CN207813165U - Shockproof reinforced communication tower - Google Patents

Abstract

The utility model provides a kind of shockproof reinforced communication tower, including pedestal, tower body, ring flange, antenna holding pole, lightning rod, the first aseismatic mechanism, the second aseismatic mechanism and tower body connecting rod, pedestal is in integrally closing cube structure, closing cube is internally provided with several support plates in the distribution of " well " font, the support plate will close cube inside division into several susceptor spaces, and cushion block is provided in the susceptor space；First aseismatic mechanism includes support base, supporting rib and support spring；Second aseismatic mechanism, including branch, knighthead, column, buffering circular arc spring, the straight spring of buffering and brace spring, branch is socketed in tower body and the lower face of branch is fixed on the upper end of the column face；Tower body is fixedly connected by the way that ring flange is vertical with support base.The utility model uses multiple precautions against earthquakes, when earthquake occurs or meets with strong wind, can block or be substantially reduced the active force that tower body is subject to, improve the shock resistance of tower body, to improve the unfailing performance of tower body.

Description

Shockproof reinforced communication tower

Technical field

The utility model is related to communication tower fields, more particularly to a kind of shockproof reinforced communication tower.

Background technology

Communication iron tower is made of steel members such as tower body, platform, lightning rod, cat ladder, antenna mountings, is mainly used for microwave, is surpassed Shortwave, the transmission of wireless network signal and transmitting etc..

Setting outdoors, is rigidly connected mostly between ground using direct current communication iron tower mostly, when ground produces When raw vibrations or generation earthquake disaster, when encountering strong strong wind, tower body stress is larger, without cushion space, is easy to happen and inclines Tiltedly and collapse, causes security risk.

Utility model content

The utility model aims to solve the problem that the above problem, provides a kind of shockproof reinforced communication tower.

To reach above-mentioned purpose, technical solution used by the utility model is as follows：

A kind of shockproof reinforced communication tower, including pedestal, tower body, ring flange, antenna holding pole, lightning rod, the first shockproof machine Structure, the second aseismatic mechanism and several tower body connecting rods, wherein：

Pedestal is in integrally closing cube structure, and closing cube is internally provided with several supports in the distribution of " well " font Plate, the support plate will close cube inside division into several susceptor spaces, cushion block are provided in the susceptor space；

First aseismatic mechanism, including support base, supporting rib and support spring；Support base is mounted on the top of pedestal, with base Seat is bolted；Supporting rib, one end are fixedly connected with support base, and the other end passes through pedestal to be inserted into ground；Support spring, set It is connected on supporting rib and is set between the upper surface of pedestal and the lower face of support base；

Second aseismatic mechanism, including branch, knighthead, column, buffering circular arc spring, the straight spring of buffering and brace bullet Spring；Column, quantity are at least 4, are annularly uniformly distributed, and each column passes through the support base of the first aseismatic mechanism to hang down with pedestal Directly it is fixedly connected；Branch is in circular ring shape, and the lower face for being socketed in tower body and branch is fixed on the upper end of the column face, and branch is also Several are provided with along its circumferential equally distributed groove, each groove, which is provided with centre position, has the arc-shaped plate washer of through-hole With it is on the outside of arc-shaped plate washer and with the arc-shaped spring stack of arc-shaped plate washer concentric, arc-shaped plate washer and arc-shaped bullet The both ends of spring column are respectively fixed on the both sides of groove, buffer that straight spring is identical as the quantity of groove, buffer the number of circular arc spring Amount is that the quantity of groove is twice identical；Knighthead, quantity is identical as the quantity of groove, and one end is hinged with pedestal, the other end It is hinged across the lower face of groove and tower body connecting rod, brace spring be socketed on knighthead and be set to pedestal upper surface with it is recessed Between slot lower face；Auxiliary support bar is that telescopic loop bar is fixed on tower body surface, separately using two-segment type loop bar at one One is fixed to column；

Tower body is fixedly connected by the way that ring flange is vertical with support base；

Tower body connecting rod, quantity is identical as the quantity of groove, and one end is fixedly connected with tower body, and the other end is provided with clip, tower Body connecting rod passes through the through-hole of arc-shaped plate washer and is stuck on arc-shaped spring stack by clip；There are one clip both sides are respectively set Circular arc spring is buffered, buffering circular arc spring is socketed on arc-shaped spring stack and is set between groove side and clip；Buffering Straight spring is socketed on tower body connecting rod and is set between tower body and arc-shaped plate washer；

Antenna holding pole is arranged in the upper end of tower body, and lightning rod is arranged on the top of tower body.

In further embodiment, the shockproof reinforced communication tower further includes the shockproof machine of auxiliary being arranged on column Structure, auxiliary aseismatic mechanism are located at the lower section of the second aseismatic mechanism, including auxiliary support bar and Auxiliary support spring, auxiliary support bar and Uprights vertical is fixedly connected, and Auxiliary support spring is socketed on auxiliary support bar and is set between tower body and column.

In further embodiment, the antenna holding pole includes pole main body, waling stripe and diagonal control arm；Waling stripe, One end of diagonal control arm is connect with tower body, and the other end is connect with pole main body.

In further embodiment, antenna holding pole further includes pole spring, is socketed on waling stripe and is set to tower Between body and pole main body.

In further embodiment, the support spring of first aseismatic mechanism and the quantity of supporting rib are several groups, Every group includes the support spring of a supporting rib and socket on it.

In further embodiment, the material of the support spring is alloy spring steel.

In further embodiment, the section of each support plate is in " I " fonts.

The utility model proposes shockproof reinforced communication tower, ingenious in design, feasibility is high, and tower body can subtract to limits very much The resistance of small wind, using multiple precautions against earthquakes, pedestal uses the support plate of intersecting parallels distribution, can improve the bending resistance of pedestal and resist Torque capability, and it is provided with cushion block, support cushioning effect can be played.In addition, when it is vertical vibrations to shake direction, first The several groups support spring of aseismatic mechanism can prevent vibrations to be directly delivered to tower body from pedestal, when vibrations direction is transverse vibration When, the buffering circular arc spring and the straight spring of buffering of the second aseismatic mechanism can block the active force that tower body is subject to, and improve the anti-of tower body Shake ability；And it is additionally provided with auxiliary aseismatic mechanism, further increases the shock resistance of tower body, to improve the reliability of tower body Energy.

Description of the drawings

The attached drawing for constituting the part of the utility model is used to provide a further understanding of the present invention, and attached drawing is unexpectedly Drawn to scale.In the accompanying drawings, each of show that identical or approximately uniform component part can be with identical in each figure Label indicate.For clarity, in each figure, not each component part is labeled.It now, will be by example simultaneously The embodiment of the various aspects of the utility model is described in reference to the drawings, in the accompanying drawings：

Fig. 1 is the overall structure diagram of the shockproof reinforced communication tower of the utility model preferred embodiment.

Fig. 2 is the vertical view (nothing of the second aseismatic mechanism of the shockproof reinforced communication tower of the utility model preferred embodiment Knighthead).

Fig. 3 is the structural schematic diagram of the pedestal of the shockproof reinforced communication tower of the utility model preferred embodiment.

Fig. 4 is the schematic cross-section of the support plate of the shockproof reinforced communication tower of the utility model preferred embodiment.

Specific implementation mode

In order to know more about the technology contents of the utility model, spy lifts specific embodiment and coordinates above-mentioned institute's accompanying drawings explanation such as Under.

As shown in Figure 1 to Figure 3, preferred embodiment according to the present utility model, including pedestal 1, tower body 7, ring flange 6, day Line pole 14, lightning rod 15, the first aseismatic mechanism, the second aseismatic mechanism and several tower body connecting rods 9.

Pedestal 1 is whole in closing cube structure, is fixed on ground by earth stud, the whole for carrying communication tower Weight.Closing cube is internally provided with several support plates 101 in the distribution of " well " font, and the support plate 101 is by closing side Internal body portion is cut into several susceptor spaces 102, and cushion block 103 is provided in the susceptor space 102.Certainly, pedestal 1 can also For closing cylinder structure, support plate 101 is distributed using " well " font, can greatly improve bending resistance and the torque resistant energy of pedestal Power, to improve the anti-seismic performance of pedestal in earthquake；And it is provided with cushion block, support cushioning effect can be further functioned as.

First aseismatic mechanism, including support base 2, supporting rib 4 and support spring 3；Support base 2 is mounted on the upper of pedestal 1 Side, is connect with pedestal 1 by bolt 5；Supporting rib 4, one end are fixedly connected with support base 2, and the other end passes through pedestal 1 to be inserted into ground Face；Support spring 3 is socketed on supporting rib 4 and is set between the upper surface of pedestal 1 and the lower face of support base 2.

Second aseismatic mechanism, including branch, knighthead 10, column 11, buffering circular arc spring 12 and the straight spring of buffering 13 And brace spring 17；Column 11, quantity are at least 4, are annularly uniformly distributed, and each column 11 passes through the first aseismatic mechanism Support base 2 is vertical with pedestal 1 to be fixedly connected；Branch is in circular ring shape, be socketed in tower body 7 and branch lower face be fixed on it is vertical On 11 upper surface of column, branch is additionally provided with several along its circumferential equally distributed groove 8, and each groove 8 is provided with interposition Set arc-shaped plate washer 801 with through-hole and 801 outside of arc-shaped plate washer and with the circle of 801 concentric of arc-shaped plate washer The both ends of arc spring column 802, arc-shaped plate washer 801 and arc-shaped spring stack 802 are respectively fixed on the both sides of groove 8, delay Rush that straight spring 13 is identical as the quantity of groove 8, the quantity of buffering circular arc spring 12 is that the quantity of groove 8 is twice identical；Support Brace 10, quantity is identical as the quantity of groove 8, and one end is hinged with pedestal 1, and the other end passes through the lower face of groove 8 to connect with tower body Bar 9 is hinged, and brace spring 17 is socketed on knighthead 10 and is set between 8 lower face of 1 upper surface of pedestal and groove.Herein It is provided with knighthead 10 and brace spring 17, makes supporting mechanism integrally in stable triangular structure, more stablizes, and tiltedly Bar spring 17 also plays support cushioning effect.

Tower body 7 is fixedly connected by the way that ring flange 6 is vertical with support base 2.

Tower body connecting rod 9, quantity is identical as the quantity of groove 8, and one end is fixedly connected with tower body 7, and the other end is provided with clip, Tower body connecting rod 9 passes through the through-hole of arc-shaped plate washer 801 and is stuck on arc-shaped spring stack 802 by clip；Distinguish clip both sides Setting is socketed on arc-shaped spring stack 802 there are one circular arc spring 12, buffering circular arc spring 12 is buffered and is set to 8 side of groove Between face and clip；Straight spring 13 is buffered to be socketed on tower body connecting rod 9 and be set between tower body 7 and arc-shaped plate washer 801.

Antenna holding pole 14 is arranged in the upper end of tower body 7, and lightning rod 15 is arranged on the top of tower body 7.

In this way, using multiple precautions against earthquakes, when it is vertical vibrations to shake direction, the several groups support of the first aseismatic mechanism Spring can prevent vibrations to be directly delivered to tower body 7 from pedestal 1, play cushioning effect；When it is transverse vibration to shake direction, the The buffering circular arc spring 12 of two aseismatic mechanisms in a circumferential direction with buffer straight spring 13 radially and can play buffering it is anti- Shake acts on, and prevents vibrations to be directly delivered to tower body connecting rod 9 from pedestal 1, to be transmitted to tower body 7；In addition strong big when encountering When wind, the second aseismatic mechanism allows tower body 7 that microdisplacement occurs, and buffering circular arc spring 12 can also play branch with straight spring 13 is buffered Support acts on, and the antidetonation capability of anti-wind of tower body 7 is improved, to improve the unfailing performance of tower body 7.

Preferably, as shown in Figure 1, in order to further increase the shock resistance of tower body, shockproof reinforced communication tower further includes The auxiliary aseismatic mechanism being arranged on column 11, auxiliary aseismatic mechanism are located at the lower section of the second aseismatic mechanism, including Auxiliary support Bar 19 and Auxiliary support spring 18, auxiliary support bar 19 is vertical with column 11 to be fixedly connected, and Auxiliary support spring 18 is socketed in auxiliary branch On strut 19 and it is set between tower body 7 and column 11.In some embodiments, auxiliary support bar 19 is telescopic loop bar, example Such as two-segment type loop bar, 7 surface of tower body is fixed at one, another is fixed to column 11.

Preferably, as shown in Figure 1, antenna holding pole 14 includes pole main body, waling stripe and diagonal control arm；Waling stripe, tiltedly One end of connecting rod is connect with tower body 7, and the other end is connect with pole main body.

In some preferred embodiments, as shown in Figure 1, antenna holding pole 14 further includes pole spring 16, it is socketed in level On connecting rod and it is set between tower body 7 and pole main body.In this way, when encountering strong wind, spring can play support buffering and make With.

In certain preferred embodiments, as shown in Figure 1, the quantity of the support spring 3 and supporting rib 4 of the first aseismatic mechanism It is several groups, every group includes the support spring 3 of a supporting rib 4 and socket on it.In this way, ensureing the big of support spring 3 Rigidity is close to rigidity, increases the stability of the first aseismatic mechanism.It is preferred that support spring 3 is large scale torsional spring.

Preferably, the material of support spring 3 is alloy spring steel.In this way, the spring has enough elastic deformabilities simultaneously Larger load can be born, the stability of the first aseismatic mechanism is increased.

In the present embodiment, as shown in Fig. 2, the quantity of groove 8 is at least 4.It so, it is possible to ensure the second aseismatic mechanism Lateral shockproof properties.

In certain preferred embodiments, to improve the bending resistance of support plate 101, as shown in figure 4, each support plate 101 section is in " I " fonts.

The utility model proposes shockproof reinforced communication tower, ingenious in design, feasibility is high, and tower body can subtract to limits very much The resistance of small wind, using multiple precautions against earthquakes, pedestal uses the support plate of intersecting parallels distribution, can improve the bending resistance of pedestal and resist Torque capability, and it is provided with cushion block, support cushioning effect can be played.In addition, when it is vertical vibrations to shake direction, first The several groups support spring of aseismatic mechanism can prevent vibrations to be directly delivered to tower body from pedestal, when vibrations direction is transverse vibration When, the buffering circular arc spring and the straight spring of buffering of the second aseismatic mechanism can block the active force that tower body is subject to, and improve the anti-of tower body Shake ability；And it is additionally provided with auxiliary aseismatic mechanism, further increases the shock resistance of tower body, to improve the reliability of tower body Energy.

Although the utility model has been disclosed with preferred embodiment as above, so it is not limited to the utility model.This reality It is without departing from the spirit and scope of the utility model, each when that can make with novel those of ordinary skill in the art Kind changes and retouches.Therefore, the scope of protection of the utility model is when subject to those as defined in claim.

Claims (6)

1. a kind of shockproof reinforced communication tower, which is characterized in that including pedestal (1), tower body (7), ring flange (6), antenna holding pole (14), lightning rod (15), the first aseismatic mechanism, the second aseismatic mechanism and several tower body connecting rods (9), wherein：

For pedestal (1) integrally in closing cube structure, closing cube is internally provided with several support plates in the distribution of " well " font (101), the support plate (101) will close cube inside division into several susceptor spaces (102), the susceptor space (102) cushion block (103) is provided in；

First aseismatic mechanism, including support base (2), supporting rib (4) and support spring (3)；Support base (2) is mounted on pedestal (1) Top, connect by bolt (5) with pedestal (1)；Supporting rib (4), one end are fixedly connected with support base (2), and the other end passes through Pedestal (1) is inserted into ground；Support spring (3) is socketed on supporting rib (4) and is set to upper surface and the support base of pedestal (1) (2) between lower face；

Second aseismatic mechanism, including branch, knighthead (10), column (11), buffering circular arc spring (12), the straight spring of buffering (13) and brace spring (17)；Column (11), quantity are at least 4, are annularly uniformly distributed, and each column (11) passes through first The support base (2) of aseismatic mechanism is vertical with pedestal (1) to be fixedly connected；Branch is in circular ring shape, is socketed in tower body (7) and branch Lower face be fixed on column (11) upper surface, branch is additionally provided with several along its circumferential equally distributed groove (8), often A groove (8) be provided with centre position with through-hole arc-shaped plate washer (801) and on the outside of arc-shaped plate washer (801) and With the arc-shaped spring stack (802) of arc-shaped plate washer (801) concentric, arc-shaped plate washer (801) and arc-shaped spring stack (802) Both ends be respectively fixed on the both sides of groove (8), it is identical as the quantity of groove (8) to buffer straight spring (13), buffers circular arc bullet The quantity of spring (12) is that the quantity of groove (8) is twice identical；Knighthead (10), quantity is identical as the quantity of groove (8), and one End is hinged with pedestal (1), and the other end passes through the lower face of groove (8) hinged with tower body connecting rod (9), and brace spring (17) is socketed in On knighthead (10) and it is set between pedestal (1) upper surface and groove (8) lower face；

Tower body (7) is fixedly connected by the way that ring flange (6) is vertical with support base (2)；

Tower body connecting rod (9), quantity is identical as the quantity of groove (8), and one end is fixedly connected with tower body (7), and the other end is provided with card Hoop, tower body connecting rod (9) pass through the through-hole of arc-shaped plate washer (801) and are stuck on arc-shaped spring stack (802) by clip；Clip Both sides are respectively set there are one buffering circular arc spring (12), and buffering circular arc spring (12) is socketed on arc-shaped spring stack (802) And groove (8) is set between side and clip；Straight spring (13) is buffered to be socketed on tower body connecting rod (9) and be set to tower body (7) between arc-shaped plate washer (801)；

Antenna holding pole (14) setting is arranged in the upper end of tower body (7), lightning rod (15) on the top of tower body (7)；

The shockproof reinforced communication tower further includes the auxiliary aseismatic mechanism being arranged on column (11), and auxiliary aseismatic mechanism is located at The lower section of second aseismatic mechanism, including auxiliary support bar (19) and Auxiliary support spring (18), auxiliary support bar (19) and column (11) it is vertically fixedly connected, Auxiliary support spring (18) is socketed on auxiliary support bar (19) and is set to tower body (7) and column (11) between, auxiliary support bar (19) is that telescopic loop bar is fixed on tower body (7) table at one using two-segment type loop bar Face, another is fixed to column (11).

2. shockproof reinforced communication tower according to claim 1, which is characterized in that the antenna holding pole (14) includes pole Main body, waling stripe and diagonal control arm；Waling stripe, diagonal control arm one end connect with tower body (7), the other end with pole main body Connection.

3. shockproof reinforced communication tower according to claim 2, which is characterized in that the antenna holding pole (14) further includes embracing Bar spring (16) is socketed on waling stripe and is set between tower body (7) and pole main body.

4. shockproof reinforced communication tower according to claim 1, which is characterized in that the support bullet of first aseismatic mechanism The quantity of spring (3) and supporting rib (4) is several groups, and every group includes the support spring of a supporting rib (4) and socket on it (3)。

5. shockproof reinforced communication tower according to claim 1, which is characterized in that the material of the support spring (3) is Alloy spring steel.

6. shockproof reinforced communication tower according to claim 1, which is characterized in that each support plate (101) is cut Face is in " I " fonts.