CN112436262B - Split assembly modular support device for enhancing base station height - Google Patents

Abstract

The invention discloses a split assembly modular support device for enhancing the height of a base station, which comprises an antenna frame and is characterized in that: the antenna comprises an antenna frame, wherein a wave-shaped groove is formed in the antenna frame, a transmitting core body is arranged in the wave-shaped groove in a sliding mode, a positioning belt is correspondingly arranged at the middle of the antenna frame, a hydraulic adjusting device is arranged in the positioning belt, a magnetic fluid balancing device is arranged at the bottom of the wave-shaped groove, a middle runner, an outer runner and an inner runner are arranged in the wave-shaped groove, a magnetic shielding net is arranged in the outer runner, a magnetic dispersing net is arranged in the inner runner, an intermediate shaft is connected between the magnetic shielding net and the magnetic shielding net, blocking balls are correspondingly arranged at two ends of the middle runner, the outer runner and the inner runner are inclined planes, one ends of the outer runner and one end of the inner runner are communicated with the middle runner, and the antenna has the characteristics of self-adjusting frequency band and high practicability.

Description

Split assembly modular support device for enhancing base station height

Technical Field

The invention relates to the technical field of a modularized support, in particular to a split assembly modularized support device for enhancing the height of a base station.

Background

A base station is an ac medium platform used by people to communicate. When the communication base station is temporarily adopted in mountain areas and the like, the communication base station needs to be supported by the modularized support device. Different kinds of antennas are arranged on the base station to transmit signals in different frequency bands. The magnetofluid technology is widely applied to sound generating units of the transmitting cores of all base stations, and is suitable for various modularized base stations due to flexible shape characteristics.

The existing base station often needs to face communication of a plurality of frequency bands, and in order to achieve the strongest propagation effect, the optimal frequency band is adjusted by manual adjustment or manual disassembly and assembly of the antenna, the adjustment process is time-consuming and labor-consuming, and the practicability is poor; meanwhile, the existing magnetic fluid sounding unit is easy to generate magnetism gathering and demagnetizing phenomena due to modularized repeated disassembly and transportation, so that the magnetic fluid is disordered, and sounding effect is affected. Therefore, it is desirable to design a split-assembled module support device for enhancing the elevation of a base station that is self-adjusting in antenna frequency band and practical.

Disclosure of Invention

The present invention is directed to a split assembled module support device for enhancing the height of a base station, which solves the above-mentioned problems.

In order to solve the technical problems, the invention provides the following technical scheme: a components of a whole that can function independently equipment module support device for strengthening base station height, includes the antenna frame, its characterized in that: the antenna frame is characterized in that a wave groove is formed in the antenna frame, a transmitting core body is arranged in the wave groove in a sliding mode, a positioning belt is correspondingly arranged at the middle of the antenna frame, rollers are arranged at the bottom of the transmitting core body, a hydraulic adjusting device is arranged in the positioning belt, a magnetic fluid balancing device is arranged at the bottom of the wave groove, a middle runner, an outer runner and an inner runner are arranged in the wave groove, a magnetism interception net is arranged in the outer runner, a magnetism scattering net is arranged in the inner runner, an intermediate shaft is connected between the magnetism interception net and the magnetism interception net, blocking balls are correspondingly arranged at two ends of the middle runner, the outer runner and the inner runner are inclined planes, one ends of the outer runner and one end of the inner runner are communicated with the middle runner, and the antenna frame is in threaded connection with a vertical rod.

According to the technical scheme, hydraulic pressure adjusting device is including evenly seting up the hydraulic pressure cavity in locating belt one side, hydraulic pressure cavity's inside slip is provided with connecting rod one, connecting rod one's one end articulates there is trapezoidal piece, one side of antenna frame evenly is provided with the contact pole, trapezoidal piece contacts with the bottom of contact pole, one side of connecting rod one is provided with logical liquid device, two be connected with the check valve between the hydraulic pressure cavity.

According to the technical scheme, the chute is correspondingly formed in two sides of the trapezoid block, the L-shaped frame is connected to the inside of the chute in a sliding mode, the friction wheel is rotatably installed in the middle of the L-shaped frame, one end of the friction wheel is connected with external torque, and unidirectional ratchets are uniformly arranged on the outer wall of the friction wheel.

According to the technical scheme, the liquid passing device comprises a temporary storage shell, an intermediate plate is arranged in the temporary storage shell in a rotating mode, the intermediate plate separates the temporary storage shell into a liquid inlet end and a liquid outlet end, a connecting shaft is fixedly welded to the top of the intermediate plate, a sealing block is connected to the top of the connecting shaft, and a connecting rod II is connected to the top of the sealing block in a rotating mode.

According to the technical scheme, the middle part of antenna frame is provided with vertical pole, be provided with signal feedback device on the vertical pole, signal feedback device includes receiving seat and mount pad, one side of receiving seat evenly is provided with the signal receiving piece, one side of mount pad evenly is provided with the transmitting piece, the outer wall of vertical pole evenly is provided with big magnetic ring and little magnetic ring at the interval, one side of big magnetic ring and little magnetic ring is provided with the edulcoration stick.

According to the technical scheme, one side of the receiving seat protrudes outwards, the inside of the receiving seat is of a hollow structure, a flexible ring body II is arranged inside the protruding side of the receiving seat, a trapezoid inner groove is formed in the receiving seat, and a flexible ring body I is arranged inside the trapezoid inner groove.

According to the technical scheme, horn-shaped openings are formed in the two ends of the middle flow channel, and the blocking balls are made of magnetic materials.

According to the technical scheme, the distance between the contact rods is equal to the distance between the trapezoid blocks.

According to the technical scheme, the magnetic interception net and the magnetic dispersion net are both composed of the interception net and the friction body, the vibration motor is arranged on the friction body, and the cross section of the mesh of the interception net is trapezoidal.

According to the technical scheme, the top and the bottom of the positioning belt are respectively provided with a bending part, and the two bending parts are connected with the two positioning belts.

Compared with the prior art, the invention has the following beneficial effects: according to the invention, the height of each frequency band antenna can be adjusted in a hydraulic driving mode by arranging the hydraulic adjusting device, so that the required antenna is adjusted to an optimal position, and the most suitable signal output is achieved; through setting up outer runner, well runner and interior runner in the antenna frame, can utilize the inertia that antenna frame rotation lift produced to shunt and collect the magnetic current body inside the antenna according to density, later turn into the magnetic current body of density uniformity.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the hydraulic pressure regulating device of the present invention;

FIG. 3 is a schematic view of a temporary housing according to the present invention;

FIG. 4 is a schematic diagram of a signal feedback device according to the present invention;

FIG. 5 is a schematic cross-sectional view of a receptacle of the present invention;

FIG. 6 is a schematic diagram of a wave-shaped groove structure of the present invention;

in the figure: 1. a positioning belt; 12. a wave-shaped groove; 2. an antenna frame; 21. a contact lever; 22. an emissive core; 4. a hydraulic pressure adjusting device; 5. a signal feedback device; 31. a large magnetic ring; 32. a small magnetic ring; 3. a vertical rod; 43. a friction wheel; 431. an L-shaped frame; 441. a trapezoid block; 4411. a chute; 45. a one-way valve; 46. a first connecting rod; 471. a hydraulic chamber; 48. a second connecting rod; 49. a temporary storage shell; 491. an arc-shaped groove; 492. a sealing block; 493. a connecting shaft; 494. an intermediate plate; 51. a receiving seat; 511. a signal receiving sheet; 512. a first flexible ring body; 513. a flexible ring body II; 52. a trash removal rod; 53. a transmitting seat; 531. a transmitting sheet; 121. a middle runner; 122. an outer flow passage; 123. an inner flow passage; 124. a blocking ball; 125. a magnetic interception net; 126. a magnetic dispersion net.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-6, the present invention provides the following technical solutions: a split assembly modular support device for enhancing the height of a base station comprises an antenna frame 2, wherein a wave-shaped groove 12 is formed in the antenna frame 2, a transmitting core 22 is slidably arranged in the wave-shaped groove 12, a positioning belt 1 is correspondingly arranged in the middle of the antenna frame 2, rollers are arranged at the bottom of the transmitting core 22, a hydraulic adjusting device 4 is arranged in the positioning belt 1, a magnetic fluid balancing device is arranged at the bottom of the wave-shaped groove 12, a middle runner 121, an outer runner 122 and an inner runner 123 are arranged in the wave-shaped groove 12, a magnetic blocking net 125 is arranged in the outer runner 122, a magnetic dispersing net 126 is arranged in the inner runner 123, an intermediate shaft is connected between the magnetic blocking net 125 and the magnetic blocking net 125, blocking balls 124 are correspondingly arranged at two ends of the middle runner 121, the outer runner 122 and the inner runner 123 are inclined planes, one ends of the outer runner 122 and the inner runner 123 are communicated with the middle runner 121, the antenna frame 2 is in threaded connection with the vertical rod 3, when the antenna frame 2 rotates, magnetic fluid in the antenna frame 2 is separated due to density, the blocking ball 124 is separated from the orifice of the middle runner 121, the magnetic fluid can flow out of the middle runner 121, the concentrated magnetic fluid with higher density is thrown into the outer runner 122, the demagnetizing fluid with lower density is thrown into the inner runner 123, the magnetic blocking net 125 is used for blocking the flow passage into blocky magnets, the density of the magnetic fluid is reduced, the magnetic dispersing net 126 is used for dispersing the blocky magnets in the flow passage into particles with normal size by utilizing hydraulic force, when the magnetic fluid on the magnetic blocking net 125 is excessively accumulated, the middle shaft is rotated, so that the positions of the magnetic blocking net 125 and the magnetic dispersing net 126 are reversed, the blocky magnets remained on the magnetic blocking net 125 are flushed in particles to be dispersed into the magnetic fluid again, the reassignment of the density of the magnetic fluid is realized, because the blocking balls 124 are respectively positioned at two ends, the liquid outlet directions are opposite when the magnetic screen 125 and the magnetic screen 126 rotate clockwise and anticlockwise, so that backwashing can be realized on the magnetic screen 125 and the magnetic screen 126 when liquid is reversely communicated, and refractory magnetic impurities are prevented from being deposited on the filter screen;

the hydraulic adjusting device 4 comprises hydraulic chambers 471 uniformly arranged on one side of the positioning belt 1, a first connecting rod 46 is slidably arranged in the hydraulic chambers 471, one end of the first connecting rod 46 is hinged with a trapezoid block 441, one side of the antenna frame 2 is uniformly provided with a contact rod 21, the trapezoid block 441 is contacted with the bottom of the contact rod 21, one side of the first connecting rod 46 is provided with a liquid passing device, a one-way valve 45 is connected between the two hydraulic chambers 471, when the position of the antenna frame 2 does not need to be switched, each trapezoid block 441 is in a middle position, the pressure of the hydraulic chamber 471 just keeps the middle position, the antenna frame 2 can be prevented from falling, when the position needs to be switched, liquid is discharged from the lower hydraulic chamber 471 to each hydraulic chamber 471 above through the one-way valve 15, the lower hydraulic chamber 471 is emptied to supplement each chamber above, because the higher the pressure of the liquid is, the lower liquid pressure chamber 471 is gradually decreased, wherein the liquid level of the lower liquid pressure chamber adjacent to the lower liquid pressure chamber 471 is changed the most, at this time, the upper ladder-shaped block 441 is moved outwards, the position of the antenna frame 2 thereon is not changed, when the first connecting rod 46 moves to the terminal, the liquid passing device is conducted to enable the liquid of the upper liquid pressure chamber 471 to flow into the liquid passing device, the liquid of the liquid passing device is supplied when the lower ladder-shaped block 441 is moved outwards, when the retraction of the upper ladder-shaped block 441 is completed, the antenna frame 2 thereon falls onto the lower ladder-shaped block 441, then the upper liquid pressure chamber 471 is supplied with the liquid through the liquid passing devices adjacent to each other, so that the upper antenna frame 2 orderly falls onto the lower ladder-shaped block 441, and thus, the intermittent transmission is realized by the liquid, after the lower trapezoid blocks 441 are retracted and ejected to put down the antenna frame 2, the upper trapezoid blocks 441 from near to far are sequentially retracted and ejected by utilizing hydraulic force, so that the antenna frame 2 is sequentially put down, and the antenna switching process is stable;

the two sides of the trapezoid block 441 are correspondingly provided with the sliding grooves 4411, the inside of the sliding grooves 4411 is connected with the L-shaped frame 431 in a sliding manner, the middle part of the L-shaped frame 431 is rotatably provided with the friction wheel 43, one end of the friction wheel 43 is connected with external torque, the outer wall of the friction wheel 43 is uniformly provided with one-way ratchets, when the antenna frame 2 is put down, the friction wheel 43 is rotated, the friction force caused by one-way ratchets on one side of the friction wheel is reduced, the impact force of the antenna frame 2 can be obviously reduced, the impact force is smoothed to each falling stage, the phenomenon that the magnetic fluid medium in the inside is subjected to larger impact is prevented from being uneven is obviously improved, the running stability of the device is obviously improved, when the height of the antenna frame 2 needs to be finely adjusted, the friction wheel 43 needs to be rotated, the antenna frame 2 can be driven to be lifted to realize the height adjustment, and meanwhile, the L-shaped frame 431 can slide downwards, the friction wheel 43 moves downwards, when the antenna frame 2 above falls down to the upper part, the friction wheel 43 is extruded to the two sides, the impact force is converted into transverse expansion force, and the falling impact force is better counteracted;

the liquid passing device comprises a temporary storage shell 49, a middle plate 494 is rotatably arranged in the temporary storage shell 49, the middle plate 494 divides the temporary storage shell 49 into a liquid inlet end and a liquid outlet end, a connecting shaft 493 is fixedly welded at the top of the middle plate 494, a sealing block 492 is connected to the top of the connecting shaft 493, a connecting rod II 48 is rotatably connected to the top of the sealing block 492, when one end of the connecting rod I46 moves to a proper position, the connecting shaft 493 drives the middle plate 494 to rotate, at the moment, a lower hydraulic chamber 471 and an upper hydraulic chamber are mutually communicated, liquid is temporarily stored in a one-way valve 45, and when the connecting rod I46 returns, one liquid temporary storage chamber is compressed, the liquid is pressed into the lower hydraulic chamber 471, so that temporary storage of the liquid is realized, the liquid is conveniently realized through a mechanical mode, and components such as a complex reversing valve are not needed, and the cost is saved;

the middle part of the antenna frame 2 is provided with a vertical rod 3, the vertical rod 3 is provided with a signal feedback device 5, the signal feedback device 5 comprises a receiving seat 51 and a transmitting seat 53, one side of the receiving seat 51 is uniformly provided with a signal receiving sheet 511, one side of the transmitting seat 53 is uniformly provided with a transmitting sheet 531, the outer wall of the vertical rod 3 is uniformly provided with a large magnetic ring 31 and a small magnetic ring 32 at intervals, one side of the large magnetic ring 31 and one side of the small magnetic ring 32 are provided with a trash removing rod 52, the receiving seat 51 and the transmitting seat 53 are used for receiving a transmitted signal and a signal fed back from a terminal, the large magnetic ring 31 and the small magnetic ring 32 are used for attracting the trash removing rod 52, and the trash removing rod 52 is used for removing the signal;

one side of the receiving seat 51 protrudes outwards, the inside of the receiving seat is of a hollow structure, a flexible ring body II 513 is arranged in the protruding side of the receiving seat 51, a trapezoid inner groove is formed in the receiving seat 51, a flexible ring body I512 is arranged in the trapezoid inner groove, and the flexible ring body II 513 and the flexible ring body I512 are used for reducing friction force between the receiving seat 51 and the vertical rod 3;

the two ends of the middle runner 121 are provided with horn-shaped openings, the blocking balls 124 are made of magnetic materials, the horn-shaped openings are used for facilitating the outflow of magnetic fluid, the blocking balls 124 are made of magnetic materials and can be attracted on magnetic fluid to prevent the leakage of the magnetic fluid when the magnetic fluid is not subjected to inertia force, and the magnetic fluid can be separated from the openings when the magnetic fluid is subjected to inertia force, so that the outflow of liquid is facilitated;

the distance between the contact bars 21 is equal to the distance between the trapezoid blocks 441, so that the distance is the same after the contact bars 21 are switched, and the contact bars are kept at the most suitable positions to prevent signals from interfering with each other;

the magnetic interception net 125 and the magnetic dispersion net 126 are both composed of an interception net and a friction body, a vibration motor is arranged on the friction body, the cross section of a mesh opening of the interception net is trapezoid, when the interception net 125 starts to intercept, a magnet which is gathered into a block is intercepted on the interception net and is clamped in the trapezoid, the position of the magnet is turned when the interception net is intercepted to a certain degree, the release of magnetic particles can be realized, and magnetic impurities are difficult to remain above the magnet along with the vibration of the vibration motor;

the top and the bottom of locating belt 1 all are provided with the portion of bending, and two locating belt 1 are connected to two portions of bending, and the portion of bending can rise upwards in order to make it form the circulation that goes up and down, can be in reverse when the antenna frame 2 of below descends to the lowest department, is convenient for switch the position of each antenna frame 2 in a flexible way.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. A split assembled modular support device for enhancing the elevation of a base station, comprising an antenna frame (2), characterized in that: a wave groove (12) is formed in the antenna frame (2), a transmitting core (22) is slidably arranged in the wave groove (12), a positioning belt (1) is correspondingly arranged in the middle of the antenna frame (2), rollers are arranged at the bottom of the transmitting core (22), a hydraulic adjusting device (4) is arranged in the positioning belt (1), a magnetic fluid balancing device is arranged at the bottom of the wave groove (12), a middle flow channel (121), an outer flow channel (122) and an inner flow channel (123) are arranged in the wave groove (12), a magnetism blocking net (125) is arranged in the outer flow channel (122), a magnetism scattering net (126) is arranged in the inner flow channel (123), a middle shaft is connected between the magnetism blocking net (125) and the magnetism blocking net (125), blocking balls (124) are correspondingly arranged at two ends of the middle flow channel (121), the outer flow channel (122) and the inner flow channel (123) are inclined planes, and the inner flow channel (122) are communicated with one end of the antenna frame (2) through threads;

the hydraulic pressure adjusting device (4) comprises hydraulic pressure chambers (471) which are uniformly arranged on one side of the positioning belt (1), a first connecting rod (46) is slidably arranged in the hydraulic pressure chambers (471), one end of the first connecting rod (46) is hinged with a trapezoid block (441), one side of the antenna frame (2) is uniformly provided with a contact rod (21), the trapezoid block (441) is contacted with the bottom of the contact rod (21), one side of the first connecting rod (46) is provided with a liquid passing device, and a one-way valve (45) is connected between the two hydraulic pressure chambers (471);

the two sides of the trapezoid block (441) are correspondingly provided with sliding grooves (4411), the inside of each sliding groove (4411) is connected with an L-shaped frame (431) in a sliding mode, a friction wheel (43) is rotatably installed in the middle of each L-shaped frame (431), one end of each friction wheel (43) is connected with external torque, and unidirectional ratchets are uniformly arranged on the outer walls of the friction wheels (43).

2. A split-assembled module support device for enhancing base station height as claimed in claim 1, wherein: the liquid passing device comprises a temporary storage shell (49), a middle plate (494) is arranged in the temporary storage shell (49) in a rotating mode, the middle plate (494) divides the temporary storage shell (49) into a liquid inlet end and a liquid outlet end, a connecting shaft (493) is fixedly welded to the top of the middle plate (494), a sealing block (492) is connected to the top of the connecting shaft (493), and a connecting rod II (48) is connected to the top of the sealing block (492) in a rotating mode.

3. A split-assembled module support device for enhancing base station height as claimed in claim 2, wherein: the antenna frame is characterized in that a vertical rod (3) is arranged in the middle of the antenna frame (2), a signal feedback device (5) is arranged on the vertical rod (3), the signal feedback device (5) comprises a receiving seat (51) and a transmitting seat (53), a signal receiving sheet (511) is uniformly arranged on one side of the receiving seat (51), a transmitting sheet (531) is uniformly arranged on one side of the transmitting seat (53), a large magnetic ring (31) and a small magnetic ring (32) are uniformly arranged on the outer wall of the vertical rod (3) at intervals, and a impurity removing rod (52) is arranged on one side of the large magnetic ring (31) and one side of the small magnetic ring (32).

4. A split-assembled module support device for enhancing base station height as claimed in claim 3, wherein: one side of the receiving seat (51) protrudes outwards, the inside of the receiving seat is of a hollow structure, a flexible ring body II (513) is arranged inside the protruding side of the receiving seat (51), an trapezoid inner groove is formed in the receiving seat (51), and a flexible ring body I (512) is arranged inside the trapezoid inner groove.

5. The split-assembled module support device for enhancing the elevation of a base station of claim 4, wherein: the two ends of the middle flow channel (121) are provided with horn-shaped openings, and the blocking balls (124) are made of magnetic materials.

6. A split-assembled module support device for enhancing base station height as claimed in claim 5, wherein: the distance between the contact bars (21) is equal to the distance between the trapezoidal blocks (441).

7. A split-assembled module support device for enhancing base station height as claimed in claim 6, wherein: the magnetic interception net (125) and the magnetic dispersion net (126) are both composed of an interception net and a friction body, wherein a vibration motor is arranged on the friction body, and the cross section of a mesh hole of the interception net is trapezoid.

8. A split-assembled module support device for enhancing base station height as claimed in claim 7, wherein: the top and the bottom of the locating belt (1) are respectively provided with a bending part, and the two bending parts are connected with the two locating belts (1).

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