CN220667145U - Bionic communication tower - Google Patents

Abstract

The utility model discloses a bionic communication tower, which comprises a base plate, wherein a main shaft rod is fixedly connected to the position of the axis of the upper surface of the base plate, a plurality of extension brackets are fixedly arranged at the top of the main shaft rod in a circumferential arrangement manner, corresponding antenna boxes are fixedly arranged on the outer sides of the extension brackets, and a circular opening sleeve groove is formed in the upper side of the main shaft rod. The device is through the rotation effect of main shaft pole bottom fixed mounting's servo motor output screw rod, can drive servo tightening mechanism's disc cover frame and move at first along circle mouth cover groove, the bionical trunk mechanism of detachable in the synchronous control servo tightening mechanism outside, first extension trunk is expanded and is retrieved, can retrieve the bionical trunk in the outside like retrieving the umbrella under bad weather, make main shaft pole top area of contact diminish, can effectually resist strong wind weather, the bionical tree upside wind-resistant effect that sets up among the effectual prior art of having solved is relatively poor, lead to the problem that the stability of the antenna work of top equipment is not high.

Description

Bionic communication tower

Technical Field

The utility model relates to the technical field of communication transmission towers, in particular to a bionic communication tower.

Background

The bionic communication tower is called as a bionic tower, belongs to the technical field of communication transmission towers, coordinates communication towers with surrounding natural environments, effectively solves the problem of difficult construction of sites such as scenic spots, and has the advantages that all the advantages of the original single-tube tower are maintained, the appearance of the single-tube tower is greatly broken through and improved, and naturally-grown pine trees, camphor trees and the like are taken as simulated modeling samples, so that people cannot perceive the existence of the tower, and the single-tube tower is integrated into the surrounding natural environments;

the current bionical tree is various, and most install in some scenic spots to most bionical tree all is the scene concatenation equipment and forms, and the bionical trunk of its setting needs the manual work to assemble with the branch in the outside, leads to actual installation and dismantlement work comparatively loaded down with trivial details.

The utility model provides a current patent (bulletin number: CN 215485042U) a bionic tree communication tower, it includes the tower body, the equal fixedly connected with of top of tower body inner chamber both sides is violently managed, the inner chamber swing joint of violently managing has the bionic branch, the one end that violently manages was kept away from to the bionic branch runs through to the outside of tower body, the equal fixedly connected with spacing section of thick bamboo in both sides of tower body inner chamber, the top fixedly connected with spring in spacing section of thick bamboo inner chamber, the bottom fixedly connected with stopper of spring, the bottom fixedly connected with gag lever post of stopper, it has solved current bionic tree communication tower in the use, inconvenient user installs and dismantles between branch and the communication tower, thereby influence staff's installation and maintenance efficiency's problem.

For above-mentioned problem, current patent has given the solution, but because the bionical tree is trunk and branch concatenation equipment and forms, leads to its actual connectivity not high, and the communication tower is in order to improve the receiving effect of its signal, and the higher that often sets up just leads to bionical tree upside wind-resistant effect relatively poor, produces great rocking easily, very influences the stability of the antenna work of its top equipment.

To this end, a bionic communication tower is proposed.

Disclosure of Invention

The utility model aims to provide a bionic communication tower which is used for solving the problem that the stability of the top assembled antenna work is not high due to the fact that the wind resistance effect of the upper side of a bionic tree is poor in the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the bionic communication tower comprises a base plate, wherein a main shaft rod is fixedly connected to the position of the axis of the upper surface of the base plate, a corresponding servo motor is fixedly installed at the bottom of the main shaft rod, a plurality of extension brackets are fixedly installed at the top of the main shaft rod in a circumferential arrangement mode, corresponding antenna boxes are fixedly installed on the outer sides of the extension brackets, a round mouth sleeve groove is formed in the upper side of the main shaft rod, a corresponding screw is fixedly installed at the position of the inner axis of the round mouth sleeve groove through the output end of the servo motor, and a servo tightening mechanism is installed in the round mouth sleeve groove in a meshed sliding mode through the screw;

the servo tightening mechanism comprises a disc sleeve frame which is slidably mounted in the circular opening sleeve groove, a plurality of first pull plates are movably arranged on the outer side of the disc sleeve frame in a circumferential arrangement mode, the servo tightening mechanism further comprises an auxiliary sleeve ring which is fixedly mounted on the upper side of the disc sleeve frame, a plurality of detachable bionic trunk mechanisms are movably arranged on the outer side of the auxiliary sleeve ring in a circumferential arrangement mode, one side, away from the auxiliary sleeve ring, of the bottom of each detachable bionic trunk mechanism corresponds to the first pull plates in a movable mode, the upper portion, away from one side, of each auxiliary sleeve ring, of each detachable bionic trunk mechanism is provided with a second pull plate in a movable mode, the servo tightening mechanism further comprises a first extension trunk fixedly mounted on the upper side of the auxiliary sleeve ring, and the bottom of each first extension trunk corresponds to the corresponding second pull plate in a movable mode.

The antenna box is an antenna for transmitting signals of a communication tower in the prior art and is matched with a corresponding radio frequency unit.

Preferably, the surface axis position department of disc cover frame is provided with the nut pocket that corresponds with the screw rod meshing, the outward appearance of disc cover frame is circumference range formula fixed mounting in proper order has a plurality of first movable cover frames, first arm-tie movable mounting in the inside of first movable cover frame, the outward appearance of supplementary lantern ring is circumference range formula fixed mounting in proper order has a plurality of second movable cover frames, the second movable cover frame with the first movable cover frame is from top to bottom parallel and level corresponds, can dismantle bionical trunk mechanism through second movable cover frame movable mounting in the upside of first arm-tie, can dismantle bionical trunk mechanism bottom keep away from one side fixed mounting of supplementary lantern ring has the third movable cover frame, one side movable mounting of first arm-tie keep away from disc cover frame in the inside of third movable cover frame.

Preferably, the structure of the first expansion trunk is the same as the structure formed by the auxiliary lantern ring, the second movable sleeve frame and the detachable bionic trunk mechanism, the bottom of one side of the first expansion trunk, which is far away from the auxiliary lantern ring, is fixedly provided with a guide rail frame, the second pull plate is far away from the position of the inner wall of one side of the detachable bionic trunk mechanism, the position of the inner wall of one side of the detachable bionic trunk mechanism is fixedly provided with a limit rod, the limit rod is integrally and slidably arranged on the inner wall of the guide rail frame, the upper side of the first expansion trunk is movably provided with a second expansion trunk, and the structure formed by the second expansion trunk, the guide rail frame, the second pull plate and the limit rod is the same.

Preferably, the detachable bionic trunk mechanism comprises a side plate frame movably mounted on the inner wall side of the second movable sleeve frame, corresponding slots are formed in the side plate frame, and corresponding inserting blocks are inserted into the upper sides of the slots.

Preferably, the left and right sides of the insert block and the left and right sides of the slot are respectively provided with a corresponding screw, and the outer sides of the screw are respectively provided with a corresponding tightening bolt in a rotating way.

Preferably, the upper surface of the insert block is sequentially provided with a plurality of bionic leaves.

Preferably, triangular rubber sleeves are fixedly arranged at the four side angle positions of the insert block, and the outer surfaces of the triangular rubber sleeves correspond to the four side angles of the inner wall of the slot in a fitting mode.

Preferably, the inner wall side of the guide rail frame and the outer surface of the limiting rod are fixedly provided with corresponding rubber coatings.

Compared with the prior art, the utility model has the beneficial effects that:

1. the rotary action of the screw rod at the output end of the servo motor fixedly arranged at the bottom of the main shaft rod can drive the disc sleeve frame of the servo tightening mechanism to move along the circular opening sleeve groove, so that the detachable bionic trunk mechanism at the outer side of the servo tightening mechanism and the first expansion trunk are synchronously controlled to be unfolded and retracted, the bionic trunk at the outer side can be retracted like an umbrella in bad weather, the contact area of the top of the main shaft rod is reduced, the strong wind weather can be effectively resisted, and the problem that the wind resistance effect of the upper side of the bionic tree in the prior art is poor, and the working stability of an antenna assembled at the top is low is effectively solved;

2. after the corresponding bionic trunk is retracted through the cooperation of the servo motor, the bionic trunk mechanism can be disassembled and assembled rapidly, so that the efficiency of on-site trunk assembly is further improved, the workload and the replacement cost of external vulnerable parts are saved, and the overall practicability of the bionic communication tower is further improved.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are needed in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the description below are some embodiments of the present utility model, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

FIG. 1 is an overall structural view of the present utility model;

FIG. 2 is a side view of the present utility model;

FIG. 3 is a schematic view of a partial structure of a servo tightening mechanism of the present utility model;

fig. 4 is a partially disassembled schematic illustration of the detachable bionic trunk mechanism of the present utility model.

Reference numerals illustrate:

1. a base plate; 2. a servo motor; 3. a main shaft lever; 4. expanding the bracket; 5. an antenna box; 6. a round mouth sleeve groove; 7. a screw; 8. a servo tightening mechanism; 81. a disc sleeve frame; 82. a nut sleeve opening; 83. a first movable sleeve frame; 84. a first pulling plate; 85. an auxiliary collar; 86. a second movable sleeve frame; 87. a third movable sleeve frame; 88. a second pulling plate; 89. a limit rod; 810. a guide rail frame; 811. a first expanded trunk; 9. a detachable bionic trunk mechanism; 91. a side plate frame; 92. a slot; 93. inserting blocks; 94. a triangular rubber sleeve; 95. a screw; 96. tightening the bolts; 97. bionic leaves; 10. and a second expanded trunk.

Detailed Description

The following description of the embodiments of the present utility model 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 utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1 to 4, the present utility model provides a technical solution:

the bionic communication tower comprises a base plate 1, wherein a main shaft rod 3 is fixedly connected to the position of the axis of the upper surface of the base plate 1, a corresponding servo motor 2 is fixedly arranged at the bottom of the main shaft rod 3, a plurality of extension brackets 4 are fixedly arranged at the top of the main shaft rod 3 in a circumferential arrangement manner, corresponding antenna boxes 5 are fixedly arranged on the outer sides of the extension brackets 4, a circular opening sleeve groove 6 is formed in the upper side of the main shaft rod 3, a corresponding screw rod 7 is fixedly arranged at the position of the inner axis of the circular opening sleeve groove 6 through the output end of the servo motor 2, and a servo tightening mechanism 8 is slidably arranged in the circular opening sleeve groove 6 through the screw rod 7 in a meshed manner;

the servo tightening mechanism 8 comprises a disc sleeve frame 81 which is slidably mounted in the circular opening sleeve groove 6, a plurality of first pull plates 84 are movably arranged on the outer side of the disc sleeve frame 81 in a circumferential arrangement mode, the servo tightening mechanism 8 further comprises an auxiliary sleeve ring 85 fixedly mounted on the upper side of the disc sleeve frame 81, a plurality of detachable bionic trunk mechanisms 9 are movably arranged on the outer side of the auxiliary sleeve ring 85 in a circumferential arrangement mode, one side, away from the auxiliary sleeve ring 85, of the bottom of each detachable bionic trunk mechanism 9 is movably corresponding to the first pull plates 84, a second pull plate 88 is movably mounted on the upper portion, away from one side of the auxiliary sleeve ring 85, of each detachable bionic trunk mechanism 9, the servo tightening mechanism 8 further comprises a first extension 811 fixedly mounted on the upper side of the auxiliary sleeve ring 85, and the bottom of each first extension trunk 811 is movably corresponding to the second pull plate 88.

The antenna box 5 is an antenna used for transmitting signals in a communication tower in the prior art, and is matched with a corresponding radio frequency unit.

Specifically, as shown in fig. 1, fig. 2, and fig. 3, the surface axis position of the disc sleeve frame 81 is provided with a nut sleeve opening 82 corresponding to the engagement of the screw 7, the outer surface of the disc sleeve frame 81 is provided with a plurality of first movable sleeve frames 83 fixedly installed in sequence in a circumferential arrangement manner, the first pull plate 84 is movably installed in the first movable sleeve frames 83, the outer surface of the auxiliary collar 85 is provided with a plurality of second movable sleeve frames 86 fixedly installed in sequence in a circumferential arrangement manner, the second movable sleeve frames 86 correspond to the first movable sleeve frames 83 in an up-down flush manner, the detachable bionic trunk mechanism 9 is movably installed on the upper side of the first pull plate 84 through the second movable sleeve frames 86, one side, away from the auxiliary collar 85, of the bottom of the detachable bionic mechanism 9 is fixedly installed with a third movable sleeve frame 87, and one side, away from the disc sleeve frame 81, of the first pull plate 84 is movably installed in the third movable sleeve frame 87.

Specifically, as shown in fig. 1 and 3, the structure of the first extension trunk 811 is the same as that formed by the auxiliary collar 85, the second movable sleeve frame 86 and the detachable bionic trunk mechanism 9, a guide rail frame 810 is fixedly installed at the bottom of one side of the first extension trunk 811, which is far away from the auxiliary collar 85, a limit rod 89 is fixedly installed at the position of the inner wall of one side of the second pull plate 88, which is far away from the detachable bionic trunk mechanism 9, the limit rod 89 is integrally and slidably installed on the inner wall of the guide rail frame 810, a second extension trunk 10 is movably installed at the upper side of the first extension trunk 811, and the structure formed by the second pull plate 88 and the limit rod 89 is the same as that of the first extension trunk 811.

By adopting the technical scheme, the problem that the wind resistance effect of the upper side of the bionic tree is poor, so that the stability of the operation of the antenna assembled at the top is not high in the prior art is solved, firstly, the corresponding first pulling plate 84 is in a fully unfolded state, under severe windy weather, the disc sleeve frame 81 is driven to move downwards along the circular opening sleeve groove 6 by clockwise rotation of the output end screw 7 of the servo motor 2, the first pulling plate 84 can be pulled downwards synchronously due to the action of the fixed end of the first movable sleeve frame 83, the first pulling plate 84 pulled downwards can drive the detachable bionic tree trunk mechanism 9 to rotate downwards around the second movable sleeve frame 86, the detachable bionic tree trunk mechanism 9 which further rotates downwards can be pulled by the second pulling plate 88 which is movably installed, the synchronous pulling gag lever post 89 slides at the inner wall of guide rail frame 810, control first extension trunk 811 and rotate downwards in step, the same reason drives the synchronous rotation downwards of second extension trunk 10, make the bionical trunk that main shaft pole 3 bottom set up withdraw downwards, all be close to the bottom of main shaft pole 3, make outside bionical trunk tighten up as an organic wholely with main shaft pole 3, can withdraw outside bionical trunk like retrieving the umbrella under bad weather, make main shaft pole 3 top area of contact diminish, can effectually resist the strong wind weather, the effectual bionical trunk upside wind-resistant effect that sets up among the prior art that has solved, follow-up after bad weather can improve servo motor 2 output screw 7's anticlockwise rotation effect again, drive disc cover frame 81 and upwards move, control outside bionical trunk and expand like the umbrella.

Specifically, as shown in fig. 1, 3 and 4, the detachable bionic trunk mechanism 9 includes a side plate frame 91 movably mounted on the inner wall side of the second movable sleeve frame 86, corresponding slots 92 are provided in the side plate frame 91, and corresponding inserting blocks 93 are inserted and mounted on the upper sides of the slots 92.

Specifically, as shown in fig. 4, corresponding screw holes 95 are respectively provided on the left and right sides of the insert block 93 and the left and right sides of the slot 92, and corresponding tightening bolts 96 are respectively rotatably mounted on the outer sides of the screw holes 95.

Specifically, as shown in fig. 4, a plurality of bionic leaves 97 are fixedly arranged on the upper surface of the insertion block 93 in sequence.

Specifically, as shown in fig. 4, triangular rubber sleeves 94 are fixedly installed at the four side corners of the insert block 93, and the outer surfaces of the triangular rubber sleeves 94 are attached to and correspond to the four side corners of the inner wall of the slot 92.

Specifically, as shown in fig. 3, the inner wall of the rail frame 810 and the outer surface of the stop lever 89 are both fixedly provided with corresponding rubber coatings.

Through adopting above-mentioned technical scheme, the dismantlement problem of dismantling bionical trunk mechanism 9 has further been solved, under the whole downward sloping withdrawal state of detachable bionical trunk mechanism 9, can be through loosening the tightening bolts 96 in the screw 95 outside, upwards pull out the inside inserted block 93 of slot 92, can dismantle bionical leaf 97 by one step, maintain and change bionical leaf 97, can extrude fixedly through triangle rubber sleeve 94 when inserting installation inserted block 93 simultaneously, through the stability of stiff end, the effectual dismantlement problem of dismantling bionical trunk mechanism 9 that has solved.

Working principle: under severe windy weather, the disc sleeve frame 81 is driven to move downwards along the circular opening sleeve groove 6 by clockwise rotation of the screw 7 at the output end of the servo motor 2, the first pull plate 84 can be pulled downwards synchronously, the detachable bionic trunk mechanism 9 is controlled to rotate downwards, the limiting rod 89 is pulled to slide on the inner wall of the guide rail frame 810 synchronously, the first expansion trunk 811 is controlled to rotate downwards synchronously, the second expansion trunk 10 is driven to rotate downwards synchronously in the same way, the bionic trunks arranged at the bottom of the main shaft rod 3 are retracted downwards, all the bionic trunks are close to the bottom of the main shaft rod 3, the outside bionic trunks and the main shaft rod 3 are tightened into a whole, and the bionic trunks outside like an umbrella can be retracted under severe weather.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present utility model, and not for limiting the same; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the utility model.

Claims (8)

1. The utility model provides a bionic communication tower, includes base dish (1), upper surface axle center position department fixedly connected with main shaft pole (3) of base dish (1), the bottom fixed mounting of main shaft pole (3) has servo motor (2) that correspond, the top of main shaft pole (3) is circumference range fixed mounting and has a plurality of extension support (4), the equal fixed mounting in the outside of extension support (4) has antenna box (5) that correspond, its characterized in that: a circular opening sleeve groove (6) is formed in the upper side of the main shaft rod (3), a corresponding screw rod (7) is fixedly arranged at the inner axis position of the circular opening sleeve groove (6) through the output end of the servo motor (2), and a servo tightening mechanism (8) is arranged in the circular opening sleeve groove (6) in a meshed sliding manner through the screw rod (7);

wherein, servo tightening mechanism (8) including slidable mounting in circular mouthful cover groove (6) inside disc cover frame (81), the outside of disc cover frame (81) is circumference range activity and is provided with a plurality of first arm-tie (84), servo tightening mechanism (8) still including fixed mounting in auxiliary collar (85) of disc cover frame (81) upside, the outside of auxiliary collar (85) is circumference range activity and is provided with a plurality of bionical trunk mechanisms (9) of dismantling, bionical trunk mechanism (9) bottom is kept away from one side of auxiliary collar (85) with first arm-tie (84) activity corresponds, bionical trunk mechanism (9) of dismantling is kept away from the equal movable mounting in upper portion of auxiliary collar (85) one side second arm-tie (88), servo tightening mechanism (8) still including fixed mounting in first extension (811) of auxiliary collar (85) upside, the bottom of first extension (811) with second arm-tie (88) activity corresponds.

2. A biomimetic communication tower according to claim 1, wherein: the utility model discloses a novel multifunctional tree trunk detachable device, including disc cover frame (81), nut mouth (82) that the surface axle center position department of disc cover frame (81) is provided with screw rod (7) meshing corresponds, the outward appearance of disc cover frame (81) is circumference range formula fixed mounting in proper order has a plurality of first movable cover frame (83), first arm-tie (84) movable mounting in the inside of first movable cover frame (83), the outward appearance of supplementary lantern ring (85) is circumference range formula fixed mounting in proper order has a plurality of second movable cover frame (86), second movable cover frame (86) with first movable cover frame (83) upper and lower parallel and level corresponds, detachable bionical trunk mechanism (9) pass through second movable cover frame (86) movable mounting in the upside of first arm-tie (84), detachable bionical trunk mechanism (9) bottom keep away from one side fixed mounting of supplementary lantern ring (85) has third movable cover frame (87), one side that disc cover frame (81) was kept away from in first movable mounting in the inside of third movable cover frame (87).

3. A biomimetic communication tower according to claim 2, wherein: the structure of first extension trunk (811) with supplementary lantern ring (85) second movable sleeve frame (86) can dismantle bionical trunk mechanism (9) and constitute the structure the same, first extension trunk (811) keep away from the bottom fixed mounting of one side of supplementary lantern ring (85) has guide rail frame (810), second arm-tie (88) are kept away from the equal fixed mounting of inner wall position department of detachable bionical trunk mechanism (9) one side has gag lever post (89), gag lever post (89) whole slidable mounting in the inner wall of guide rail frame (810), the upside movable mounting of first extension trunk (811) has second extension trunk (10), second extension trunk (10) with first extension trunk (811) guide rail frame (810) second arm-tie (88) the structure that gag lever post (89) constitutes is the same.

4. A biomimetic communication tower according to claim 2, wherein: the detachable bionic trunk mechanism (9) comprises a side plate frame (91) movably mounted on the inner wall side of the second movable sleeve frame (86), corresponding slots (92) are formed in the side plate frame (91), and corresponding inserting blocks (93) are inserted and mounted on the upper sides of the slots (92).

5. The biomimetic communication tower according to claim 4, wherein: corresponding screw openings (95) are formed in the left side and the right side of the insertion block (93) and the left side and the right side of the insertion groove (92), and corresponding tightening bolts (96) are rotatably arranged on the outer sides of the screw openings (95).

6. The biomimetic communication tower according to claim 4, wherein: the upper surface of the inserting block (93) is fixedly provided with a plurality of bionic leaves (97) in a sequential arrangement mode.

7. The biomimetic communication tower according to claim 4, wherein: triangular rubber sleeves (94) are fixedly installed at the four-side angle positions of the inserting blocks (93), and the outer surfaces of the triangular rubber sleeves (94) are in fit correspondence with the four-side angles of the inner wall of the inserting groove (92).

8. A biomimetic communication tower according to claim 3, wherein: the inner wall side of the guide rail frame (810) and the outer surface of the limiting rod (89) are fixedly provided with corresponding rubber coatings.