CN210105445U - Anti-aging simulation signal base station pine tower - Google Patents

Abstract

The utility model discloses an ageing-resistant simulation signal basic station pine tower, including pine tower body, the quarter butt, telescopic branch and connecting rod, the bottom welding of pine tower body has a stake section of thick bamboo, the quarter butt runs through to be installed in the backup pad, telescopic branch's upper end and first pivot looks mutual welding, the connecting rod is installed on telescopic branch, the lower extreme and the stabilizer blade interconnect of mobile jib, and the lateral wall bolted connection of mobile jib has the connecting rod, install first sleeve on the pine tower body, the below inside center department of mobile jib is connected with the attenuator, inlay on the pine tower body and install the net frame, the telescopic upper surface right side welding of second has the motor, telescopic branch's internally mounted has the connection pivot. This resistant ageing artificial signal basic station pine tower can prop up the device through backup pad and support and stabilizer blade and improve the device's stability, through the lug on the pile section of thick bamboo for have good ground effect of grabbing when rainwater weather soil softens, improve the device grab the land fertility.

Description

Anti-aging simulation signal base station pine tower

Technical Field

The utility model relates to an emulation signal basic station technical field specifically is an ageing-resistant emulation signal basic station pine tower.

Background

With the popularization of networks, mobile phones become irreplaceable articles in life, realize data transmission through signals, the signal transmission can not leave mobile base stations, the mobile base stations are in a certain radio coverage area, the radio transceiver station for information transmission with mobile phone terminal via mobile communication exchange center has various mobile base station models, such as iron tower in field and artificial pine tower in city, but most of the existing simulation signal base stations have poor lodging resistance, are easy to break when meeting extreme weather, thereby causing property loss and possibly injuring pedestrians, the simulation signal base station is often interfered by the bird group to influence the quality of the transmission signal, the movement of the bird group also causes the damage of the base station, and the inside radiating effect of base station is relatively poor when the weather is hot, and the electronic component in the base station can damage failure by overheating. Aiming at the problems, the innovative design is carried out on the basis of the pine towers of the original aging-resistant simulation signal base station.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

The utility model provides a not enough to prior art, the utility model provides an ageing-resistant artificial signal basic station pine tower, it is relatively poor to have solved the ability of most artificial signal basic station pine towers lodging resistance now, often can pound when meetting extreme weather, thereby cause loss of property, it is possible to pound and hinder the pedestrian, artificial signal basic station often can suffer from the interference of birdcrowd, influence transmission signal's quality, the damage of basic station also can be caused in the activity of birdcrowd, and weather is inside the radiating effect relatively poor in the time of hot basic station, the overheated problem that can damage failure of electronic component of basic station inside.

(II) technical scheme

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides an ageing-resistant artificial signal basic station pine tower, includes pine tower body, quarter butt, telescopic strut and connecting rod, the bottom welding of pine tower body has a stake section of thick bamboo, and the fixed surface welding of stake section of thick bamboo has the lug, and the surface mounting of pine tower body has the backup pad, the quarter butt runs through to be installed in the backup pad, and backup pad and connecting block interconnect, and run through to install first pivot on the connecting block, telescopic strut's upper end and first pivot interconnect, and telescopic strut's lower extreme and second pivot interconnect, and the second pivot runs through to be installed on the support, the connecting rod is installed on telescopic strut, and connecting rod and mobile jib interconnect, and the upper end of mobile jib and the bottom interconnect of backup pad, the lower extreme and the stabilizer blade interconnect of mobile jib, and the lateral wall bolted connection of mobile jib has the connecting rod, install first sleeve on the pine tower body, and the fixed welding in first telescopic upper surface right side has the montant to install the location pivot on the montant, fix a position pivot and reflector interconnect simultaneously, the inside center department in below of mobile jib is connected with the attenuator, and the attenuator installs inside the top of stabilizer blade, inlay on the pine tower body and install the net frame, and install the second sleeve on the pine tower body to the second sleeve is located the below of net frame, and the telescopic left end face of second and long block bolted connection simultaneously, the welding in second telescopic upper surface right side has the motor, and the left end of motor rotates with the horizontal pole to fixed welding has the blade on the horizontal pole, and the motor passes through the electric wire and the inside electric connection of pine tower body simultaneously, the internally mounted of telescopic branch has the connection pivot, and connects pivot and connecting rod and welds each other.

Preferably, the projection on the pile cylinder is spiral, the longitudinal section of the pile cylinder is T-shaped, and the upper surface of the pile cylinder and the lower surface of the support are in the same horizontal plane.

Preferably, the support plate is connected with the pine-tree-shaped tower body in a sliding manner, the longitudinal section of the short rod on the support plate is in an inverted U shape, and the two support plates are symmetrically arranged around the center of the pine-tree-shaped tower body.

Preferably, the telescopic supporting rod 8 forms a rotating structure with the connecting block through a first rotating shaft, the rotating angle range of the rotating structure is 0-180 degrees, the telescopic supporting rod forms a rotating structure with the connecting rod through a connecting rotating shaft, and the connecting rod is transversely arranged on the main rod.

Preferably, the support forms a rotating structure with the telescopic support rod through the second rotating shaft, the bottom surface of the support and the bottom surfaces of the support legs are located on the same horizontal plane, and the support legs form a damping structure with the main rod through the damper.

Preferably, the first sleeve is connected with the pine-tree-shaped tower body in a sliding mode, the vertical rod on the first sleeve and the reflector form a rotating structure through the positioning rotating shaft, the rotating angle range of the rotating structure is 0-360 degrees, and meanwhile the longitudinal section of the reflector is in a hemispherical shape.

Preferably, the second sleeve is connected with the pine-tree tower body in a sliding mode, and the blades above the second sleeve correspond to the net frame in position.

(III) advantageous effects

The utility model provides an ageing-resistant artificial signal basic station pine tower. The method has the following beneficial effects:

(1) this resistant ageing artificial signal basic station pine tower can prop up the device through backup pad and support and stabilizer blade and improve the device's stability, through the lug on the stake section of thick bamboo for have good ground effect of grabbing when rainwater weather soil softens, improve the device grab the land fertility.

(2) This resistant ageing artificial signal basic station pine tower through the sliding construction that first sleeve and pine tower body are constituteed, can adjust the height of reflector, through the rotating-structure that reflector and montant are constituteed, can drive birds, prevents that birds activity from causing the influence to the device's data transmission.

(3) This resistant ageing artificial signal basic station pine tower can improve the device's radiating effect through the blade on net frame and the motor for the device can not the high temperature under hot weather, thereby has protected the inside electronic component of pine tower body can not damage failure, prolongs its life.

Drawings

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

FIG. 2 is a schematic cross-sectional view of the strut, damper and support leg of the present invention;

fig. 3 is a schematic front partial sectional structure view of the motor and the screen frame of the present invention;

FIG. 4 is a schematic top view of the second sleeve, the long block and the pine cone body of the present invention;

fig. 5 is a schematic view of a partial structure of the side pine tower body of the present invention.

In the figure: 1. a pine tree tower body; 2. pile tube; 3. a bump; 4. a support plate; 5. a short bar; 6. connecting blocks; 7. a first rotating shaft; 8. a telescopic strut; 9. a second rotating shaft; 10. a support; 11. a connecting rod; 12. a main rod; 13. a support leg; 14. a first sleeve; 15. a vertical rod; 16. positioning the rotating shaft; 17. a reflective mirror; 18. a damper; 19. a screen frame; 20. a second sleeve; 21. a long block; 22. an electric motor; 23. a cross bar; 24. a blade; 25. an electric wire; 26. is connected with the rotating shaft.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1-5, the utility model provides a technical solution: an aging-resistant simulation signal base station pine tower comprises a pine tower body 1, a pile barrel 2, a convex block 3, a support plate 4, a short rod 5, a connecting block 6, a first rotating shaft 7, a telescopic supporting rod 8, a second rotating shaft 9, a support 10, a connecting rod 11, a main rod 12, a supporting leg 13, a first sleeve 14, a vertical rod 15, a positioning rotating shaft 16, a reflecting mirror 17, a damper 18, a net frame 19, a second sleeve 20, a long block 21, a motor 22, a cross rod 23, a blade 24, an electric wire 25 and a connecting rotating shaft 26, wherein the pile barrel 2 is welded at the bottom of the pine tower body 1, the convex block 3 is fixedly welded on the surface of the pile barrel 2, the support plate 4 is installed on the surface of the pine tower body 1, the short rod 5 is installed on the support plate 4 in a penetrating manner, the support plate 4 is connected with the connecting block 6, the first rotating shaft 7 is installed on the connecting block 6 in a penetrating manner, the lower end of the telescopic strut 8 is connected with a second rotating shaft 9, the second rotating shaft 9 is installed on a support 10 in a penetrating way, a connecting rod 11 is installed on the telescopic strut 8, the connecting rod 11 is connected with a main rod 12, the upper end of the main rod 12 is welded with the bottom of the support plate 4, the lower end of the main rod 12 is connected with a support leg 13, the outer side wall of the main rod 12 is connected with the connecting rod 11 through a bolt, a first sleeve 14 is installed on the pine tower body 1, a vertical rod 15 is fixedly welded on the right side of the upper surface of the first sleeve 14, a positioning rotating shaft 16 is installed on the vertical rod 15, the positioning rotating shaft 16 is connected with a reflector 17, a damper 18 is connected to the center of the lower inner part of the main rod 12, the damper 18 is installed inside the upper part of the support leg 13, a net frame 19 is embedded on the pine tower body 1, and a, the second sleeve 20 is positioned below the net frame 19, the left end face of the second sleeve 20 is connected with the long block 21 through a bolt, the motor 22 is welded on the right side of the upper surface of the second sleeve 20, the left end of the motor 22 is rotatably connected with the cross rod 23, the cross rod 23 is fixedly welded with the blades 24, the motor 22 is electrically connected with the inside of the pine tower body 1 through an electric wire 25, the inside of the telescopic support rod 8 is provided with a connecting rotating shaft 26, and the connecting rotating shaft 26 is mutually welded with the connecting rod 11;

the convex block 3 on the pile barrel 2 is spiral, the longitudinal section of the pile barrel 2 is T-shaped, the upper surface of the pile barrel 2 and the lower surface of the support 10 are positioned on the same horizontal plane, the convex block 3 increases the ground gripping force of the device, and the stability of the device is improved;

the support plates 4 are connected with the pine tree tower body 1 in a sliding mode, the longitudinal sections of the short rods 5 on the support plates 4 are in an inverted U shape, the two support plates 4 are symmetrically arranged relative to the center of the pine tree tower body 1, the positions of the support plates 4 can be adjusted up and down, and the support plates 4 can play a role in protecting and supporting the pine tree tower body 1;

the telescopic strut 8 and the connecting block 6 form a rotating structure through the first rotating shaft 7, the rotating angle range of the rotating structure is 0-180 degrees, the telescopic strut 8 and the connecting rod 11 form the rotating structure through the connecting rotating shaft 26, meanwhile, the connecting rod 11 is transversely arranged on the main rod 12, the angle of the telescopic strut 8 is adjusted, the telescopic strut 8, the connecting rod 11 and the main rod 12 are triangular, stress is dispersed, and the device is more stable;

the support 10 and the telescopic support rod 8 form a rotating structure through the second rotating shaft 9, the bottom surface of the support 10 and the bottom surface of the support leg 13 are positioned on the same horizontal plane, the support leg 13 and the main rod 12 form a damping structure through the damper 18, the support 10 and the support leg 13 support the device, and the damper 18 can protect the main rod 12 and prevent the main rod from being broken;

the first sleeve 14 is connected with the pine-tree-shaped tower body 1 in a sliding mode, the vertical rod 15 on the first sleeve 14 and the reflector 17 form a rotating structure through the positioning rotating shaft 16, the rotating angle range of the rotating structure is 0-360 degrees, meanwhile, the longitudinal section of the reflector 17 is in a hemispherical shape, the position of the reflector 17 can be adjusted, the reflector 17 can drive birds, and the device is prevented from being interfered by movement of a bird group;

the second sleeve 20 is slidably connected with the pine-tree-shaped tower body 1, the blades 24 above the second sleeve 20 correspond to the screen frame 19, and the blades 24 and the screen frame 19 increase the heat dissipation effect of the device, so that electronic elements in the device are protected, and the service life of the device is prolonged.

When the pile tube is used, the pile tube 2 is firstly embedded into the ground of an installation site, then the two support plates 4 are attached to the pine tree tower body 1, the support plates 4 are moved to slide with the pine tree tower body 1, after the support plates 4 are moved to proper positions, the short rods 5 penetrate through the support plates 4, the short rods 5 are screwed by nuts, and the positions of the two support plates 4 are fixed;

loosening the threaded rod on the main rod 12, sliding and drawing out the main rod 12, moving the lower end of the main rod 12 and the support legs 13 downwards together, screwing the threaded rod on the main rod 12 to fix the positions of the support legs 13 after the lower ends of the support legs 13 are attached to the upper surface of the pile barrel 2, pulling the telescopic support rod 8 to enable the telescopic support rod 8 to rotate with the connecting block 6 through the first rotating shaft 7, screwing the threaded tightening piece on the first rotating shaft 7 after the telescopic support rod 8 rotates to a proper position, pulling the support 10 to enable the support 10 to rotate with the telescopic support rod 8 through the second rotating shaft 9, screwing the threaded tightening piece on the second rotating shaft 9 after the lower end surface of the support 10 is parallel to the ground, and fixing the support 10;

unscrewing the threaded rod on the telescopic supporting rod 8, sliding and extracting the telescopic supporting rod 8, moving the lower end of the telescopic supporting rod 8 together with the support 10, screwing the threaded rod on the telescopic supporting rod 8 after the lower end surface of the support 10 is attached to the ground, fixing the telescopic supporting rod 8, pulling the connecting rod 11 to enable the connecting rod 11 to rotate with the telescopic supporting rod 8 through the connecting rotating shaft 26, unscrewing the threaded rod on the connecting rod 11, sliding and extracting the connecting rod 11, attaching one end of the connecting rod 11 to the corresponding position of the main rod 12, and screwing and fixing the connecting rod 11 through a bolt;

the threaded rod on the first sleeve 14 is unscrewed, the first sleeve 14 is pulled to slide with the pine tower body 1, after the first sleeve 14 slides to a proper height, the threaded rod on the first sleeve 14 is screwed, the first sleeve 14 is fixed, the reflector 17 blown by wind rotates with the vertical rod 15 through the positioning rotating shaft 16, the reflector 17 under illumination flashes to disperse birds, when the temperature is too high, the second sleeve 20 is clamped at a proper position on the pine tower body 1, the second sleeve 20 is fixed with the second sleeve 20 through a bolt by a long block 21, the second sleeve 20 is installed on the pine tower body 1, the motor 22 is turned on, the motor 22 drives the blades 24 on the cross bar 23 to rotate, the generated wind enters the inside of the pine tower body 1 from the net frame 19, the inside of the pine tower body 1 is cooled, and electronic elements inside the pine tower body are protected, and those not described in detail in this specification are well within the skill of those in the art.

To sum up, the aging-resistant simulation signal base station pine tower can support the device through the support plate 4, the support 10 and the support legs 13 to improve the stability of the device, the bumps 3 on the pile tube 2 can ensure that the device has a good ground gripping effect when rainwater weather soil is softened, the ground gripping force of the device is improved, the sliding structure formed by the first sleeve 14 and the pine tower body 1 can adjust the height of the reflector 17, the rotating structure formed by the reflector 17 and the vertical rod 15 can drive birds, the influence of the birds on the data transmission of the device can be prevented, the heat dissipation effect of the device can be improved through the net frame 19 and the blades 24 on the motor 22, the device can not have too high temperature in hot weather, the electronic elements inside the pine tower body 1 can be protected from being damaged and malfunctioning, and the service life of the device is prolonged.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides an ageing-resistant artificial signal basic station pine tower, includes pine tower body (1), quarter butt (5), telescopic strut (8) and connecting rod (11), its characterized in that: the bottom of the pine tower body (1) is welded with the pile barrel (2), the surface of the pile barrel (2) is fixedly welded with the convex block (3), the surface of the pine tower body (1) is provided with the support plate (4), the short rod (5) is installed on the support plate (4) in a penetrating way, the support plate (4) is connected with the connecting block (6) in an interconnecting way, the connecting block (6) is provided with the first rotating shaft (7) in a penetrating way, the upper end of the telescopic branch rod (8) is welded with the first rotating shaft (7) in an interconnecting way, the lower end of the telescopic branch rod (8) is connected with the second rotating shaft (9) in an interconnecting way, the second rotating shaft (9) is installed on the support (10) in a penetrating way, the connecting rod (11) is installed on the telescopic branch rod (8), the connecting rod (11) is connected with the main rod (12) in an interconnecting way, and the upper end of, the lower end and the supporting leg (13) of the main rod (12) are connected with each other, a connecting rod (11) is connected to the outer side wall of the main rod (12) through bolts, a first sleeve (14) is installed on the pine tower body (1), a vertical rod (15) is fixedly welded on the right side of the upper surface of the first sleeve (14), a positioning rotating shaft (16) is installed on the vertical rod (15), the positioning rotating shaft (16) is connected with a reflector (17) through each other, a damper (18) is connected to the center of the inside of the lower portion of the main rod (12), the damper (18) is installed inside the upper portion of the supporting leg (13), a net frame (19) is installed on the pine tower body (1) in an embedded mode, a second sleeve (20) is installed on the pine tower body (1), the second sleeve (20) is located below the net frame (19), and the left end face of the second sleeve (20) is connected with a long block (21) through bolts, the welding of the upper surface right side of second sleeve (20) has motor (22), and the left end and horizontal pole (23) of motor (22) rotate to be connected, and fixed welding has blade (24) on horizontal pole (23), and motor (22) pass through electric wire (25) and the inside electric connection of pine tower body (1) simultaneously, the internally mounted of telescopic strut (8) has connection pivot (26), and connects pivot (26) and connecting rod (11) and weld each other.

2. The aging-resistant simulated signal base station pine tower of claim 1, wherein: the projection (3) on the pile tube (2) is spiral, the longitudinal section of the pile tube (2) is T-shaped, and the upper surface of the pile tube (2) and the lower surface of the support (10) are in the same horizontal plane.

3. The aging-resistant simulated signal base station pine tower of claim 1, wherein: the support plate (4) is connected with the pine tree tower body (1) in a sliding mode, the longitudinal section of the short rod (5) on the support plate (4) is in an inverted U shape, and the two support plates (4) are symmetrically arranged relative to the center of the pine tree tower body (1).

4. The aging-resistant simulated signal base station pine tower of claim 1, wherein: the telescopic supporting rod (8) forms a rotating structure with the connecting block (6) through the first rotating shaft (7), the rotating angle range of the rotating structure is 0-180 degrees, the telescopic supporting rod (8) forms the rotating structure with the connecting rod (11) through the connecting rotating shaft (26), and meanwhile the connecting rod (11) is transversely installed on the main rod (12).

5. The aging-resistant simulated signal base station pine tower of claim 1, wherein: the support (10) forms a rotating structure with the telescopic support rod (8) through the second rotating shaft (9), the bottom surface of the support (10) and the bottom surface of the support leg (13) are located on the same horizontal plane, and the support leg (13) forms a damping structure with the main rod (12) through the damper (18).

6. The aging-resistant simulated signal base station pine tower of claim 1, wherein: the first sleeve (14) is connected with the pine tree tower body (1) in a sliding mode, the vertical rod (15) on the first sleeve (14) and the reflector (17) form a rotating structure through the positioning rotating shaft (16), the rotating angle range of the rotating structure is 0-360 degrees, and meanwhile the longitudinal section of the reflector (17) is in a hemispherical shape.

7. The aging-resistant simulated signal base station pine tower of claim 1, wherein: the second sleeve (20) is connected with the pine tree tower body (1) in a sliding mode, and the blades (24) above the second sleeve (20) correspond to the net frame (19) in position.

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