthermore, the impact head comprises a bottom block, a pressure head, a pendulum bob, an impact plate and an impact ball, the bottom surface of the pressure head is connected with the top surface of the bottom block in a welding mode, the bottom of the pendulum bob is movably clamped with the inner layer of the bottom block, two ends of the impact plate are embedded into the inner layer of the bottom block, the outer layer of the impact ball is in mutual contact with the inner layer of the bottom block, and the outer layer of the bottom block is provided with fourteen sharpened triangular protruding structures.

Advantageous effects

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

when the base station is installed in an environment with more ice and snow, the weight of the ice and snow on the signal rod is continuously increased due to the gradual accumulation of the ice and snow, the signal rod is continuously pressed to cause the outer shell to rotate, the sliding rod is further relatively displaced, when the sliding rod moves to the limit position of the reverse thrust groove, the sliding rod is caused to change the track, the elastic force stored in the pressing rod is released, the extending rod is rapidly lifted, the ice and snow are greatly shaken off, meanwhile, after the lifting is stopped, the falling structure can continuously work through inertia to impact the ice layer, the impact head is used for pressing and breaking the ice layer and simultaneously generate vibration to shake off the ice layer, the phenomenon that the signal transmitter is bent and broken due to the excessive accumulation of the ice and snow is effectively avoided, and the normal work of the base station in the ice and snow environment is ensured.

Drawings

Fig. 1 is a schematic three-dimensional structure diagram of a 5G communication base station according to the present invention.

Fig. 2 is a schematic structural diagram of a top view cross section of the signal transmitter of the present invention.

FIG. 3 is a schematic structural diagram of a front view cross section of a signal rod according to the present invention.

FIG. 4 is a schematic structural view of a front cross-section of an extended rod of the present invention.

Fig. 5 is a schematic structural view of a front cross-section of the shake-off plate of the present invention.

FIG. 6 is a schematic structural view of a front cross-section of the drop structure of the present invention.

Fig. 7 is a schematic structural view of a front section of the swing structure of the present invention.

FIG. 8 is a schematic structural diagram of a front cross section of the impact head of the present invention.

Fig. 9 is a schematic structural view of a front cross section of the impact head of the present invention.

In the figure: the device comprises a machine body-1, a fixed bar-2, a signal transmitter-3, a connecting plate-4, a fixed block-31, a receiving plate-32, a stabilizing spring-33, a signal rod-34, an extending rod-341, an outer shell-342, a reverse thrust groove-343, a sliding rod-344, a compression rod-345, an inner shaft-346, a connecting sleeve-A1, a signal rod-A2, a shaking plate-A3, a swinging head-A4, a supporting plate-A31, a contraction frame-A32, a compression column-A33, a hitting structure-A34, a bottom frame-B1, a mounting block-B2, a reverse bouncing ball-B3, a swinging structure-B4, a rotating ring-B41, an upper swinging plate-B42, an impact head-B43, a rebound groove-B44, an outer pull ring-C1, an inner pressure frame-C2, an extrusion bar-C3, an impact head-C4, a bottom block-C41, a pressure head-C42, a pendulum bob-C43, an impact plate-C44 and a ball-C45.

Detailed Description

The technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings, and it is obvious that the described embodiments are some, but not all embodiments of the present invention, and all other embodiments obtained by a person of ordinary skill in the art based on the embodiments of the present invention without creative efforts belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

The first embodiment is as follows:

referring to fig. 1-6, the embodiments of the present invention are as follows: A5G communication base station structurally comprises a machine body 1, a fixing strip 2, a signal emitter 3 and a connecting plate 4, wherein the front side of the machine body 1 is connected with the back side of the fixing strip 2 in a welding mode, the signal emitter 3 is embedded into the front side of the machine body 1, and the back side of the connecting plate 4 is fixedly connected with the front side of the machine body 1 in an embedding mode; signal transmitter 3 includes fixed block 31, receiving board 32, stabilizing spring 33, signal class stick 34, receiving board 32 imbeds inside fixed block 31, the lower face is connected through stabilizing spring 33 and fixed block 31 inlayer embedment about signal class stick 34, signal class stick 34 left side and receiving board 32 right side activity block, stabilizing spring 33 is equipped with two, and two stabilizing spring 33 mirror image distributions are on signal class stick 34 upper and lower faces, are favorable to making wobbling signal class stick 34 snap-back.

The signal rod 34 includes an extended rod 341, an outer shell 342, a thrust reversal groove 343, a sliding rod 344, a pressure rod 345 and an inner shaft 346, the left side of the extended rod 341 is fixedly connected with the outer ring of the outer shell 342, the thrust reversal groove 343 and the inner part of the outer shell 342 are integrally formed, the top end of the sliding rod 344 is movably connected with the inner layer of the thrust reversal groove 343, the left side of the sliding rod 344 is fixedly connected with the outer ring of the inner shaft 346 through the pressure rod 345, the number of the pressure rods 345 is four, and the four pressure rods 345 are uniformly distributed in the outer ring of the inner shaft 346 in an annular manner with gaps, so that the maximum value of elastic force is increased, and the upward swing is more rapid and powerful.

Wherein, stick 341 is stretched out and is included adapter sleeve A1, signal rod A2, shake off board A3, gets rid of head A4, adapter sleeve A1 right side and signal rod A2 left side welded connection, shake off board A3 bottom surface and inlay admittedly with signal rod A2 skin, get rid of head A4 left side and signal rod A2 right side and inlay admittedly and be connected, shake off board A3 and be equipped with two, two shake off board A3 mirror image distributions in signal rod A2 upper and lower, be favorable to from the top down to destroy the ice layer.

Wherein, shake off board A3 and include layer board A31, shrink frame A32, compression leg A33, beat structure A34, layer board A31 top surface and shrink frame A32 integrated into one piece, shrink frame A32 inlayer is connected through compression leg A33 and beat structure A34 bottom surface embedded solid, beat structure A34 and be equipped with threely, three structure A34 clearance of beating down distributes evenly in layer board A31 top surface, is favorable to increasing the area of beating ice and snow.

Wherein, structure A34 of driping down includes underframe B1, installation piece B2, bounce ball B3, swing structure B4, underframe B1 inlayer is through installation piece B2 and swing structure B4 middle section activity block, bounce ball B3 bottom surface is inlayed admittedly in underframe B1 inlayer, bounce ball B3 is equipped with two, and two bounce balls B3 mirror image distribution are in underframe B1 inlayer, are favorable to carrying out the bounce to swing structure B4 from both sides, keep wobbling balance.

Based on the above embodiment, the specific working principle is as follows: the base station is locked at a required position through the fixing strip 2, a wired signal source is accessed through the connecting plate 4, wireless signals are output to the outside through the signal emitter 3, when the base station is used in a northern cold environment, ice and snow can be accumulated on the signal rod 34 of the signal emitter 3, the signal rod 34 can move downwards to press the stabilizing spring 33 and twist the outer shell 342, the sliding rod 344 can slide in the reverse pushing groove 343 and press the pressing rod 345 to generate elasticity, when the sliding rod 344 slides to one end of the reverse pushing groove 343, the sliding rod 344 can extend outwards and lose constraint, the pressing rod 345 releases the elasticity to jack the sliding rod 345 quickly, the extending rod 341 is thrown upwards to shake the snow accumulated on the shake-off plate A3, meanwhile, in the process of upward throwing, the small ball structure in the shake-off head A4 impacts the inside the shake-off head A4 to generate vibration enhanced shake-off effect, and after the limit is thrown, the shake-off plate A3 can move upwards due to cause the shake-off plate A3, the shake-off structure A34 moves upwards, the shake-off structure A34 can impact the shake-off structure B and the ice layer A34 and impact the shake-off structure B repeatedly, and the ice layer A3 and the ice layer B can impact upwards to break the ice layer B repeatedly.

The second embodiment:

referring to fig. 7-9, the embodiment of the present invention is as follows: swing structure B4 includes swivel B41, goes up balance B42, strikes head B43, resilience groove B44, swivel B41 outer loop and last balance B42 middle section embedded connection, it imbeds in last balance B42 top surface to strike head B43, resilience groove B44 and last balance B42 bottom surface be integrated into one piece, it is equipped with twelve to strike head B43, and twelve six a set of mirror image distributions of impact head B43 are in last balance B42 top surface, are favorable to increasing the intensity of assaulting, make the ice sheet destroyed to littleer piece.

The impact head B43 comprises an outer pull ring C1, an inner pressing frame C2, an extrusion strip C3 and an impact head C4, the outer ring of the outer pull ring C1 is fixedly connected with the bottom surface of the impact head C4 through the inner pressing frame C2, the two ends of the extrusion strip C3 are embedded into the inner layer of the inner pressing frame C2, the inner layer of the outer pull ring C1 is provided with twelve V-shaped groove structures with uniform gaps, and the rapid deformation is facilitated when the outer pull ring C1 is thrown out, so that the resistance is reduced.

The impact head C4 comprises a bottom block C41, a pressure head C42, a pendulum bob C43, an impact plate C44 and an impact ball C45, the bottom surface of the pressure head C42 is connected with the top surface of the bottom block C41 in a welding manner, the bottom of the pendulum bob C43 is movably clamped with the inner layer of the bottom block C41, two ends of the impact plate C44 are embedded into the inner layer of the bottom block C41, the outer layer of the impact ball C45 is in mutual contact with the inner layer of the bottom block C41, and the outer layer of the bottom block C41 is provided with fourteen sharp triangular convex structures, so that an additional cutting effect can be generated after the ice layer is inserted.

Based on the above embodiment, the specific working principle is as follows: when the swing structure B4 is subjected to inertia, the upper swing plate B42 is caused to rotate upwards along the rotating ring B41, the impact head B43 directly impacts on the ice layer, after the impact head B43 moves upwards to the limit, the impact head B43 continues to move upwards due to inertia, the outer pull ring is stretched, after the impact head C4 contacts the ice layer, the impact head C4 is subjected to resistance of a hard ice layer, the inner pressing frame C2 is pressed to generate inward deformation and press the pressing strip C3, the pressing strip C3 simultaneously generates outward expanding elastic force and is applied to the inner pressing frame C2 to expand the inner pressing frame towards two sides, the upward pushing force of the impact head C4 is increased, the inertia force and the upward pushing force generated by the inner pressing frame C2 are concentrated on one point of the ice layer through the pressure head C42 of the impact head C4, the unit pressure of a single point is increased sharply, the ice layer can be punctured, meanwhile, the pendulum mass C43 swings due to rotate along the bottom to impact on the impact plate C44, the surface of the ice layer is broken through the pressure head C45, the vibration ball is inserted into the ice layer, the ice layer is crushed ice layer, and the ice layer is crushed by the base station, and the ice layer is crushed by the base station, and the ice block C41.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

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.

Claims (1)

1. The utility model provides a 5G communication base station, its structure includes organism (1), fixed strip (2), signal transmitter (3), fishplate bar (4), its characterized in that:

the front surface of the machine body (1) is connected with the back surface of the fixing strip (2) in a welding mode, the signal emitter (3) is embedded into the front surface of the machine body (1), and the back surface of the connecting plate (4) is fixedly connected with the front surface of the machine body (1);

the signal emitter (3) comprises a fixed block (31), a receiving plate (32), a stabilizing spring (33) and a signal rod (34), wherein the receiving plate (32) is embedded in the fixed block (31), the upper surface and the lower surface of the signal rod (34) are fixedly connected with the inner layer of the fixed block (31) through the stabilizing spring (33), and the left side of the signal rod (34) is movably clamped with the right side of the receiving plate (32);

the signal rod (34) comprises an extension rod (341), an outer shell (342), a reverse thrust groove (343), a sliding rod (344), a pressure rod (345) and an inner shaft (346), the left side of the extension rod (341) is fixedly embedded with the outer ring of the outer shell (342), the reverse thrust groove (343) and the inner part of the outer shell (342) are integrally formed, the top end of the sliding rod (344) is movably connected with the inner layer of the reverse thrust groove (343), and the left side of the sliding rod (344) is fixedly embedded with the outer ring of the inner shaft (346) through the pressure rod (345);

the extension rod (341) comprises a connecting sleeve (A1), a signal rod (A2), a shaking plate (A3) and a swinging head (A4), the right side of the connecting sleeve (A1) is welded and connected with the left side of the signal rod (A2), the bottom surface of the shaking plate (A3) is fixedly embedded in the outer layer of the signal rod (A2), and the left side of the swinging head (A4) is fixedly embedded and connected with the right side of the signal rod (A2);

the shaking-down plate (A3) comprises a supporting plate (A31), a contraction frame (A32), a pressing column (A33) and a dropping structure (A34), wherein the top surface of the supporting plate (A31) and the contraction frame (A32) are integrally formed, and the inner layer of the contraction frame (A32) is fixedly embedded and connected with the bottom surface of the dropping structure (A34) through the pressing column (A33);

the falling structure (A34) comprises a bottom frame (B1), an installation block (B2), a bounce ball (B3) and a swing structure (B4), wherein the inner layer of the bottom frame (B1) is movably clamped with the middle section of the swing structure (B4) through the installation block (B2), and the bottom surface of the bounce ball (B3) is embedded and fixed in the inner layer of the bottom frame (B1);

the swing structure (B4) comprises a rotating ring (B41), an upper swing plate (B42), an impact head (B43) and a rebound groove (B44), the outer ring of the rotating ring (B41) is fixedly connected with the middle section of the upper swing plate (B42), the impact head (B43) is embedded into the top surface of the upper swing plate (B42), and the rebound groove (B44) and the bottom surface of the upper swing plate (B42) are integrally formed;

the impact head (B43) comprises an outer pull ring (C1), an inner pressure frame (C2), an extrusion strip (C3) and an impact head (C4), the outer ring of the outer pull ring (C1) is fixedly connected with the bottom surface of the impact head (C4) through the inner pressure frame (C2), and two ends of the extrusion strip (C3) are embedded into the inner layer of the inner pressure frame (C2);

the impact head (C4) comprises a bottom block (C41), a pressure head (C42), a pendulum bob (C43), an impact plate (C44) and an impact ball (C45), wherein the bottom surface of the pressure head (C42) is connected with the top surface of the bottom block (C41) in a welding mode, the bottom of the pendulum bob (C43) is movably clamped with the inner layer of the bottom block (C41), two ends of the impact plate (C44) are embedded into the inner layer of the bottom block (C41), and the outer layer of the impact ball (C45) is in mutual contact with the inner layer of the bottom block (C41).

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