CN111261995A - Full-automatic intelligent pole of embracing of communication tower antenna - Google Patents

Abstract

The invention belongs to the technical field of communication signal transmission, and particularly relates to a full-automatic intelligent pole for a communication iron tower antenna, which comprises a supporting component, a fixing component and a connecting component, wherein the fixing component is positioned on one side of the supporting component, the connecting component is sleeved on the fixing component, the supporting component comprises a supporting rod, the fixing component comprises a steel drawing and an inner connecting rod, the steel drawing is sleeved at one end of the supporting rod, the inner side wall of the fixing component is fixedly welded with the inner connecting rod, and the fixing component and the supporting rod are fixedly welded through the inner connecting rod; the pole is embraced in vertically running through of third lead screw, and exposes and be equipped with the bearing in the outside one end of embracing the pole, and third lead screw and embracing the pole and rotate through the bearing and connect, and when the driving cog rotated, second connecting axle and third connecting axle structure were the same, and then made second connecting axle and third connecting axle rotate along the screw thread on first lead screw and the second lead screw, further made the third lead screw through the bearing at embracing the pole internal rotation, and then realized the horizontal rotation of signalling subassembly.

Description

Full-automatic intelligent pole of embracing of communication tower antenna

Technical Field

The invention belongs to the technical field of communication signal transmission, and particularly relates to a full-automatic intelligent holding pole for a communication iron tower antenna.

Background

After decades of development in China, the communication iron tower is a single-pipe tower, an angle steel tower, a three-pipe tower, a roof support or a special model tower type, the antenna is hung in a mode that the traditional bolt is fixedly connected onto a pipe body holding pole of the iron tower with the specification of 70MM-75MM multiplied by 4MM, the holding pole is fixedly connected onto the iron tower in a bolt connection mode, and the antenna is evenly hung on an iron tower platform at 360 degrees, so that the coverage rate of a wave band is achieved. The original antenna can not be finely tuned up and down, and can not be finely tuned left and right, and the inverted fine tuning of the antenna can not enable the antenna wave band to cover the space between tall buildings and shelter areas. In order to meet the coverage rate of 4G signals, Chinese iron tower companies and three operators continuously select sites to build more iron tower base stations and roof base stations, at present, domestic iron towers almost completely cover all areas, the 4G coverage rate is basically met, along with the progress and development of the society, people are about to step into the 5G era, the antenna connection mode of the 5G era is still the traditional bolt connection pole holding mode, but the omnibearing coverage without dead angles can still not be achieved. The problem is effectively solved by the full-automatic intelligent holding pole.

The full-automatic intelligent pole of embracing of original communication iron tower, the signal transmission angle can not change or need staff's manual change, increases staff's operation burden, brings inconvenience for the staff, and the full-automatic intelligent pole of embracing of current communication iron tower can not the full aspect regulation moreover, brings inconvenience for the staff.

Disclosure of Invention

For solving the original full-automatic intelligent pole of embracing of communication tower that proposes among the above-mentioned background art, the signal transmission angle can not change or need staff's manual change, increases staff's operation burden, brings inconvenience for the staff, and the full-automatic intelligent pole of embracing of current original communication tower can not the full-range regulation moreover, brings inconvenient problem for the staff.

In order to achieve the purpose, the invention provides the following technical scheme: a full-automatic intelligent pole for communication iron tower antenna comprises a support component, a fixing component positioned on one side of the support component and a connecting component sleeved on the fixing component, wherein the support component comprises a supporting rod, the fixing component comprises a steel ring and an inner connecting rod, the steel ring is sleeved at one end of the supporting rod, the inner side wall of the fixing component is welded and fixed with the inner connecting rod, the fixing component and the supporting rod are welded and fixed through the inner connecting rod, the connecting component mainly comprises a connecting ring, a first connecting plate and a clamping plate, the connecting ring is sleeved on the outer side wall of the steel ring, the steel ring is clamped and connected, the first connecting plate is welded and fixed on one side of the connecting ring, which is far away from the connecting ring, of the clamping plate is positioned on one side of the first connecting plate, which is far away from the, the device also comprises a placing component connected through the connecting component, a telescopic component and a limiting component positioned on one side of the placing component, and a signal transmitting component connected with the telescopic component and the limiting component;

the placing assembly comprises an embracing rod, a first motor, a first lead screw, a second lead screw, a third lead screw and a second motor, the embracing rod is positioned at one side of the clamping plate far away from the first connecting plate, the embracing rod and the clamping plate are welded and fixed, the inside of the embracing rod is of a hollow structure, the first motor is positioned at the inside of the embracing rod, a first base is welded and fixed on the outer surface of the first motor, the first motor and the embracing rod are welded and fixed through the first base, the transmission end of the first motor is fixedly connected with the first lead screw, one end of the first lead screw is connected with the transmission end of the first motor, the other end of the first lead screw extends to the upper part of the first motor, a first connecting sleeve is sleeved on the outer side wall of the first lead screw, the first lead screw is connected with the embracing rod through the first connecting sleeve in a sliding manner, the second lead screw is fixedly arranged above the first lead screw near the inside of the embracing rod, the one end of second lead screw with the upper surface inboard welding of embracing the pole is fixed, the other end of second lead screw extends to the top of first lead screw, the lateral wall cover of second lead screw is equipped with the second adapter sleeve, the second lead screw with embrace the pole and pass through second adapter sleeve sliding connection, the third lead screw is located embrace the inside of pole and be close to the place ahead of first lead screw, vertically run through of third lead screw embrace the pole, and expose in the outside one end of embracing the pole is equipped with the bearing, the third lead screw with embrace the pole and pass through the bearing rotates the connection, the lateral wall of third lead screw from last down overlaps in proper order and is equipped with first sleeve axle and second sleeve axle, first sleeve axle with the second sleeve axle is in slide on the third lead screw, the lateral wall cover of first sleeve axle is equipped with the second connecting axle, a pot head of second is established on the first sleeve axle, the other end of the second connecting shaft is sleeved on the second screw rod, the outer side wall of the second sleeve shaft is sleeved with a third connecting shaft, one end of the third connecting shaft is sleeved on the second sleeve shaft, the other end of the third connecting shaft is sleeved on the first screw rod, one side of the second screw rod is provided with a second motor, a second base is fixedly arranged on the outer side wall of the second motor, the second motor and the holding pole are fixedly welded through the second base, a transmission chain is sleeved at the transmission end of the second motor, and the outer side wall of the third screw rod is also sleeved with a transmission gear above the first sleeve shaft, one end of the transmission chain is sleeved on the transmission gear, the transmission teeth are connected in a sliding manner, the other end of the transmission chain is sleeved on the transmission end of the second motor, and the first motor and the second motor are both electrically connected with an external power supply;

the telescopic assembly mainly comprises a telescopic rod, a second connecting plate, a first connecting rod, a first connecting shaft and a second connecting rod, the second connecting rod is welded and fixed on the first sleeve shaft, the first connecting shaft is arranged at one end, away from the first sleeve shaft, of the second connecting rod, the first connecting rod is further arranged on the outer side wall of the first connecting shaft, the second connecting rod and the first connecting rod are rotatably connected through the first connecting shaft, the second connecting plate is arranged at one end, away from the first connecting shaft, of the first connecting rod, the telescopic rod is positioned above the second connecting rod, one end of the telescopic rod is fixedly connected with the second connecting rod, the telescopic end of the telescopic rod is fixedly connected with the first connecting rod, and the telescopic rod is electrically connected with an external power supply;

the limiting assembly mainly comprises a third sleeve shaft, a spring rod and a third connecting plate, the third sleeve shaft is sleeved on the outer side wall of the third screw rod and is close to the upper part of the second sleeve shaft, the third sleeve shaft is connected with the third screw rod in a sliding manner, the spring rod is fixedly welded on the outer side wall of the third sleeve shaft, and the third connecting plate is fixedly welded on one end, far away from the third sleeve shaft, of the spring rod;

the signal transmitting assembly mainly comprises a signal transmitting plate and a wire, the signal transmitting plate is located on one side of the placement assembly, one side of the signal transmitting plate is fixedly connected with the second connecting plate and the third connecting plate, the wire is located on the bottom surface of the signal transmitting plate, the signal transmitting plate is in threaded connection, and the signal transmitting plate is electrically connected with an external power supply.

As the preferable technical scheme of the full-automatic intelligent pole holding device for the communication iron tower antenna, the second motor is in rotary connection with the transmission teeth through the transmission chain and is used for rotating the third screw rod.

According to the preferable technical scheme of the full-automatic intelligent holding pole for the communication iron tower antenna, the second connecting rod is connected with the first connecting rod through the first connecting shaft, the second connecting rod, the first connecting rod and the telescopic rod form a triangular structure, and the telescopic rod is used for rotating the first connecting rod when being stretched.

According to the preferable technical scheme of the full-automatic intelligent holding pole for the communication iron tower antenna, the outer side of the first screw rod is provided with an external thread, the third connecting shaft is sleeved on the inner side wall of one end of the first screw rod and is provided with an internal thread, the first screw rod and the third connecting shaft are connected through the internal thread and the external thread, and the first motor drives the first screw rod to rotate so that the second sleeve shaft can move in the vertical direction of the outer side wall of the third screw rod.

As the preferable technical scheme of the full-automatic intelligent pole-holding of the communication iron tower antenna, the signal transmitting plate is in signal connection with the signal station through the wire.

According to the preferable technical scheme of the full-automatic intelligent holding pole for the communication tower antenna, the number of the holding poles is three, and the three holding poles are symmetrically distributed on the outer side wall of the supporting component.

According to the preferable technical scheme of the full-automatic intelligent pole for the communication iron tower antenna, the number of the connecting components is six, every two connecting components form a group, and each placing component and each fixing component are connected in a clamping mode through one group of the connecting components.

According to the preferable technical scheme of the full-automatic intelligent pole holding device for the communication iron tower antenna, the inner side wall of the first connecting sleeve is provided with internal threads, and the third connecting shaft is limited by the first connecting sleeve when moving in the vertical direction of the outer side wall of the first screw rod.

According to the preferable technical scheme of the full-automatic intelligent pole holding device for the communication tower antenna, the inner side wall of the second connecting sleeve is provided with internal threads, and the second connecting shaft is limited by the second connecting sleeve when moving in the vertical direction of the outer side wall of the second screw rod.

As the preferable technical scheme of the full-automatic intelligent holding pole for the communication iron tower antenna, the supporting rod, the steel ring, the inner connecting rod and the holding pole are all made of stainless steel materials.

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

1. according to the invention, when the second motor rotates, the transmission gear is driven to rotate through the transmission chain, the transmission gear is sleeved on the third screw rod, the third screw rod is positioned inside the holding rod and close to the front of the first screw rod, the third screw rod longitudinally penetrates through the holding rod, a bearing is arranged at one end exposed outside the holding rod, the third screw rod is rotatably connected with the holding rod through the bearing, when the transmission gear rotates, the second connecting shaft and the third connecting shaft have the same structure, so that the second connecting shaft and the third connecting shaft rotate along the threads on the first screw rod and the second screw rod, the third screw rod further rotates in the holding rod through the bearing, and the horizontal rotation of the signal transmitting assembly is further realized.

2. According to the invention, the holding pole is of a hollow structure, the first motor is arranged inside the holding pole, when the first motor rotates, the first screw rod is driven to rotate, the third connecting shaft is driven to slide upwards through the external thread of the first screw rod, the second sleeve shaft is driven to slide vertically on the third screw rod due to the connection of the third connecting shaft and the second sleeve shaft, when the second sleeve shaft slides, the second sleeve shaft is abutted against the third sleeve shaft to slide, the first sleeve shaft further slides on the third screw rod, and the second connecting shaft is arranged on the first sleeve shaft, so that the second connecting shaft slides on the second screw rod, the signal transmitting assembly further moves vertically, and the signal transmitting assembly further moves vertically.

3. According to the telescopic rod, when the telescopic rod is stretched, the second connecting rod and the first connecting rod rotate through the first connecting shaft, so that the signal transmitting plate extrudes the spring rod, a quadrilateral structure is formed through the second connecting rod, the first connecting rod, the spring rod and the third screw rod, the signal transmitting plate is enabled to present a certain inclination angle according to the instability of a quadrilateral, the signal transmitting position of the signal transmitting plate is changed, and convenience is brought to consumers.

In summary, the following steps: the full-automatic intelligent pole is controlled by the remote control system to control the antenna to be turned upside down for fine adjustment, so that the antenna signal wave band of the full-automatic intelligent pole effectively covers a personnel gathering area and a dead corner area of a tall building, repeated construction and resource waste of a base station in the 5G era are avoided, the full-automatic intelligent pole still adopts a traditional pipe body with the specification of 70MM-75MM x 4MM, the full-automatic intelligent pole is additionally provided with the antenna to completely realize the vertical movement, the left and right movement and the inverted fine adjustment of the antenna through the remote control.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

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

FIG. 2 is a schematic view of a connecting assembly according to the present invention;

FIG. 3 is a schematic front view of the present invention;

FIG. 4 is a schematic view of a placement module according to the present invention;

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

FIG. 6 is a schematic view of the telescoping assembly of the present invention;

FIG. 7 is a schematic structural diagram of a signal transmitting assembly according to the present invention;

FIG. 8 is a signal transmission diagram of the signal transmitting assembly according to the present invention;

in the figure: 1. a support assembly; 11. a support bar; 2. a connecting assembly; 21. a connecting ring; 22. a first connecting plate; 23. clamping a plate; 3. a telescoping assembly; 31. a telescopic rod; 32. a second connecting plate; 33. a first connecting rod; 34. a first connecting shaft; 35. a second connecting rod; 4. a signal emitting assembly; 41. a signal emitting board; 42. a wire; 5. placing the component; 51. holding the pole; 52. a first motor; 521. a first base; 53. a first lead screw; 531. a first connecting sleeve; 54. a second lead screw; 541. a second connecting sleeve; 55. a third screw rod; 551. a bearing; 552. a second connecting shaft; 553. a first sleeve shaft; 554. a second sleeve shaft; 555. a third connecting shaft; 56. a second motor; 561. a second base; 562. a transmission gear; 563. a drive chain; 6. a fixing assembly; 61. steel rings; 62. an inner link; 7. a limiting component; 71. a third sleeve shaft; 72. a spring lever; 73. and a third connecting plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

Referring to fig. 1-3, the present invention provides a technical solution: a full-automatic intelligent pole for communication iron tower antenna comprises a support component 1, a fixing component 6 positioned on one side of the support component 1 and a connecting component 2 sleeved on the fixing component 6, wherein the support component 1 comprises a support rod 11, the fixing component 6 comprises a steel ring 61 and an inner connecting rod 62, the steel ring 61 is sleeved at one end of the support rod 11, the inner side wall of the fixing component 6 is fixedly welded with the inner connecting rod 62, the fixing component 6 and the support rod 11 are fixedly welded through the inner connecting rod 62, the connecting component 2 mainly comprises a connecting ring 21, a first connecting plate 22 and a clamping plate 23, the connecting ring 21 is sleeved on the outer side wall of the steel ring 61, the steel ring 61 is clamped and connected, the first connecting plate 22 is fixedly welded on one side of the connecting ring 21 far away from the connecting ring 21, the clamping plate 23 is positioned on one side of the first connecting plate 22 far away from the connecting ring 21, the telescopic component 3 and the limiting component 7 are positioned on one side of the placing component 5, and the signal transmitting component 4 is connected with the telescopic component 3 and the limiting component 7.

In this embodiment: this pole is embraced to full-automatic intelligence mainly by supporting component 1, coupling assembling 2, flexible subassembly 3, signalling subassembly 4, place subassembly 5, fixed subassembly 6 and spacing subassembly 7 are constituteed, the staff places the workplace to bracing piece 11, be equipped with steel ring 61 in the outside of bracing piece 11, inner connecting rod 62 through the steel ring 61 inboard, connect steel ring 61 and bracing piece 11, be equipped with go-between 21 on steel ring 61, go-between 21, first connecting plate and cardboard 23 make up into coupling assembling 2, the staff is through this 2 fixed places subassembly 5 of coupling assembling, this fixed mode is for dismantling the connection, make things convenient for the staff to overhaul, bring the facility for the staff.

Specifically, the support rod 11, the steel ring 61, the inner connecting rod 62 and the holding rod 51 are all made of stainless steel.

In this embodiment, the stainless steel material is 304 stainless steel, and this stainless steel corrosion resistance is strong, can improve the life of bracing piece 11, steel ring 61, inner connecting rod 62 and armful pole 51, reduces the cost of staff's later stage maintenance.

Specifically, the number of the connecting assemblies 2 is six, every two connecting assemblies 2 form a group, and each placing assembly 5 and each fixing assembly 6 are connected through the group of connecting assemblies 2 in a clamping mode.

Specifically, the number of the poles 51 is three, and the three poles 51 are symmetrically distributed on the outer side wall of the support component 1.

In this embodiment, the three poles 51 are convenient for different operators to use, and bring convenience to consumers.

Example 2

Referring to fig. 4, in the present embodiment: the vertical movement of the signal transmitting assembly 4 is introduced, the placing assembly 5 comprises a holding rod 51, a first motor 52, a first screw rod 53, a second screw rod 54, a third screw rod 55 and a second motor 56, the holding rod 51 is positioned on one side of the clamping plate 23 far away from the first connecting plate 22, the holding rod 51 and the clamping plate 23 are welded and fixed, the inside of the holding rod 51 is of a hollow structure, the first motor 52 is positioned inside the holding rod 51, a first base 521 is welded and fixed on the outer surface of the first motor 52, the first motor 52 and the holding rod 51 are welded and fixed through the first base 521, a first screw rod 53 is fixedly connected to the transmission end of the first motor 52, one end of the first screw rod 53 is connected with the transmission end of the first motor 52, the other end of the first screw rod extends to the upper side of the first motor 52, a first connecting sleeve 531 is sleeved on the outer side wall of the first screw rod 53, the first screw rod 53 and the holding rod 51 are connected in a sliding mode through the first connecting sleeve 531, a second screw rod 54 is fixedly arranged, one end of the second lead screw 54 is welded and fixed with the inner side of the upper surface of the holding pole 51, the other end of the second lead screw 54 extends to the upper side of the first lead screw 53, the outer side wall of the second lead screw 54 is sleeved with a second connecting sleeve 541, the second lead screw 54 is connected with the holding pole 51 in a sliding way through the second connecting sleeve 541, the third lead screw 55 is positioned in the holding pole 51 and close to the front of the first lead screw 53, the third lead screw 55 longitudinally penetrates through the holding pole 51, one end exposed out of the holding pole 51 is provided with a bearing 551, the third lead screw 55 is connected with the holding pole 51 in a rotating way through the bearing 551, the outer side wall of the third lead screw 55 is sequentially sleeved with a first sleeve 553 and a second sleeve 554 from top to bottom, the first sleeve 553 and the second sleeve slide on the third lead screw 55, the outer side wall of the first sleeve 553 is sleeved with a second connecting shaft 552, one end of the second lead screw 552 is sleeved on the first sleeve 553, the outer side wall of the second sleeve shaft 554 is sleeved with a third connecting shaft 555, one end of the third connecting shaft 555 is sleeved on the second sleeve shaft 554, the other end of the third connecting shaft 555 is sleeved on the first screw rod 53, and the first motor 52 and the second motor 56 are both electrically connected with an external power supply.

In this embodiment: embrace pole 51 and be hollow structure, the inside of embracing pole 51 is equipped with first motor 52, first motor 52 rotates, drive first lead screw 53 and rotate, and then drive third connecting axle 555 upwards to slide through the external screw thread of first lead screw 53, connect because of third connecting axle 555 and second sleeve 554, and then drive second sleeve 554 and slide in the vertical direction on third lead screw 55, when second sleeve 554 slides, conflict third sleeve 71 slides, and then make first sleeve 553 slide on third lead screw 55, be equipped with second connecting axle 552 on first sleeve 553, and then make second connecting axle 552 slide on second lead screw 54, further make the vertical direction motion of signal transmission subassembly 4, this first motor 52 model is: z6DBLD200-48GU-30S-M/6GU 200K.

Specifically, the inner side wall of the second connecting sleeve 541 has internal threads, and the second connecting shaft 552 is limited by the second connecting sleeve 541 when moving in the vertical direction of the outer side wall of the second lead screw 54.

Specifically, the inner side wall of the first connecting sleeve 531 is provided with an internal thread, and the third connecting shaft 555 is limited by the first connecting sleeve 531 when moving in the vertical direction of the outer side wall of the first screw 53.

Specifically, the outer side of the first lead screw 53 is provided with an external thread, the third connecting shaft 555 is sleeved on the inner side wall of one end of the first lead screw 53 and is provided with an internal thread, the first lead screw 53 and the third connecting shaft 555 are connected through the internal thread and the external thread, and the first motor 52 drives the first lead screw 53 to rotate so as to enable the second sleeve 554 to move in the vertical direction of the outer side wall of the third lead screw 55.

Example 3

Referring to fig. 5, in the present embodiment: horizontal rotation of the signal transmitting assembly 4 is introduced, (in combination with the conditions of embodiment 2) one side of the second lead screw 54 is provided with the second motor 56, the outer side wall of the second motor 56 is fixedly provided with the second base 561, the second motor 56 and the holding rod 51 are welded and fixed through the second base 561, the transmission end sleeve of the second motor 56 is provided with the transmission chain 563, the transmission tooth 562 is further sleeved on the outer side wall of the third lead screw 55 close to the first sleeve shaft 553, one end sleeve of the transmission chain 563 is sleeved on the transmission tooth 562, the transmission tooth 562 is connected in a sliding manner, and the other end sleeve of the transmission chain 563 is sleeved on the transmission end of the second motor 56.

In this embodiment: when the second motor 56 rotates, the transmission gear 562 is driven to rotate through the transmission chain 563, because the transmission gear 562 is sleeved on the third screw rod 55, because the third screw rod 55 is located inside the holding rod 51 and close to the front of the first screw rod 53, the third screw rod 55 longitudinally penetrates through the holding rod 51, one end exposed outside the holding rod 51 is provided with a bearing 551, the third screw rod 55 and the holding rod 51 are rotatably connected through the bearing 551, when the transmission gear 562 rotates, the second connecting shaft 552 and the third connecting shaft 555 have the same structure, so that the second connecting shaft 552 and the third connecting shaft 555 rotate along the threads on the first screw rod 53 and the second screw rod 54, the third screw rod 55 further rotates in the holding rod 51 through the bearing 551, and the model of the second motor 56 is Z6DBLD400-48GU-30S-M/6GU1O 0K.

Specifically, the second motor 56 is rotatably connected to the gear 562 via the transmission chain 563 for rotating the third lead screw 55.

Example 4

Referring to fig. 5-6, the telescopic assembly 3 mainly includes a telescopic rod 31, a second connecting plate 32, a first connecting rod 33, a first connecting shaft 34 and a second connecting rod 35, the second connecting rod 35 is welded and fixed on the first sleeve 553, and one end of the second connecting rod 35 away from the first sleeve 553 is provided with the first connecting shaft 34, the outer side wall of the first connecting shaft 34 is further provided with the first connecting rod 33, the second connecting rod 35 and the first connecting rod 33 are rotatably connected through the first connecting shaft 34, one end of the first connecting rod 33 away from the first connecting shaft 34 is provided with the second connecting plate 32, the telescopic rod 31 is located above the second connecting rod 35, one end of the telescopic rod 31 is fixedly connected with the second connecting rod 35, the telescopic end of the telescopic rod 31 is fixedly connected with the first connecting rod 33, and the telescopic rod 31 is electrically connected with an external power supply;

the limiting assembly 7 mainly comprises a third sleeve shaft 71, a spring rod 72 and a third connecting plate 73, the third sleeve shaft 71 is sleeved on the upper portion, close to the second sleeve shaft 554, of the outer side wall of the third screw 55, the third sleeve shaft 71 is in sliding connection with the third screw 55, the spring rod 72 is fixedly welded on the outer side wall of the third sleeve shaft 71, and the third connecting plate 73 is fixedly welded on one end, far away from the third sleeve shaft 71, of the spring rod 72.

In this embodiment: when the telescopic rod 31 is extended and retracted, the second connecting rod 35 and the first connecting rod 33 rotate through the first connecting shaft 34, so that the signal transmitting plate 41 extrudes the spring rod 72, a quadrilateral structure is formed through the second connecting rod 35, the first connecting rod 33, the spring rod 72 and the third screw rod 55, and according to the quadrilateral instability, the signal transmitting plate 41 presents a certain inclination angle, so that the signal transmitting position of the signal transmitting plate 41 is changed, and convenience is brought to consumers.

Specifically, the second connecting rod 35 and the first connecting rod 33 are connected by the first connecting shaft 34, and the second connecting rod 35, the first connecting rod 33 and the telescopic rod 31 form a triangular structure, so that the telescopic rod 31 is used for rotating the first connecting rod 33 when being extended and retracted.

Example 5

Referring to fig. 7-8, the signal transmitting assembly 4 mainly includes a signal transmitting plate 41 and a conducting wire 42, the signal transmitting plate 41 is located at one side of the placing assembly 5, one side of the signal transmitting plate 41 is fixedly connected to the second connecting plate 32 and the third connecting plate 73, the conducting wire 42 is located at the bottom of the signal transmitting plate 41, the signal transmitting plate 41 is connected to the external power source through a screw, and the signal transmitting plate 41 is electrically connected to the external power source.

In this embodiment, the signal transmitting board 41 is connected to the signal station through the wire 42, and the wireless transmitter is provided in the signal station, so that the worker can remotely control the signal station, and further transmit the processing signal to the first motor 52 and the second motor 56 through the wire 42, and further control the first motor 52 and the second motor 56 to be turned on or turned off, thereby reducing the working strength of the worker and bringing convenience to the worker.

Specifically, the signal transmitting board 41 and the signal station are signal-connected by a wire 42.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a pole is embraced to full-automatic intelligence of communication tower antenna, includes supporting component (1), is located fixed subassembly (6) and the cover of supporting component (1) one side are established coupling assembling (2) on fixed subassembly (6), supporting component (1) includes bracing piece (11), fixed subassembly (6) include steel ring (61) and inner connecting rod (62), steel ring (61) cover is established the one end of bracing piece (11), just the inside wall welded fastening of fixed subassembly (6) has inner connecting rod (62), fixed subassembly (6) with bracing piece (11) pass through inner connecting rod (62) welded fastening, coupling assembling (2) mainly comprise go-between (21), first connecting plate (22) and cardboard (23), go-between (21) cover is established the lateral wall of steel ring (61), just steel ring (61) block is connected, one side welded fastening that steel ring (61) is kept away from in go-between (21) has first connecting plate (22), cardboard (23) are located first connecting plate (22) keep away from one side of go-between (21), cardboard (23) with first connecting plate (22) welded fastening, its characterized in that: the device is characterized by further comprising a placing component (5) connected through the connecting component (2), a telescopic component (3) and a limiting component (7) positioned on one side of the placing component (5), and a signal transmitting component (4) connected with the telescopic component (3) and the limiting component (7);

the placing component (5) comprises a holding rod (51), a first motor (52), a first screw rod (53), a second screw rod (54), a third screw rod (55) and a second motor (56), the holding rod (51) is located on one side, far away from the first connecting plate (22), of the clamping plate (23), the holding rod (51) and the clamping plate (23) are fixedly welded, the inside of the holding rod (51) is of a hollow structure, the first motor (52) is located inside the holding rod (51), a first base (521) is fixedly welded on the outer surface of the first motor (52), the first motor (52) and the holding rod (51) are fixedly welded through the first base (521), a first screw rod (53) is fixedly connected to the transmission end of the first motor (52), one end of the first screw rod (53) is connected with the transmission end of the first motor (52), the other end extends to the top of first motor (52), the lateral wall cover of first lead screw (53) is equipped with first adapter sleeve (531), first lead screw (53) with embrace pole (51) and pass through first adapter sleeve (531) sliding connection, the top of first lead screw (53) is close to embrace the fixed second lead screw (54) that is equipped with in inside of pole (51), the one end of second lead screw (54) with the upper surface inboard welding of embracing pole (51) is fixed, the other end of second lead screw (54) extends to the top of first lead screw (53), the lateral wall cover of second lead screw (54) is equipped with second adapter sleeve (541), second lead screw (54) with embrace pole (51) and pass through second adapter sleeve (541) sliding connection, third lead screw (55) are located embrace the inside of pole (51) and be close to the place ahead of first lead screw (53), the third screw rod (55) longitudinally penetrates through the holding rod (51), one end, exposed outside the holding rod (51), of the third screw rod (55) is provided with a bearing (551), the third screw rod (55) and the holding rod (51) are rotatably connected through the bearing (551), the outer side wall of the third screw rod (55) is sequentially sleeved with a first sleeve shaft (553) and a second sleeve shaft (554) from top to bottom, the first sleeve shaft (553) and the second sleeve shaft (554) slide on the third screw rod (55), the outer side wall of the first sleeve shaft (553) is sleeved with a second connecting shaft (552), one end of the second connecting shaft (552) is sleeved on the first sleeve shaft (553), the other end of the second connecting shaft (552) is sleeved on the second screw rod (54), the outer side wall of the second sleeve shaft (554) is sleeved with a third connecting shaft (555), and one end of the third connecting shaft (555) is sleeved on the second sleeve shaft (554), the other end of the third connecting shaft (555) is sleeved on the first screw rod (53), one side of the second screw rod (54) is provided with a second motor (56), a second base (561) is fixedly arranged on the outer side wall of the second motor (56), the second motor (56) and the holding rod (51) are fixedly welded through the second base (561), a transmission chain (563) is sleeved at the transmission end of the second motor (56), and the outer side wall of the third screw rod (55) is also sleeved with a transmission gear (562) above the first sleeve shaft (553), one end of the transmission chain (563) is sleeved on the transmission teeth (562), the transmission teeth (562) are connected in a sliding way, the other end of the transmission chain (563) is sleeved on the transmission end of the second motor (56), the first motor (52) and the second motor (56) are both electrically connected with an external power supply;

the telescopic assembly (3) mainly comprises a telescopic rod (31), a second connecting plate (32), a first connecting rod (33), a first connecting shaft (34) and a second connecting rod (35), the second connecting rod (35) is welded and fixed on the first sleeve shaft (553), one end, far away from the first sleeve shaft (553), of the second connecting rod (35) is provided with the first connecting shaft (34), the outer side wall of the first connecting shaft (34) is also provided with the first connecting rod (33), the second connecting rod (35) and the first connecting rod (33) are rotatably connected through the first connecting shaft (34), one end, far away from the first connecting shaft (34), of the first connecting rod (33) is provided with the second connecting plate (32), the telescopic rod (31) is positioned above the second connecting rod (35), and one end of the telescopic rod (31) is fixedly connected with the second connecting rod (35), the telescopic end of the telescopic rod (31) is fixedly connected with the first connecting rod (33), and the telescopic rod (31) is electrically connected with an external power supply;

the limiting assembly (7) mainly comprises a third sleeve shaft (71), a spring rod (72) and a third connecting plate (73), the third sleeve shaft (71) is sleeved on the outer side wall of the third screw rod (55) and close to the upper part of the second sleeve shaft (554), the third sleeve shaft (71) is connected with the third screw rod (55) in a sliding mode, the spring rod (72) is fixedly welded on the outer side wall of the third sleeve shaft (71), and the third connecting plate (73) is fixedly welded on one end, far away from the third sleeve shaft (71), of the spring rod (72);

the signal emission subassembly (4) mainly comprise signal emission board (41) and wire (42), signal emission board (41) are located place the one side of subassembly (5), one side of signal emission board (41) with second connecting plate (32) with third connecting plate (73) fixed connection, wire (42) are located the bottom surface of signal emission board (41), just signal emission board (41) threaded connection, signal emission board (41) and external power source electric connection.

2. The full-automatic intelligent pole of claim 1, characterized in that: the second motor (56) and the transmission gear (562) are rotationally connected through the transmission chain (563) and used for rotating the third screw rod (55).

3. The full-automatic intelligent pole of claim 1, characterized in that: the second connecting rod (35) is connected with the first connecting rod (33) through the first connecting shaft (34), the second connecting rod (35), the first connecting rod (33) and the telescopic rod (31) form a triangular structure, and the telescopic rod (31) is used for rotating the first connecting rod (33) when being stretched.

4. The full-automatic intelligent pole of claim 1, characterized in that: the outer side of the first screw rod (53) is provided with an external thread, the third connecting shaft (555) is sleeved on the inner side wall of one end of the first screw rod (53) and is provided with an internal thread, the first screw rod (53) and the third connecting shaft (555) are connected through the internal thread and the external thread, and the first motor (52) drives the first screw rod (53) to rotate so that the second sleeve shaft (554) moves in the vertical direction of the outer side wall of the third screw rod (55).

5. The full-automatic intelligent pole of claim 1, characterized in that: the signal transmitting board (41) and the signal station are in signal connection through the lead (42).

6. The full-automatic intelligent pole of claim 1, characterized in that: the number of the holding poles (51) is three, and the holding poles (51) are symmetrically distributed on the outer side wall of the supporting component (1).

7. The full-automatic intelligent pole of claim 1, characterized in that: the number of the connecting assemblies (2) is six, every two connecting assemblies (2) are in a group, and each placing assembly (5) and the fixing assembly (6) are connected through a group of connecting assemblies (2) in a clamping mode.

8. The full-automatic intelligent pole of claim 1, characterized in that: the inner side wall of the first connecting sleeve (531) is provided with internal threads, and the third connecting shaft (555) is limited by the first connecting sleeve (531) when moving in the vertical direction of the outer side wall of the first screw rod (53).

9. The full-automatic intelligent pole of claim 1, characterized in that: the inner side wall of the second connecting sleeve (541) is provided with internal threads, and the second connecting shaft (552) is limited by the second connecting sleeve (541) when moving in the vertical direction of the outer side wall of the second screw rod (54).

10. The full-automatic intelligent pole of claim 1, characterized in that: the supporting rod (11), the steel ring (61), the inner connecting rod (62) and the holding rod (51) are all made of stainless steel.

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