CN110761610B - Digital information transmission tower capable of preventing strong wind and collapse - Google Patents

Abstract

The invention discloses a digital information transmission tower capable of preventing strong wind and collapse, which comprises a signal tower and a base, the base is fixedly embedded in the stratum, a rotating cavity with an upward opening is arranged in the base, the signal tower is rotatably arranged on the bottom wall of the rotating cavity, the upward extending part of the signal tower penetrates through the stratum, and extends out of the outside, the signal tower is connected with the stratum in a rotating fit manner, a wind vane used for detecting the wind direction is arranged on the top surface of the signal tower, the signal tower is internally provided with the wire wheel cavity, and the right side of the wire wheel cavity is communicated with the transmission cavity, the problem that the signal tower is inclined and collapsed due to overlarge wind power and ground settlement is solved, and the probability that surrounding pedestrians are injured by a crashing object or house vehicles are damaged due to collapse of the signal tower can be greatly reduced.

Description

Digital information transmission tower capable of preventing strong wind and collapse

Technical Field

The invention relates to the technical field of data information transmission, in particular to a digital information transmission tower capable of preventing strong wind and collapse.

Background

At present, along with the improvement of informatization level, the development level of a data information transmission technology is higher and higher, so that more and more corresponding data information transmission signal towers are caused, however, the data information transmission signal towers have the problems that the data information transmission signal towers collapse due to the influence of strong wind weather and wind power and the inclination caused by the settlement of the bottom surface, the data information transmission signal towers are damaged if the data information transmission signal towers are light, pedestrians nearby or house vehicles are damaged if the data information transmission signal towers are heavy, and the safety coefficient is very low.

Disclosure of Invention

The present invention is directed to a digital information transmission tower capable of preventing strong wind and collapse, which overcomes the above-mentioned drawbacks of the prior art.

The digital information transmission tower capable of preventing strong wind and collapse comprises a signal tower and a base, wherein the base is fixedly embedded in a stratum, a rotating cavity with an upward opening is formed in the base, the signal tower is rotatably arranged on the bottom wall of the rotating cavity, the upward extending part of the signal tower penetrates through the stratum and extends out of the outside, the signal tower is rotatably matched and connected with the stratum, a wind vane capable of detecting the wind direction is arranged on the top surface of the signal tower, a wire wheel cavity is formed in the signal tower, a transmission cavity is communicated with the right side of the wire wheel cavity, a first motor is fixedly arranged on the rear wall of the transmission cavity, a transmission mechanism capable of controlling the forward and reverse rotation of the first motor by the influence of the strong wind on the wind vane is arranged in the transmission cavity, and the rotation cavity is internally provided with a transmission mechanism capable of controlling the rotation of the signal tower by the forward and reverse rotation of the first motor, a power mechanism for matching the wind direction, an auxiliary body is fixedly arranged on the periphery of the signal tower, a wind-resistant mechanism capable of buffering the wind force to reduce the collapse possibility of the signal tower is arranged in the auxiliary body, four storage cavities which are centrosymmetric and have openings towards the outside are arranged in the signal tower, supporting plates are hinged on the inner walls of the storage cavities, the supporting plate can rotate outwards, the upper sides of the storage cavities are communicated with sliding cavities, sealing doors capable of sealing the storage cavities are arranged in the sliding cavities in a vertically sliding mode, an anti-collapse mechanism which can carry out emergency support and alarm when the signal tower falls down is arranged in the storage cavity, the signal tower is internally provided with a sensing cavity, the sensing cavity is positioned at the lower side of the storage cavity, and a sensing mechanism which can sense the signal tower to topple and control the closed door to be opened upwards is arranged in the sensing cavity.

The technical scheme is further that the transmission mechanism comprises a sliding block arranged on the top wall of the transmission cavity in a sliding mode, a first spring is fixedly arranged between the right side face of the sliding block and the right wall of the transmission cavity, a vertical rod is fixedly arranged on the bottom face of the sliding block, a contact head is fixedly arranged on the bottom face of the vertical rod, two induction blocks which are bilaterally symmetrical are electrically connected to the top face of the first motor, the induction blocks on the left side are in contact with the contact head to enable the first motor to rotate forwards, the induction blocks on the right side are in contact with the contact head to enable the first motor to rotate backwards, a vertical shaft is rotatably arranged on the top wall of the wire wheel cavity, a wire wheel is fixedly arranged on the bottom face of the vertical shaft, a connecting rope is wound on the periphery of the wire wheel, the connecting rope is fixedly connected with the left side face of the first spring, and a torsion spring is fixedly arranged between the bottom, the top surface of the signal tower is fixedly provided with a supporting block, the top surface of the supporting block is rotatably provided with a rotary table, the wind vane is fixedly arranged on the top surface of the rotary table, and the upward extending part of the vertical shaft penetrates through the inner walls of the signal tower and the supporting block and is fixedly connected with the bottom surface of the rotary table.

The power mechanism comprises a gear fixedly arranged in the rotating cavity and on the periphery of the signal tower, a short shaft is arranged on the bottom wall of the rotating cavity in a rotating mode, a driven wheel is fixedly arranged on the top surface of the short shaft, the driven wheel is meshed with the gear, a belt cavity is formed in the lower side of the rotating cavity, the downward extending part of the short shaft extends into the belt cavity, a motor shaft is arranged on the bottom surface of the first motor in a power connection mode, the downward extending part of the motor shaft penetrates through the inner walls of the signal tower and the base and extends into the belt cavity, and a belt transmission device is arranged between the motor shaft and the short shaft in a transmission connection mode.

According to a further technical scheme, the wind resisting mechanism comprises two ventilation cavities which are symmetrical front and back and are arranged in the auxiliary body, an air inlet with a right opening is formed in the auxiliary body and is communicated with the ventilation cavities, an air outlet with a left opening is formed in the auxiliary body and is communicated with the ventilation cavities.

In a further technical scheme, the anti-collapse mechanism comprises a spring cavity communicated with the storage cavity towards the vertical center side of the signal tower, a third spring is fixedly arranged between the vertical middle side wall of the spring cavity close to the signal tower and the support plate, a second spring is fixedly arranged between the top surface of the closed door and the top wall of the sliding cavity, a contact block is fixedly arranged on the top surface of the closed door positioned on the right side, a receiving block is fixedly embedded in the left side wall of the sliding cavity positioned on the right side, the top surface of the signal tower is fixedly provided with an alarm lamp, the alarm lamp is electrically connected with the sliding block and is provided with a signal layer, a fixed shaft is fixedly arranged on the front side surface of the supporting plate, a limiting block is fixedly arranged on the periphery of the fixed shaft, the periphery of the fixed shaft is rotatably provided with a gravity block, a limiting cavity is formed in the gravity block, and the limiting block is in sliding fit with the inner wall of the limiting cavity.

According to a further technical scheme, the induction mechanism comprises a second motor fixedly arranged on the bottom wall of the induction cavity, a balance controller is electrically connected to the left side of the second motor, a connecting shaft is arranged on the top surface of the second motor in a power connection mode, a gear cavity is formed in the upper side of the induction cavity, the gear cavity is communicated with the storage cavity and provided with a connecting cavity, an upward extending portion of the connecting shaft extends into the gear cavity, an end face gear is fixedly arranged on the top surface of the connecting cavity, a bolt is slidably arranged on the inner wall of the connecting cavity, screw sleeves are rotatably arranged on the front wall, the rear wall, the left wall and the right wall of the gear cavity respectively, driving wheels are fixedly arranged on the peripheries of the screw sleeves and are engaged with the end face gear, a screw rod is rotatably connected to the side close to each other of the bolt, and extends to the side of the gear cavity and penetrates through the screw sleeves and is, the bolt extends into the storage cavity towards the extending part on the other side, a pin slot is formed in the closed door, and the bolt can be inserted into the pin slot.

According to a further technical scheme, a signal emitting ring is arranged on the periphery of the auxiliary body, and four support rods with central symmetry are fixedly arranged between the signal emitting ring and the auxiliary body.

The invention has the beneficial effects that: the invention can effectively prevent the digital information transmission tower from collapsing due to overlarge wind power and the signal tower from inclining and collapsing due to ground settlement in strong wind weather, and can greatly reduce the probability of crashing peripheral pedestrians or damaging house vehicles due to the collapse of the signal tower, wherein the transmission mechanism can sense strong wind through a wind vane to control the forward and reverse rotation of the first motor, further the power mechanism controls the signal tower to rotate to a proper wind direction angle through the forward and reverse rotation of the first motor, the wind power is reduced through the wind resisting mechanism, the stabilizing effect is enhanced, the sensing mechanism can timely drive and control the anti-collapse mechanism to operate when the signal tower inclines, and the anti-collapse mechanism can emergently support and stabilize the signal tower and send an alarm.

Drawings

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

FIG. 2 is a schematic top view of the internal structure of the power mechanism of the present invention;

FIG. 3 is an enlarged schematic view of the gravity block of the present invention;

FIG. 4 is an enlarged view of the internal structure of the gear chamber of the present invention.

Detailed Description

The invention will now be described in detail with reference to fig. 1-4, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

Referring to fig. 1 to 4, the digital information transmission tower capable of preventing strong wind and collapse according to the embodiment of the present invention includes a signal tower 15 and a base 34, the base 34 is fixedly embedded in a ground layer 32, a rotating cavity 35 with an upward opening is provided in the base 34, the signal tower 15 is rotatably provided on a bottom wall of the rotating cavity 35, an upward extending portion of the signal tower 15 penetrates through the ground layer 32 and extends out of the outside, the signal tower 15 is rotatably connected with the ground layer 32 in a matching manner, a wind vane 11 capable of detecting a wind direction is provided on a top surface of the signal tower 15, a wire wheel cavity 23 is provided in the signal tower 15, a transmission cavity 55 is provided on a right side of the wire wheel cavity 23 in a communicating manner, a first motor 51 is fixedly provided on a rear wall of the transmission cavity 55, a transmission mechanism 101 capable of controlling rotation of the first motor 51 by the rotation of the wind vane 11 under the influence of strong wind is provided in the transmission cavity 55, a power mechanism 102 which can control the rotation of the signal tower 15 through the forward and reverse rotation of the first motor 51 to match the wind direction is arranged in the rotating cavity 35, an auxiliary body 19 is fixedly arranged on the periphery of the signal tower 15, a wind resisting mechanism 103 which can buffer the wind force to reduce the collapse possibility of the signal tower 15 is arranged in the auxiliary body 19, four storage cavities 27 which are symmetrical in center and open to the outside are arranged in the signal tower 15, supporting plates 29 are hinged on the inner walls of the storage cavities 27, the supporting plates 29 can rotate to the outside, sliding cavities 25 are communicated with the upper sides of the storage cavities 27, a sealing door 49 which can seal the storage cavities 27 is arranged in the sliding cavities 25 in a vertical sliding manner, an anti-collapse mechanism 104 which can emergently support and alarm when the signal tower 15 is toppled is arranged in the storage cavities 27, and an induction cavity 45 is arranged in the signal tower 15, the sensing cavity 45 is positioned at the lower side of the storage cavity 27, and a sensing mechanism 105 which can sense the signal tower 15 to topple and control the closing door 49 to be opened upwards is arranged in the sensing cavity 45.

In addition, in one embodiment, the transmission mechanism 101 includes a sliding block 57 slidably disposed on the top wall of the transmission cavity 55, a first spring 56 is fixedly mounted between the right side surface of the sliding block 57 and the right wall of the transmission cavity 55, a vertical rod 54 is fixedly disposed on the bottom surface of the sliding block 57, a contact 53 is fixedly disposed on the bottom surface of the vertical rod 54, two bilateral symmetry induction blocks 52 are electrically connected to the top surface of the first motor 51, the left side induction block 52 contacts with the contact 53 to enable the first motor 51 to rotate forward, the right side induction block 52 contacts with the contact 53 to enable the first motor 51 to rotate backward, a vertical shaft 16 is rotatably disposed on the top wall of the pulley cavity 23, a pulley 21 is fixedly disposed on the bottom surface of the vertical shaft 16, a connection rope 22 is wound around the outer periphery of the pulley 21, and the connection rope 22 is fixedly connected to the left side surface of the first spring 56, a torsion spring 24 is fixedly installed between the bottom surface of the wire wheel 21 and the bottom wall of the wire wheel cavity 23, a supporting block 13 is fixedly installed on the top surface of the signal tower 15, a rotary table 12 is rotatably installed on the top surface of the supporting block 13, the wind vane 11 is fixedly installed on the top surface of the rotary table 12, the upward extending part of the vertical shaft 16 penetrates through the signal tower 15 and the inner wall of the supporting block 13 and is fixedly connected with the bottom surface of the rotary table 12, when the wind vane 11 receives strong wind influence, the wind vane 11 can rotate according to the wind direction, so that the vertical shaft 16 can drive the wire wheel 21 to rotate, when the wire wheel 21 rotates forwards, the connecting rope 22 can drive the sliding block 57 to move leftwards, so that the vertical rod 54 can drive the contact head 53 to move leftwards, so that the contact head 53 can contact the left induction block 52 and the first motor 51 in forward rotation, when the wire wheel 21 rotates reversely, the connecting rope 22 can be loosened, so that the first spring 56 can drive the sliding block 57 to move rightwards, the vertical rod 54 can drive the contact head 53 to move rightwards, the contact head 53 can be contacted with the right induction block 52, the first motor 51 rotates reversely, and the wind vane 11 is not influenced when weak wind is received through the action of the torsion spring 24.

In addition, in one embodiment, the power mechanism 102 includes a gear 36 fixed on the outer periphery of the signal tower 15 in the rotation cavity 35, a short shaft 43 is rotatably disposed on the bottom wall of the rotation cavity 35, a driven wheel 44 is fixed on the top surface of the short shaft 43, the driven wheel 44 is engaged with the gear 36, a belt cavity 40 is disposed on the lower side of the rotation cavity 35, a downward extending portion of the short shaft 43 extends into the belt cavity 40, a motor shaft 41 is dynamically connected to the bottom surface of the first motor 51, a downward extending portion of the motor shaft 41 penetrates through the inner walls of the signal tower 15 and the base 34 and extends into the belt cavity 40, a belt transmission device 42 is drivingly connected between the motor shaft 41 and the short shaft 43, and the motor shaft 41 can drive the short shaft 43 to rotate by the operation of the first motor 51, so that the driven wheel 44 can drive the gear 36 to rotate, the signal tower 15 is rotated, and when the first motor 51 rotates in the forward direction, the signal tower 15 rotates in the reverse direction, and when the first motor 51 rotates in the reverse direction, the signal tower 15 rotates in the forward direction.

In addition, in one embodiment, the wind resisting mechanism 103 includes two ventilation chambers 20 that are symmetrical front and back and are opened in the auxiliary body 19, an air inlet 60 with a right opening is formed in the auxiliary body 19, the air inlet 60 is communicated with the ventilation chambers 20, an air outlet 61 with a left opening is formed in the auxiliary body 19, the air outlet 61 is communicated with the ventilation chambers 20, when strong wind blows from the right side to the left side, a portion of the wind will be dispersed by the front and back sides of the auxiliary body 19 and then rejoined at the left side of the air outlet 61, a portion of the wind will enter the ventilation chambers 20 from the air inlet 60 and then blow from the air outlet 61 to the left side, and a certain impact force will be generated after the two portions of the wind are merged, so that a reaction force can be applied to the signal tower 15 to stabilize the signal tower 15 against falling in the strong wind.

In addition, in one embodiment, the anti-collapse mechanism 104 includes a spring cavity 30 disposed in the storage cavity 27 toward the vertical center of the signal tower 15, a third spring 31 is fixedly mounted between the spring cavity 30 and the support plate 29, a second spring 26 is fixedly mounted between the top surface of the door 49 and the top wall of the sliding cavity 25, a contact block 50 is fixedly disposed on the top surface of the door 49 on the right side, a receiving block 58 is fixedly embedded in the left side wall of the sliding cavity 25 on the right side, an alarm lamp 14 is fixedly disposed on the top surface of the signal tower 15, the alarm lamp 14 is electrically connected to the sliding block 57 and provided with a signal layer 59, a fixed shaft 63 is fixedly disposed on the front side surface of the support plate 29, a limiting block 64 is fixedly disposed on the periphery of the fixed shaft 63, a gravity block 62 is rotatably disposed on the periphery of the fixed shaft 63, the gravity block 62 is internally provided with a limiting cavity 65, the limiting block 64 is in sliding fit with the inner wall of the limiting cavity 65, the closing door 49 is opened upwards, the contact block 50 can be contacted with the receiving block 58, and the alarm lamp 14 can be further enabled to give an alarm, when the closing door 49 is opened upwards, the third spring 31 can drive the supporting plate 29 to pop outwards, so that the gravity block 62 can rotate ninety degrees around the fixed shaft 63, and the gravity block 62 and the supporting plate 29 can be temporarily stabilized on the signal tower 15.

In addition, in an embodiment, the sensing mechanism 105 includes a second motor 39 fixedly disposed on the bottom wall of the sensing cavity 45, a balance controller 38 is disposed on the left side of the second motor 39, a connecting shaft 46 is disposed on the top surface of the second motor 39 in a power connection manner, a gear cavity 69 is disposed on the upper side of the sensing cavity 45, the gear cavity 69 is communicated with the storage cavity 27 and is provided with a connecting cavity 37, an upward extending portion of the connecting shaft 46 extends into the gear cavity 69, a face gear 68 is fixedly disposed on the top surface of the connecting shaft, a bolt 48 is slidably disposed on the inner wall of the connecting cavity 37, a threaded sleeve 66 is rotatably disposed on each of the front wall, the rear wall, the left wall, the right wall, the left wall and the rear wall of the gear cavity 69, a driving wheel 67 is fixedly disposed on the periphery of the threaded sleeve 66, the driving wheel 67 is engaged with the face gear 68, a screw 70 is rotatably coupled to the mutually close side of the bolt 48, and the screw 70, and is in threaded fit with the threaded sleeve 66, the extended part of the bolt 48 towards the other side extends into the storage cavity 27, a pin slot 47 is formed in the closing door 49, the bolt 48 can be inserted into the pin slot 47, when the signal tower 15 tilts, the balance controller 38 can control the second motor 39 to operate, and then the connecting shaft 46 can drive the threaded sleeve 66 to rotate, so that the screw 70 can drive the bolt 48 to move towards the gear cavity 69 side, the bolt 48 can leave the pin slot 47, and then the closing door 49 can be opened upwards.

In addition, in one embodiment, the periphery of the auxiliary body 19 is provided with a signal emitting ring 17, four centrosymmetric support rods 18 are fixedly arranged between the signal emitting ring 17 and the auxiliary body 19, the signal emitting ring 17 plays a role in signal transmission, and the support rods 18 have a fixed support effect.

In the initial state, the first spring 56, the stem 54 and the contact head 53 are all in the intermediate position, the contact head 53 and the sensing block 52 are not in contact, and the closing door 49 is in the closed state.

When the wind vane is used, when the wind vane 11 receives the influence of strong wind, the wind vane 11 can rotate according to the wind direction, and further the vertical shaft 16 can drive the reel 21 to rotate, when the reel 21 rotates forwards, the connecting rope 22 can drive the sliding block 57 to move leftwards, and further the vertical rod 54 can drive the contact 53 to move leftwards, so that the contact 53 can contact the left sensing block 52, and the first motor 51 rotates forwards, when the reel 21 rotates backwards, the connecting rope 22 can be loosened, so that the first spring 56 can drive the sliding block 57 to move rightwards, and further the vertical rod 54 can drive the contact 53 to move rightwards, so that the contact 53 can contact the right sensing block 52, and the first motor 51 rotates backwards, and the wind vane 11 can receive weak wind without being influenced by the action of the torsion spring 24, and the motor shaft 41 can drive the short shaft 43 to rotate by the operation of the first motor 51, and further the driven wheel 44 can drive the gear 36 to rotate, the signal tower 15 can be rotated, when the first motor 51 rotates forward, the signal tower 15 rotates backward, when the first motor 51 rotates backward, the signal tower 15 rotates forward, when strong wind blows from the right side to the left side, a part of wind can be dispersed through the front and back side surfaces of the auxiliary body 19 and then rejoins at the left side of the air outlet 61, a part of wind can enter the ventilation chamber 20 from the air inlet 60 and then blows from the air outlet 61 to the left side, after the two parts of wind are joined, a certain impact force can be generated, further, a reaction force can be provided for the signal tower 15 to enable the signal tower 15 to be stable and not fall down in the strong wind, when the signal tower 15 inclines, the balance controller 38 can control the second motor 39 to operate, further, the connecting shaft 46 can drive the threaded sleeve 66 to rotate, further, the screw rod 70 can drive the bolt 48 to move to the gear chamber 69 side, the bolt 48 can be separated from the pin slot 47, further, the closed door 49 can be opened upwards, and the closed door 49 can be, the contact block 50 can be brought into contact with the receiving block 58, and the warning lamp 14 can be activated to give an alarm, and when the closing door 49 is opened upwards, the third spring 31 can drive the support plate 29 to pop outwards, so that the gravity block 62 can be rotated ninety degrees around the fixed shaft 63, and the gravity block 62 and the support plate 29 can be temporarily stabilized on the signal tower 15.

The invention has the beneficial effects that: the invention can effectively prevent the digital information transmission tower from collapsing due to overlarge wind power and the signal tower from inclining and collapsing due to ground settlement in strong wind weather, and can greatly reduce the probability of crashing peripheral pedestrians or damaging house vehicles due to the collapse of the signal tower, wherein the transmission mechanism can sense strong wind through a wind vane to control the forward and reverse rotation of the first motor, further the power mechanism controls the signal tower to rotate to a proper wind direction angle through the forward and reverse rotation of the first motor, the wind power is reduced through the wind resisting mechanism, the stabilizing effect is enhanced, the sensing mechanism can timely drive and control the anti-collapse mechanism to operate when the signal tower inclines, and the anti-collapse mechanism can emergently support and stabilize the signal tower and send an alarm.

It will be apparent to those skilled in the art that various modifications may be made to the above embodiments without departing from the general spirit and concept of the invention. All falling within the scope of protection of the present invention. The protection scheme of the invention is subject to the appended claims.

Claims (7)

1. The utility model provides a can prevent strong wind and digital information transmission tower that collapses, includes signal tower and base, its characterized in that: the base is fixedly embedded in a stratum, a rotating cavity with an upward opening is formed in the base, the signal tower is rotatably arranged on the bottom wall of the rotating cavity, the upward extending part of the signal tower penetrates through the stratum and extends out of the outside, the signal tower is connected with the stratum in a rotating matching mode, a wind vane used for detecting the wind direction is arranged on the top surface of the signal tower, a wire wheel cavity is formed in the signal tower, the right side of the wire wheel cavity is communicated with a transmission cavity, a first motor is fixedly arranged on the rear wall of the transmission cavity, a transmission mechanism capable of controlling the first motor to rotate forward and backward through the influence of strong wind of the wind vane is arranged in the transmission cavity, and a power mechanism capable of controlling the signal tower to rotate through the forward and backward rotation of the first motor to match the wind direction is arranged in the rotating cavity;

the auxiliary body is fixedly arranged on the periphery of the signal tower, the auxiliary body is internally provided with a wind-resistant mechanism capable of buffering wind power to reduce the collapse possibility of the signal tower, the signal tower is internally provided with four storage cavities which are centrosymmetric and have openings towards the outside, the inner walls of the storage cavities are respectively hinged with a support plate, the support plates can rotate towards the outside, the upper sides of the storage cavities are respectively communicated with a sliding cavity, the sliding cavities are internally and vertically provided with a closed door capable of closing the storage cavities in a sliding manner, the storage cavities are internally provided with collapse-preventing mechanisms capable of emergently supporting and alarming when the signal tower is toppled, an induction cavity is arranged in the signal tower and is positioned at the lower side of the storage cavities, and the induction cavity is internally provided with an induction mechanism capable of inducing the signal tower to topple and controlling the closed door to be opened upwards.

2. The strong wind and collapse resistant digital information transmission tower of claim 1, wherein: the transmission mechanism comprises a sliding block which is arranged on the top wall of the transmission cavity in a sliding manner, a first spring is fixedly arranged between the right side surface of the sliding block and the right wall of the transmission cavity, a vertical rod is fixedly arranged on the bottom surface of the sliding block, a contact head is fixedly arranged on the bottom surface of the vertical rod, two induction blocks which are bilaterally symmetrical are electrically connected with the top surface of the first motor, the induction blocks on the left side are in contact with the contact head to enable the first motor to rotate forwards, the induction blocks on the right side are in contact with the contact head to enable the first motor to rotate backwards, a vertical shaft is rotatably arranged on the top wall of the wire wheel cavity, a wire wheel is fixedly arranged on the bottom surface of the vertical shaft, a connecting rope is wound on the periphery of the wire wheel and is fixedly connected with the left side surface of the first spring, a torsion spring is fixedly arranged between the bottom surface of the wire wheel and the bottom wall of the wire, the top surface of the supporting block is rotatably provided with a rotary table, the wind vane is fixedly arranged on the top surface of the rotary table, and the vertical axial upward extending part penetrates through the signal tower and the inner wall of the supporting block and is fixedly connected with the bottom surface of the rotary table.

3. A strong wind and collapse resistant digital information transmission tower according to claim 1 or 2, wherein: the power mechanism comprises a gear fixedly arranged on the periphery of the signal tower in the rotating cavity, a short shaft is rotatably arranged on the bottom wall of the rotating cavity, a driven wheel is fixedly arranged on the top surface of the short shaft, the driven wheel is meshed with the gear, a belt cavity is formed in the lower side of the rotating cavity, the downward extending part of the short shaft extends into the belt cavity, a motor shaft is arranged on the bottom surface of the first motor in a power connection mode, the downward extending part of the motor shaft penetrates through the inner wall of the signal tower and the inner wall of the base and extends into the belt cavity, and a belt transmission device is arranged between the motor shaft and the short shaft in a transmission connection mode.

4. The strong wind and collapse resistant digital information transmission tower of claim 1, wherein: the wind-resistant mechanism comprises two ventilation cavities which are symmetrical in the front and back and are arranged in the auxiliary body, an air inlet with a right opening is formed in the auxiliary body and is communicated with the ventilation cavities, an air outlet with a left opening is formed in the auxiliary body and is communicated with the ventilation cavities.

5. The strong wind and collapse resistant digital information transmission tower of claim 2, wherein: the anti-collapse mechanism includes that the intercommunication is established deposit the chamber to the spring chamber of the vertical center side of signal tower, being close to in spring chamber the vertical well lateral wall of signal tower with fixed mounting has the third spring between the backup pad, the top surface of closed door with fixed mounting has the second spring between the roof in slip chamber, is located the right side the top surface of closed door has set firmly contact block, is located the right side the left side wall of slip chamber is embedded to have the receipt piece, the top surface of signal tower has set firmly the alarm lamp, the alarm lamp with slider electric connection is equipped with the signal layer, the leading flank of backup pad has set firmly the fixed axle, set firmly the restriction piece in the periphery of fixed axle, it is equipped with the gravity piece to rotate in the periphery of fixed axle, seted up the restriction chamber in the gravity piece, the restriction piece with the inner wall sliding fit in restriction chamber.

6. The strong wind and collapse resistant digital information transmission tower according to claim 1 or 5, wherein: the induction mechanism comprises a second motor fixedly arranged on the bottom wall of the induction cavity, a balance controller is electrically connected and arranged on the left side of the second motor, a connecting shaft is arranged on the top surface of the second motor in a power connection mode, a gear cavity is formed in the upper side of the induction cavity, the gear cavity is communicated with the storage cavity to form a connecting cavity, an upward extending part of the connecting shaft extends into the gear cavity, a face gear is fixedly arranged on the top surface of the connecting shaft, bolts are slidably arranged on the inner wall of the connecting cavity, screw sleeves are rotatably arranged on the front wall, the rear wall, the left wall and the right wall of the gear cavity respectively, driving wheels are fixedly arranged on the peripheries of the screw sleeves and are meshed with the face gear, a screw rod is rotatably connected and arranged on the side close to each other of the bolts, the extending part of the screw rod towards the side of the gear cavity penetrates through the screw sleeves and is in threaded fit with the screw sleeves, and, a pin slot is formed in the closed door, and the plug pin can be inserted into the pin slot.

7. The strong wind and collapse resistant digital information transmission tower of claim 1, wherein: the periphery of the auxiliary body is provided with a signal transmitting ring, and four centrosymmetric support rods are fixedly arranged between the signal transmitting ring and the auxiliary body.

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