CN108824931A - A kind of structurally stable anti-fracture bionical tower - Google Patents

Abstract

The present invention relates to a kind of structurally stable anti-fracture bionical towers,Including pedestal,Trunk,Platform,Lightning rod,If dry aerial,Two bio-mechanisms and two strengthening mechanisms,Bio-mechanism includes several bionical components,Strengthening mechanism includes several reinforcement assemblies,Bionical component includes fixing pipe,Branch,Translation unit,Translate bar and two bionical units,Bionical unit includes several Branching units,Reinforcement assembly includes hinge unit,Rotating block and two reinforcement elements,Reinforcement elements include tuning unit,Side lever,Cylinder,Air pump,Piston and securing plate,The structurally stable anti-fracture bionical tower is under high wind weather,Branch is taken in fixing pipe by the contraction unit in bio-mechanism,Prevent branch and crotch from being blown,Moreover,Auxiliary support is carried out to fixing pipe by strengthening mechanism,Prevent fixing pipe from being blown,And then strengthen bio-mechanism,Keep device structure safer firm,To improve the practicability of the bionical tower.

Description

A kind of structurally stable anti-fracture bionical tower

Technical field

The present invention relates to communications service field, in particular to a kind of structurally stable anti-fracture bionical tower.

Background technique

Bionical tower is that communication iron tower and the natural environment of surrounding is allowed mutually to coordinate, and efficiently solves the ground such as scenic spot and builds a station difficulty The problem of, which is aided with advanced industrial chemicals and is configured to plasticity object using synthetic resin as binder, is used as tree trunk, tree The sculptures substrate such as section, bark, tree root, sprays advanced acrylic coating, and modification protection surface enhances durability, reaches 5 years and do not take off Color does not crack, the effect not fallen off, and has Recoatability.

In existing bionical tower, bionical branch and limb are usually fixedly mounted on trunk, and structure is caused to immobilize, When meeting with blast weather, wind-force continuous action is easy to be broken branch bending deformation even on branch, and then affects The bionical effect of bionical tower, to reduce the practicability of existing bionical tower.

Summary of the invention

The technical problem to be solved by the present invention is to：For overcome the deficiencies in the prior art, it provides a kind of structurally stable anti- The bionical tower of fracture.

The technical solution adopted by the present invention to solve the technical problems is：A kind of structurally stable anti-fracture bionical tower, If passing through master including pedestal, trunk, platform, lightning rod, dry aerial, two bio-mechanisms and two strengthening mechanisms, the platform The solid top for being scheduled on pedestal, the platform are fixed on the top of platform, and the antenna is circumferentially evenly distributed on the top of platform, Be equipped with PLC in the trunk, two bio-mechanisms are located at the two sides of trunk, the trunk be located at two strengthening mechanisms it Between, the bio-mechanism includes several bionical components, and the bionical component is arranged diagonally downward, and the bionical component is from top to down It is evenly distributed on trunk, the strengthening mechanism includes several reinforcement assemblies, and the reinforcement assembly is evenly distributed on from top to down On trunk, the quantity of the bionical component is equal with the quantity of reinforcement assembly, and the bionical component and reinforcement assembly correspond；

The bionical component includes fixing pipe, branch, translation unit, translation bar and two bionical units, the fixing pipe It being fixed on trunk, one end of the branch is arranged in fixing pipe, and the outside of fixing pipe is arranged in the other end of the branch, The translation unit is arranged on branch, and the translation unit and translation bar transmission connection, two bionical units are located at tree The two sides of branch, the bionical unit include several Branching units, and the Branching unit includes crotch and strut, and the one of the crotch End is hinged with branch, hinged by strut and translation bar at the center of the crotch, and contraction unit, institute are equipped in the fixing pipe It states and shrinks unit and branch transmission connection；

The reinforcement assembly includes that hinge unit, rotating block and two reinforcement elements, the top of the rotating block pass through hinge Order member and Truck Connection, two reinforcement elements are located at the two sides of rotating block, and the reinforcement elements include tuning unit, side Bar, cylinder, air pump, piston and securing plate, the tuning unit are connect with cylinder-driven, and one end of the side lever is fixed on trunk On, the other end and cylinder of the side lever are hinged, and the air pump is fixed on cylinder, and the air pump is electrically connected with PLC, the work The bottom end of plug is arranged in cylinder, and the top of the piston is fixedly connected with securing plate, and the one of the close trunk of the rotating block Side is equipped with recess, is equipped with support unit in the recess.

Preferably, the movement in order to realize branch, the contraction unit include first motor, bearing, the first drive shaft, On the inner wall for the two sides that drum, bracing wire and sliding block, the first motor and bearing are each attached to fixing pipe, the first motor with One end of PLC electrical connection, the first motor and the first drive shaft is sequentially connected, and the other end setting of first drive shaft exists In bearing, the drum is set in the first drive shaft, and one end of the bracing wire is arranged on drum, the other end of the bracing wire It is connect with sliding block, the sliding block is fixedly connected with branch.

Preferably, the both ends of the sliding block are equipped with opening in order to guarantee that sliding block smoothly moves, it is equipped in the opening The centre of sphere of ball, the ball is located in opening, and the ball is resisted against on the inner wall of fixing pipe.

Preferably, sliding block is detached from fixing pipe in order to prevent, the inner wall of the two sides of the fixing pipe is equipped with limited block, institute State the side that limited block is located at the separate drum of sliding block.

Preferably, in order to drive translation bar mobile, the translation unit include the second motor, driving wheel, drive rod and Circular frame, second motor are fixed on branch, and second motor is electrically connected with PLC, second motor and driving wheel Transmission connection, the drive rod are fixed on the separate the center point of driving wheel, and the drive rod is located at the inside of circular frame, and described time Shape frame is fixedly connected with translation bar.

Preferably, the steady movement in order to realize translation bar, the translation unit further includes two sliding rails, two sliding rails The both ends of circular frame are located at, the shape of the sliding rail is U-shaped, and the both ends of the sliding rail are fixed on branch, described back-shaped Frame is arranged on the slide rail.

Preferably, in order to drive rotational cylinder, the tuning unit includes third motor, first connecting rod and the second company Bar, the third motor are fixed on rotating block, and the third motor is electrically connected with PLC, the third motor and first connecting rod Transmission connection, the first connecting rod are hinged by second connecting rod and cylinder.

Preferably, the hinge unit includes center-pole and two intubations, the intubation for the ease of rotating block rotation It is fixed on trunk, the both ends of the center-pole are separately positioned in two intubations, and the top of the center-pole and rotating block is solid Fixed connection.

Preferably, the rotation in order to realize supporting block, the support unit includes the 4th motor, buffer stopper, 4 wheel driven Moving axis, movable block and support rod, the 4th motor and buffer stopper are separately fixed at the top and bottom in recess, and the described 4th Between the 4th motor and buffer stopper, the 4th motor is connect drive shaft with 4 wheel driven driving-axle gearing, the movable block set Be located in the 4th drive shaft, the movable block with the junction of the 4th drive shaft be equipped with the 4th matched screw thread of drive shaft, The movable block is hinged by support rod and trunk, and the 4th motor is electrically connected with PLC.

Preferably, in order to detect wind behaviour, the two sides of the trunk are equipped with air velocity transducer, the air velocity transducer It is electrically connected with PLC.

The invention has the advantages that the structurally stable anti-fracture bionical tower passes through bionical machine under high wind weather Contraction unit in structure makes to prevent branch and crotch from being blown in branch income fixing pipe, should compared with existing bio-mechanism Bio-mechanism flexible structure moreover, carries out Auxiliary support to fixing pipe by strengthening mechanism convenient for incorporating ambient enviroment, It prevents fixing pipe from being blown, and then strengthens bio-mechanism, keep device structure safer firm, with existing strengthening mechanism phase Than the strengthening mechanism is safer reliable, to improve the practicability of the bionical tower.

Detailed description of the invention

Present invention will be further explained below with reference to the attached drawings and examples.

Fig. 1 is the structural schematic diagram of structurally stable anti-fracture bionical tower of the invention；

Fig. 2 is the structural schematic diagram of the bionical component of structurally stable anti-fracture bionical tower of the invention；

Fig. 3 is the structural schematic diagram of the translation unit of structurally stable anti-fracture bionical tower of the invention；

Fig. 4 is the structural schematic diagram of the reinforcement assembly of structurally stable anti-fracture bionical tower of the invention；

Fig. 5 is the structural schematic diagram of the support unit of structurally stable anti-fracture bionical tower of the invention；

In figure：1. pedestal, 2. trunks, 3. platforms, 4. lightning rods, 5. antennas, 6. fixing pipes, 7. branches, 8. translation bars, 9. Crotch, 10. struts, 11. rotating blocks, 12. side levers, 13. cylinders, 14. air pumps, 15. pistons, 16. securing plates, 17. first motors, 18. bearing, 19. first drive shafts, 20. drums, 21. bracing wires, 22. sliding blocks, 23. balls, 24. second motors, 25. driving wheels, 26. drive rod, 27. circular frames, 28. sliding rails, 29. third motors, 30. first connecting rods, 31. second connecting rods, 32. center-poles, 33. Intubation, 34. the 4th motors, 35. buffer stoppers, 36. the 4th drive shafts, 37. movable blocks, 38. support rods, 39. air velocity transducers.

Specific embodiment

In conjunction with the accompanying drawings, the present invention is further explained in detail.These attached drawings are simplified schematic diagram, only with Illustration illustrates basic structure of the invention, therefore it only shows the composition relevant to the invention.

As shown in Figure 1, a kind of structurally stable anti-fracture bionical tower, including pedestal 1, trunk 2, platform 3, lightning rod 4, If 5, two bio-mechanisms of dry aerial and two strengthening mechanisms, the platform 3 is fixed on the top of pedestal 1 by trunk 2, described Platform 3 is fixed on the top of platform 3, and the circumferential top for being evenly distributed on platform 3 of the antenna 5, the trunk 2 is interior to be equipped with PLC, Two bio-mechanisms are located at the two sides of trunk 2, and the trunk 2 is located between two strengthening mechanisms, the bio-mechanism packet Several bionical components are included, the bionical component is arranged diagonally downward, and the bionical component is evenly distributed on trunk 2 from top to down On, the strengthening mechanism includes several reinforcement assemblies, and the reinforcement assembly is evenly distributed on from top to down on trunk 2, described imitative The quantity of raw component is equal with the quantity of reinforcement assembly, and the bionical component and reinforcement assembly correspond；

In the bionical tower, by the fixed support platform 3 of trunk 2, increase the height of platform 3, to expand the transmitting-receiving of antenna 5 The range of signal reinforces ability to communicate, prevents equipment to be struck by lightning in the rainy day using lightning rod 4, and protection equipment is in rainy day safety Operation, keeps the shape of the bionical tower similar to trees by each bionical component of 2 two sides of trunk, and bionical tower is made to be easier to incorporate week In the environment enclosed, when high wind weather occurs, bionical component can be reinforced by strengthening mechanism, be prevented in bionical component Component is broken, and protects equipment.

As shown in Fig. 2, the bionical component includes fixing pipe 6, branch 7, translation unit, translation bar 8 and two bionical lists Member, the fixing pipe 6 are fixed on trunk 2, and one end of the branch 7 is arranged in fixing pipe 6, the other end of the branch 7 The outside of fixing pipe 6 is set, the translation unit is arranged on branch 7, and the translation unit and translation bar 8 are sequentially connected, Two bionical units are located at the two sides of branch 7, and the bionical unit includes several Branching units, and the Branching unit includes Crotch 9 and strut 10, one end of the crotch 9 and branch 7 are hinged, pass through strut 10 and translation bar 8 at the center of the crotch 9 Hingedly, it is equipped in the fixing pipe 6 and shrinks unit, the contraction unit and branch 7 are sequentially connected；

In bionical component, branch 7 can be moved along the axis of fixing pipe 6, and in bright day gas, branch 7 is to separate The direction of trunk 2 is mobile, drives translation bar 8 mobile by translation unit, and translation bar 8 rotates crotch 9 by strut 10, from And expand crotch 9 and translate the angle between bar 8, so that crotch 9 is unfolded, so that it is similar with trees outer to have bionical component It sees, when meeting with high wind weather, PLC controls translation unit operation to be made so that translation bar 8 drives crotch 9 to rotate by strut 10 To branch 7 after, the contraction unit in fixing pipe 6 is run crotch 9, is moved to branch 7 in fixing pipe 6, is prevented external wind Power blows branch 7 and crotch 9, protects equipment safety operation.

As shown in figure 4, the reinforcement assembly includes hinge unit, rotating block 11 and two reinforcement elements, the rotating block 11 top is connect by hinge unit with trunk 2, and two reinforcement elements are located at the two sides of rotating block 11, and the reinforcing is single Member includes tuning unit, side lever 12, cylinder 13, air pump 14, piston 15 and securing plate 16, and the tuning unit and cylinder 13 are driven Connection, one end of the side lever 12 are fixed on trunk 2, and the other end and cylinder 13 of the side lever 12 are hinged, the air pump 14 It is fixed on cylinder 13, the air pump 14 is electrically connected with PLC, and the bottom end of the piston 15 is arranged in cylinder 13, the piston 15 top is fixedly connected with securing plate 16, and the side of the close trunk 2 of the rotating block 11 is equipped with recess, is set in the recess There is support unit.

After branch 7 takes in 6 inside of fixing pipe, PLC controls the support unit operation in the recess of rotating block 11, so that turning After motion block 11 is rotated up by hinge unit, the tuning unit of 11 two sides of rotating block is run, and increases cylinder 13 and rotating block 11 It is hinged, then PLC control air pump 14 start, increase cylinder 13 in air pressure so that piston 15 is displaced outwardly, to make to reinforce Plate 16 is resisted against in fixing pipe 6, is carried out Auxiliary support to fixing pipe 6, is prevented fixing pipe 6 from being blown by wind, to ensure that bionical The stability of mechanism.

As shown in Fig. 2, the contraction unit includes first motor 17, bearing 18, the first drive shaft 19, drum 20, bracing wire 21 and sliding block 22, on the inner wall for the two sides that the first motor 17 and bearing 18 are each attached to fixing pipe 6, the first motor 17 Be electrically connected with PLC, the transmission connection of one end of the first motor 17 and the first drive shaft 19, first drive shaft 19 it is another End is arranged in bearing 18, and the drum 20 is set in the first drive shaft 19, and one end of the bracing wire 21 is arranged in drum 20 On, the other end of the bracing wire 21 is connect with sliding block 22, and the sliding block 22 is fixedly connected with branch 7.

PLC controls first motor 17 and starts, and drives the rotation of the first drive shaft 19, and the first drive shaft 19 drives 20 turns of drum It is dynamic, bracing wire 21 is tightened or loosens, when bracing wire 21 is loosened, sliding block 22 moves down in inclined fixing pipe 6, reveals branch 7 Out, so that bionical tower be made to form the shape of common trees, when bracing wire 21 is tightened, bottom of the sliding block 22 into fixing pipe 6 is mobile, To make branch 7 take in fixing pipe 6, prevent branch 7 and crotch 9 from being broken by wind.

Preferably, the both ends of the sliding block 22, which are equipped with, to be open, in the opening in order to guarantee that sliding block 22 smoothly moves Equipped with ball 23, the centre of sphere of the ball 23 is located in opening, and the ball 23 is resisted against on the inner wall of fixing pipe 6.In sliding block In 22 moving process, the friction reduced between sliding block 22 and the inner wall of fixing pipe 6 is rolled by ball 23, it is smooth convenient for sliding block 22 Movement.

Preferably, sliding block 22 is detached from fixing pipe 6 in order to prevent, the inner wall of the two sides of the fixing pipe 6 is equipped with limit Block, the limited block are located at the side of the separate drum 20 of sliding block 22.Using the motion direction of limited block limitation sliding block 22, thus Guarantee that sliding block 22 is located at the side of the close trunk 2 of limited block, anti-limited slip block 22 is detached from fixing pipe 6.

As shown in figure 3, the translation unit includes the second motor 24, driving wheel 25, drive rod 26 and circular frame 27, it is described Second motor 24 is fixed on branch 7, and second motor 24 is electrically connected with PLC, and second motor 24 is passed with driving wheel 25 Dynamic connection, the drive rod 26 are fixed on the separate the center point of driving wheel 25, and the drive rod 26 is located at the inside of circular frame 27, The circular frame 27 is fixedly connected with translation bar 8.

PLC controls the starting of the second motor 24, and driving wheel 25 is driven to rotate, so that drive rod 26 rotates, drive rod 26 is acted on On the inner wall of circular frame 27, to realize the movement of circular frame 27.

Preferably, the steady movement in order to realize translation bar 8, the translation unit further includes two sliding rails 28, two Sliding rail 28 is located at the both ends of circular frame 27, and the shape of the sliding rail 28 is U-shaped, and the both ends of the sliding rail 28 are fixed on branch On 7, the circular frame 27 is set on sliding rail 28.The moving direction that circular frame 27 is secured using sliding rail 28, to pass through back Shape frame 27 realizes the steady movement of translation bar 8.

As shown in figure 4, the tuning unit includes third motor 29, first connecting rod 30 and second connecting rod 31, the third Motor 29 is fixed on rotating block 11, and the third motor 29 is electrically connected with PLC, and the third motor 29 is passed with first connecting rod 30 Dynamic connection, the first connecting rod 30 are hinged by second connecting rod 31 and cylinder 13.

PLC controls third motor 29 and starts, and first connecting rod 30 is driven to rotate, and first connecting rod 30 is acted on by second connecting rod 31 On cylinder 13, to have adjusted the angle of cylinder 13.

Preferably, the hinge unit includes center-pole 32 and two intubations 33, institute for the ease of the rotation of rotating block 11 Intubation is stated 33 to be fixed on trunk 2, the both ends of the center-pole 32 are separately positioned in two intubations 33, the center-pole 32 with The top of rotating block 11 is fixedly connected.The position of intubation 33 is fixed, and center-pole 32 can be rotated along the axis of intubation 33, Jin Erfang Rotating block 11 rotation.

As shown in figure 5, the support unit includes the 4th motor 34, buffer stopper 35, the 4th drive shaft 36,37 and of movable block Support rod 38, the 4th motor 34 and buffer stopper 35 are separately fixed at the top and bottom in recess, the 4th drive shaft 36 between the 4th motor 34 and buffer stopper 35, and the 4th motor 34 and the 4th drive shaft 36 are sequentially connected, the movement Block 37 is set in the 4th drive shaft 36, the movable block 37 be equipped with the junction of the 4th drive shaft 36 and the 4th drive shaft 36 matched screw threads, the movable block 37 is hinged by support rod 38 and trunk 2, and the 4th motor 34 is electrically connected with PLC.

PLC controls the starting of the 4th motor 34, drives the rotation of the 4th drive shaft 36, and the 4th drive shaft 36 is existed by threaded function On movable block 37, so that movable block 37 is moved along the axis of the 4th drive shaft 36, and then acted on by support rod 38 On trunk 2, trunk 2 generates reaction force to support rod 38, pushes rotating block 11 to rotate by support rod 38.

Preferably, the two sides of the trunk 2 are equipped with air velocity transducer 39, and the wind speed passes in order to detect wind behaviour Sensor 39 is electrically connected with PLC.Using the wind speed around the detection of air velocity transducer 39, and air speed data is uploaded to PLC, so that PLC determines external wind size, and when wind-force is larger, unit operation is shunk in PLC control, so that branch 7 enters in fixing pipe 6, And fixing pipe 6 is reinforced by reinforcement assembly, it ensure that the stability of the structure of bio-mechanism.

The bionical tower drives translation bar 8 mobile when meeting with high wind weather, through translation unit, so that crotch 9 is to branch 7 Branch 7 is then taken in fixing pipe 6 by shrinking unit, prevents branch 7 and crotch 9 from being broken by wind by rotation, moreover, After by support unit rotating block 11 being rotated up, turn cylinder 13 to the direction far from rotating block 11 using tuning unit It is dynamic, while piston 15 is resisted against securing plate 16 in fixing pipe 6 far from cylinder 13, is supported to fixing pipe 6, prevents from fixing Pipe 6 is blown, and then strengthens bio-mechanism, so that the structure of equipment is safer firm.

Compared with prior art, the structurally stable anti-fracture bionical tower is under high wind weather, by bio-mechanism Contraction unit make branch 7 take in fixing pipe 6 in, prevent branch 7 and crotch 9 from being blown, compared with existing bio-mechanism, should Bio-mechanism flexible structure moreover, carries out Auxiliary support to fixing pipe 6 by strengthening mechanism convenient for incorporating ambient enviroment, It prevents fixing pipe 6 from being blown, and then strengthens bio-mechanism, keep device structure safer firm, with existing strengthening mechanism It compares, the strengthening mechanism is safer reliable, to improve the practicability of the bionical tower.

Taking the above-mentioned ideal embodiment according to the present invention as inspiration, through the above description, relevant staff is complete Various changes and amendments can be carried out without departing from the scope of the technological thought of the present invention' entirely.The technology of this invention Property range is not limited to the contents of the specification, it is necessary to which the technical scope thereof is determined according to the scope of the claim.

Claims (10)

1. a kind of structurally stable anti-fracture bionical tower, which is characterized in that including pedestal (1), trunk (2), platform (3), keep away Thunder needle (4) if, dry aerial (5), two bio-mechanisms and two strengthening mechanisms, the platform (3) is fixed on bottom by trunk (2) The top of seat (1), the platform (3) are fixed on the top of platform (3), and the antenna (5) is circumferentially evenly distributed on platform (3) Top, the trunk (2) is interior to be equipped with PLC, and two bio-mechanisms are located at the two sides of trunk (2), and the trunk (2) is located at two Between a strengthening mechanism, the bio-mechanism includes several bionical components, and the bionical component is arranged diagonally downward, described bionical Component is evenly distributed on from top to down on trunk (2), and the strengthening mechanism includes several reinforcement assemblies, and the reinforcement assembly is from upper Be evenly distributed under and on trunk (2), the quantity of the bionical component is equal with the quantity of reinforcement assembly, the bionical component with Reinforcement assembly corresponds；

The bionical component includes fixing pipe (6), branch (7), translation unit, translates bar (8) and two bionical units, described solid Fixed pipe (6) is fixed on trunk (2), and one end setting of the branch (7) is in fixing pipe (6), the other end of the branch (7) Outside in fixing pipe (6) is set, and the translation unit is arranged on branch (7), the translation unit and translation bar (8) transmission Connection, two bionical units are located at the two sides of branch (7), and the bionical unit includes several Branching units, the branch Unit includes crotch (9) and strut (10), one end and branch (7) of the crotch (9) hingedly, at the center of the crotch (9) Hingedly by strut (10) and translation bar (8), it is equipped in the fixing pipe (6) and shrinks unit, the contraction unit and branch (7) Transmission connection；

The reinforcement assembly includes hinge unit, rotating block (11) and two reinforcement elements, and the top of the rotating block (11) is logical It crosses hinge unit to connect with trunk (2), two reinforcement elements are located at the two sides of rotating block (11), and the reinforcement elements include Tuning unit, side lever (12), cylinder (13), air pump (14), piston (15) and securing plate (16), the tuning unit and cylinder (13) it is sequentially connected, one end of the side lever (12) is fixed on trunk (2), the other end of the side lever (12) and cylinder (13) Hingedly, the air pump (14) is fixed on cylinder (13), and the air pump (14) is electrically connected with PLC, the bottom end of the piston (15) In the cylinder (13), the top of the piston (15) is fixedly connected with securing plate (16) for setting, the rotating block (11) it is close The side of trunk (2) is equipped with recess, is equipped with support unit in the recess.

2. structurally stable anti-fracture bionical tower as described in claim 1, which is characterized in that the contractions unit includes the One motor (17), bearing (18), the first drive shaft (19), drum (20), bracing wire (21) and sliding block (22), the first motor (17) and on the inner wall of bearing (18) two sides that are each attached to fixing pipe (6), the first motor (17) is electrically connected with PLC, institute The one end for stating first motor (17) and the first drive shaft (19) is sequentially connected, and the other end setting of first drive shaft (19) exists In bearing (18), the drum (20) is set on the first drive shaft (19), and one end of the bracing wire (21) is arranged in drum (20) on, the other end of the bracing wire (21) is connect with sliding block (22), and the sliding block (22) is fixedly connected with branch (7).

3. structurally stable anti-fracture bionical tower as claimed in claim 2, which is characterized in that the both ends of the sliding block (22) Equipped with opening, be equipped with ball (23) in the opening, the centre of sphere of the ball (23) is located in opening, the ball (23) against On the inner wall of fixing pipe (6).

4. structurally stable anti-fracture bionical tower as claimed in claim 3, which is characterized in that the two of the fixing pipe (6) The inner wall of side is equipped with limited block, and the limited block is located at the side of the separate drum (20) of sliding block (22).

5. structurally stable anti-fracture bionical tower as described in claim 1, which is characterized in that the translation unit includes the Two motors (24), driving wheel (25), drive rod (26) and circular frame (27), second motor (24) are fixed on branch (7), Second motor (24) is electrically connected with PLC, and second motor (24) and driving wheel (25) are sequentially connected, the drive rod (26) it is fixed on the separate the center point of driving wheel (25), the drive rod (26) is located at the inside of circular frame (27), described back-shaped Frame (27) is fixedly connected with translation bar (8).

6. structurally stable anti-fracture bionical tower as claimed in claim 5, which is characterized in that the translation unit further includes Two sliding rails (28), two sliding rails (28) are located at the both ends of circular frame (27), and the shape of the sliding rail (28) is U-shaped, institute The both ends for stating sliding rail (28) are fixed on branch (7), and the circular frame (27) is set on sliding rail (28).

7. structurally stable anti-fracture bionical tower as described in claim 1, which is characterized in that the tuning unit includes the Three motors (29), first connecting rod (30) and second connecting rod (31), the third motor (29) is fixed on rotating block (11), described Third motor (29) is electrically connected with PLC, and the third motor (29) and first connecting rod (30) are sequentially connected, the first connecting rod (30) hinged by second connecting rod (31) and cylinder (13).

8. structurally stable anti-fracture bionical tower as described in claim 1, which is characterized in that during the hinge unit includes Core bar (32) and two intubations (33), the intubation (33) are fixed on trunk (2), and the both ends of the center-pole (32) are set respectively It sets in two intubations (33), the center-pole (32) is fixedly connected with the top of rotating block (11).

9. structurally stable anti-fracture bionical tower as described in claim 1, which is characterized in that the support unit includes the Four motors (34), buffer stopper (35), the 4th drive shaft (36), movable block (37) and support rod (38), the 4th motor (34) Be separately fixed at the top and bottom in recess with buffer stopper (35), the 4th drive shaft (36) be located at the 4th motor (34) and Between buffer stopper (35), the 4th motor (34) and the 4th drive shaft (36) are sequentially connected, and the movable block (37) is set in In 4th drive shaft (36), the movable block (37) be equipped with the junction of the 4th drive shaft (36) and the 4th drive shaft (36) Matched screw thread, hingedly by support rod (38) and trunk (2), the 4th motor (34) and PLC are electric for the movable block (37) Connection.

10. structurally stable anti-fracture bionical tower as described in claim 1, which is characterized in that the two sides of the trunk (2) Equipped with air velocity transducer (39), the air velocity transducer (39) is electrically connected with PLC.