CN105155901A

CN105155901A - Combined type roof communication tower

Info

Publication number: CN105155901A
Application number: CN201510507501.3A
Authority: CN
Inventors: 章跃军; 田大年; 姚云龙; 张珩; 竹影; 杨志华; 孙豪杰; 胡桂彬
Original assignee: Huaxin Consulting Co Ltd
Current assignee: Huaxin Consulting Co Ltd
Priority date: 2015-08-18
Filing date: 2015-08-18
Publication date: 2015-12-16
Anticipated expiration: 2035-08-18
Also published as: CN105155901B

Abstract

The invention discloses a combined type roof communication tower. While a roof waterproof layer is prevented from being damaged, mounting strength, firmness and stability of the communication tower can be improved effectively, and then the hanging amount of a communication antenna is increased effectively. The combined type roof communication tower comprises a communication pole and a balancing weight; the communication pole is fixedly arranged on a parapet wall of a roof; the balancing weight is arranged on the upper surface of the roof; a reinforcing supporting structure is arranged between the balancing weight and the communication pole, and comprises a lower supporting rod and an upper supporting rod; the lower supporting rod and the upper supporting rod are connected with the balancing weight and the communication pole; the upper supporting rod is positioned above the lower supporting rod; one end of the upper supporting rod is connected with the middle of the communication pole; the other end of the upper supporting rod slants down, extends to the direction of the balancing weight, and is connected with the balancing weight; one end of the lower supporting rod is connected with the lower portion of the communication pole; and the other end of the lower supporting rod is connected with the balancing weight.

Description

Combined roof communication shaft tower

Technical field

The present invention relates to a kind of communication shaft tower, be specifically related to a kind of Combined roof communication shaft tower.

Background technology

Roof increases communication antenna newly and usually adopts the mode such as expansion bolt, stone bolt to be fixed on roof structure layer by communication antenna shaft tower; But this kind of fixed form can destroy roof membrane, the unfavorable phenomenon such as cause that house leaks, for avoiding the way destroying roof membrane common is at present: inside parapet communication antenna shaft tower being fixed on roof.

Although the design inside the current this parapet directly communication shaft tower being fixed on roof can effectively be avoided destroying roof membrane, but the firmness, the stability that are directly installed on the communication shaft tower inside parapet are not good, thus traditional parapet attaching communication shaft tower communication antenna (mount volume is little) that often self energy carry is less, and along with communications industry development, Joint construction and sharing requires more and more higher to communication shaft tower carry antenna amount, and traditional parapet attaching communication shaft tower antenna carry quantity can not meet the demands.Thus, how to design a kind of new roof communication shaft tower, it while avoiding destroying roof membrane, can ensure firmness, the stability of communication shaft tower, and then effectively improve the mount volume of communication antenna, thus to be about cost by Joint construction and sharing joint communication shaft tower be significantly.

Summary of the invention

The object of the invention is to overcome deficiency of the prior art, there is provided a kind of can avoid destroying while roof membrane, effectively improve the communication installation strength of shaft tower, firmness and stability, and then effectively improve the Combined roof communication shaft tower of mount volume of communication antenna.

Technical scheme of the present invention is:

A kind of Combined roof communication shaft tower, comprise the communication pole be fixedly installed on the parapet on roof and the balancing weight being arranged on roof upper surface, reinforcement braced structures is provided with between described balancing weight and communication pole, this reinforcement braced structures comprises the lower support bar and upper support bar that connect balancing weight and communication pole, and upper support bar is positioned at above lower support bar, one end of described upper support bar is connected with in the middle part of communication pole, and the other end extends obliquely toward balancing weight direction and is connected with balancing weight; Described lower support bar one end is connected with communication pole bottom, and the other end is connected with balancing weight.

The roof communication pole tower structure of this programme by arranging balancing weight (balancing weight is directly placed on roof upper surface) on roof upper surface, and by arranging reinforcement braced structures between balancing weight and communication pole, upper support bar, lower support bar, communication pole and balancing weight form triangular support jointly, thus the installation strength of effective raising communication shaft tower, firmness and stability, and then effectively improve the mount volume of communication antenna.

As preferably, between balancing weight and roof upper surface, be provided with rubber spacer.The rubber spacer of this programme is between balancing weight and roof upper surface, the skid resistance between balancing weight and roof can be improved so greatly, make the desired location being positioned at roof upper surface that balancing weight is stable, thus effectively improve the stability of communication shaft tower further.

As preferably, be connected by main supporting structure between parapet with communication pole, described main supporting structure comprises the main support rod and auxiliary support bar that connect parapet and communication pole, and described main support rod one end is connected with parapet side, and the other end is connected with communication pole bottom; Described auxiliary support bar is positioned at above main support rod, and auxiliary support bar one end is connected with parapet end face, and the other end extends obliquely toward communication pole direction and is connected with communication pole.This programme structure can improve the communication installation strength of shaft tower, firmness and stability further.

As preferably, the below of the connecting portion of the connecting portion between auxiliary support bar and communication pole between upper support bar and communication pole; The below of the connecting portion of the connecting portion between described lower support bar and communication pole between auxiliary support bar and communication pole; The below of the connecting portion of the connecting portion between described main support rod and communication pole between lower support bar and communication pole.This programme structure can improve the communication installation strength of shaft tower, firmness and stability further.

As preferably, the quantity of auxiliary support bar is two, forms triangular support configurations between two auxiliary support bars and parapet end face.This programme structure can improve the communication installation strength of shaft tower, firmness and stability further.

As preferably, the quantity of lower support bar is two, and two lower support bars are horizontally disposed with, and two form triangular support configurations between lower support bar and balancing weight.This programme structure can improve the communication installation strength of shaft tower, firmness and stability further.

As preferably, be provided with the auxiliary bar vertically arranged in the middle part of balancing weight end face, the lower end of described upper support bar is connected with auxiliary pole-footing portion; Described balancing weight is made up of concrete block or bloom.

As preferably, also comprise and trigger rope, connection cord, flip flop equipment and actuating unit, described flip flop equipment and actuating unit are positioned at the same side of communication pole, and described actuating unit and parapet are positioned at the relative both sides of communication pole;

Described flip flop equipment comprises the triggering cylinder body be vertically arranged on balancing weight end face, slidably be arranged on the triggering piston triggered in cylinder body, be arranged on to trigger on cylinder body medial surface and be positioned at the first lower position block of triggering below piston and be arranged on and trigger cylinder body and the pressure sensor be positioned at above triggering piston; Triggering piston can be made to be resisted against the first Compress Spring on the first lower position block in described triggering cylinder body and triggering cylinder deck and trigger to be provided with between piston, and when triggering piston is resisted against after on the first lower position block, gap is provided with between described pressure sensor and triggering piston, described triggering cylinder deck is provided with and the threading via hole triggering inner chamber of cylinder block and be connected, described triggering piston is provided with the axially extending bore being communicated with and triggering side face of piston ring, described one end of triggering rope is connected with the top of communication pole, and the other end passes threading via hole and is connected with triggering piston;

Described actuating unit comprises the execution cylinder body be horizontally set on balancing weight end face, is slidably arranged on the execution piston performed in cylinder body, is arranged on the second front limit block performing cylinder body medial surface and the piston rod be arranged on execution piston,

One end of described execution cylinder body is closed, other end opening, and the blind end of execution cylinder body is near communication pole, perform the end opening of cylinder body away from communication pole, described second front limit block is positioned at the blind end performing cylinder body the same side performing piston, described piston rod is positioned at the openend performing cylinder body the same side performing piston, and the end of piston rod is passed the openend of execution cylinder body and is positioned at outside execution cylinder body, between the blind end performing cylinder body and the second front limit block, gas generator is provided with in described execution cylinder body, one end of described connection cord is connected with the top of communication pole, the other end be positioned at the piston rod performed outside cylinder body and be connected.

Communicate in the long-time use procedure mounting structure of shaft tower of communication shaft tower easily loosens, tilts, and even topples over; Especially in atrocious weather situation, the situations such as such as violent typhoon, the easier run-off the straight of communication shaft tower, the problem of toppling over; And roof communication shaft tower is arranged on inside the parapet of roof edge, once communication shaft tower run-off the straight, topples over and often occur that communication shaft tower drops to ground by roof edge, and cause serious potential safety hazard.This programme improves for this problem, effectively avoid the shaft tower run-off the straight of communicating, topple over time often occur that communication shaft tower drops to ground by roof edge, and cause the problem of serious potential safety hazard.

As preferably, to trigger in cylinder body and to be positioned at the first upper limit position block triggered above piston, be positioned at above the first upper limit position block and be provided with vertical guide pin bushing in described triggering cylinder body, slidably guide rod is provided with in vertical guide pin bushing, guide rod lateral surface is provided with the 3rd upper limit position block and the 3rd lower position block, and vertical guide pin bushing is between the 3rd upper limit position block and the 3rd lower position block, described guide rod is arranged with the second Compress Spring between vertical guide pin bushing and the 3rd lower position block, and when the 3rd upper limit position block is resisted against vertical guide pin bushing upper end, the lower end of described guide rod is positioned at the below of the first upper limit position block, described pressure sensor is arranged on the lower end of guide rod.

As preferably, performs cylinder body lateral surface and be provided with and the ventilation interface performing inner chamber of cylinder block and be connected, and ventilation interface is provided with controlled valve, described ventilation interface the blind end performing cylinder body by with the second front limit block between; Limited block after described execution cylinder body medial surface is provided with second, and the close openend performing cylinder body of limited block after second.

The invention has the beneficial effects as follows:

One, while avoiding destroying roof membrane, effectively can improve the installation strength of communication shaft tower, firmness and stability, and then effectively improves the mount volume of communication antenna.

Accompanying drawing explanation

Fig. 1 is a kind of structural representation of the Combined roof communication shaft tower of the embodiment of the present invention 1.

Fig. 2 is a kind of cross-sectional view at A-A place in Fig. 1.

Fig. 3 is a kind of structural representation of the Combined roof communication shaft tower of the embodiment of the present invention 2.

Fig. 4 is a kind of structural representation of the flip flop equipment of the embodiment of the present invention 2.

Fig. 5 is a kind of structural representation of the actuating unit of the embodiment of the present invention 2.

In figure: parapet 1, main support rod 2, lower support bar 3, balancing weight 4, rubber pad 5, communication pole 6, support bar 7, auxiliary bar 8, auxiliary support bar 9, trigger rope 11, flip flop equipment 12, trigger cylinder body 121, first lower position block 122, trigger piston 123, axially extending bore 124, first Compress Spring 125, first upper limit position block 126, caulking gum plug 127, 3rd upper limit position block 128, vertical guide pin bushing 129, guide rod 1210, second Compress Spring 1211, and the 3rd lower position block 1212, pressure sensor 1213, connection cord 13, actuating unit 14, perform cylinder body 141, piston rod 142, perform piston 143, second front limit block 144, gas generator 145, limited block 146 after second, horizontal guide pin bushing 147, ventilation interface 148, controlled valve 149, thimble 15.

Detailed description of the invention

Below in conjunction with accompanying drawing and detailed description of the invention, the present invention is described in further detail:

Embodiment 1: as shown in Figure 1 and Figure 2, a kind of Combined roof communication shaft tower comprises the communication pole 6 be fixedly installed on the parapet 1 on roof and the balancing weight 4 being arranged on roof upper surface.Communication pole is used for carry communication antenna.

Be connected by main supporting structure between parapet with communication pole.Main supporting structure comprises the main support rod 2 and auxiliary support bar 9 that connect parapet and communication pole.Be connected by bolt between main support rod one end with parapet side, the other end is connected with communication pole bottom.Main support rod is horizontally disposed with.Auxiliary support bar is positioned at above main support rod.Auxiliary support bar one end is connected with parapet end face, and the other end extends obliquely toward communication pole direction and is connected with communication pole.The quantity of auxiliary support bar is two, forms triangular support configurations between two auxiliary support bars and parapet end face.

Rubber pad 5 is provided with between balancing weight and roof upper surface.Balancing weight is made up of concrete block or bloom or concrete block.The steel frame be made up of angle steel is provided with in concrete block.The auxiliary bar 8 vertically arranged is provided with in the middle part of balancing weight end face.Reinforcement braced structures is provided with between balancing weight and communication pole.This reinforcement braced structures comprises the lower support bar 3 and upper support bar 7 that connect balancing weight and communication pole, and upper support bar is positioned at above lower support bar.One end of upper support bar is connected with in the middle part of communication pole, and the other end extends obliquely toward balancing weight direction and is connected with balancing weight.The lower end of upper support bar is connected with auxiliary pole-footing portion.Lower support bar one end is connected with communication pole bottom, and the other end is connected with balancing weight.The quantity of lower support bar is two.Two lower support bars are horizontally disposed with, and two form triangular support configurations between lower support bar and balancing weight.

The below of the connecting portion of the connecting portion between auxiliary support bar and communication pole between upper support bar and communication pole.The below of the connecting portion of the connecting portion between lower support bar and communication pole between auxiliary support bar and communication pole.The below of the connecting portion of the connecting portion between main support rod and communication pole between lower support bar and communication pole.

Embodiment 2: all the other structures of the present embodiment are with reference to embodiment 1, and its difference is:

As shown in Figure 3, a kind of Combined roof communication shaft tower also comprises controller, triggers rope 11, connection cord 13, flip flop equipment 12 and actuating unit 14.Flip flop equipment and actuating unit are positioned at the same side of communication pole.Actuating unit and parapet are positioned at the relative both sides of communication pole.

As shown in Figure 3, Figure 4, flip flop equipment comprises the triggering cylinder body 121 be vertically arranged on balancing weight end face, slidably be arranged on the triggering piston 123 triggered in cylinder body, be arranged on to trigger on cylinder body medial surface and be positioned at the first lower position block 122 of triggering below piston and be arranged on and trigger cylinder body and the pressure sensor 1213 be positioned at above triggering piston.Pressure sensor is connected with controller by holding wire.To trigger in cylinder body and to be positioned at the first upper limit position block 126 triggered above piston.To trigger in cylinder body and be positioned at above the first upper limit position block and be provided with vertical guide pin bushing 129.Vertical guide pin bushing is fixed on by vertical rod member and triggers on cylinder body inner top surface.Slidably guide rod 1210 is provided with in vertical guide pin bushing.Guide rod lateral surface is provided with the 3rd upper limit position block 128 and the 3rd lower position block 1212, and vertical guide pin bushing is between the 3rd upper limit position block and the 3rd lower position block.Guide rod is arranged with the second Compress Spring 1211 between vertical guide pin bushing and the 3rd lower position block, and when the 3rd upper limit position block is resisted against vertical guide pin bushing upper end, the lower end of guide rod is positioned at the below of the first upper limit position block.Pressure sensor is arranged on the lower end of guide rod.

To trigger in cylinder body and triggering piston can be made to be resisted against the first Compress Spring 125 on the first lower position block triggering cylinder deck and trigger to be provided with between piston.When triggering piston is resisted against after on the first lower position block, between pressure sensor and triggering piston, be provided with gap.Trigger piston and be provided with the axially extending bore 124 being communicated with and triggering side face of piston ring.Trigger cylinder deck to be provided with and the threading via hole triggering inner chamber of cylinder block and be connected.Caulking gum plug 127 is provided with in threading via hole.Caulking gum plug is provided with the inner via hole running through caulking gum plug upper and lower end face.The top of caulking gum plug is provided with thimble 15, and thimble is fixed on triggering cylinder body by connector.The one end of triggering rope is connected with the top of communication pole, and the other end passes threading via hole and is connected with triggering piston; Specifically, the one end of triggering rope is connected with the top of communication pole, the other end successively through thimble and inner via hole and with trigger piston and be connected.When triggering piston and being resisted against on the first lower position block, trigger rope and be in exceptionally straight state.

As shown in Fig. 3, Fig. 5, actuating unit 14 comprises the execution cylinder body 141 be horizontally set on balancing weight end face, slidably be arranged on the execution piston 143 performed in cylinder body, be arranged on the second front limit block 144 performing cylinder body medial surface and the piston rod 142 be arranged on execution piston.Communication pole cross section is circular.Communication pole is vertically arranged.The axis performing cylinder body extends along the radial direction of communication pole.The one end performing cylinder body is closed, other end opening; And the blind end of execution cylinder body is near communication pole, perform the end opening of cylinder body away from communication pole.Second front limit block is positioned at the blind end performing cylinder body the same side performing piston.Perform cylinder body medial surface and be provided with the second rear limited block 146, and the close openend performing cylinder body of limited block after second.Perform cylinder body lateral surface to be provided with and the ventilation interface 148 performing inner chamber of cylinder block and be connected, and ventilation interface is provided with controlled valve 149.The blind end that ventilation interface is performing cylinder body leans between the second front limit block.Perform in cylinder body and be provided with gas generator 145 between the blind end performing cylinder body and the second front limit block.The gas generator of the present embodiment is the gas generator used in automobile safety system.Piston rod is positioned at the openend performing cylinder body the same side performing piston, and the end of piston rod is passed the openend of execution cylinder body and is positioned at outside execution cylinder body.Piston rod is positioned to perform outside cylinder body and is provided with horizontal guide pin bushing 147, and horizontal guide pin bushing is connected with balancing weight by connector.Be positioned at the piston rod end performed outside cylinder body and be provided with the radial link extended along piston rod radial direction.One end of connection cord 13 is connected with the top of communication pole, the other end be positioned at the piston rod performed outside cylinder body and be connected; Specifically, one end of connection cord is connected with the top of communication pole, and the other end is connected with radial link.Spacing between tie point between connection cord and communication pole to the tie point between connection cord and piston rod is less than the length of connection cord.

Controlled valve after mounting, is opened by the actuating unit of the present embodiment, is then resisted against by execution piston on the second front limit block, as shown in Figure 5; Finally controlled valve is closed.

When communication pole is toppled over outside roof edge, as shown in Figure 3, Figure 4, trigger rope and drive triggering piston is up moved, when triggering piston is resisted against after on pressure sensor; Then illustrate that communication pole has the situation of toppling over outside roof edge.

As shown in Fig. 3, Fig. 5, when triggering piston is resisted against after on pressure sensor, controller control gas generator detonates and produces a large amount of gas, thus piston and piston rod will be performed rapidly toward away from passing, connection cord is toppled over driving the top of communication pole inside roof edge in this process, makes communication pole be poured in roof top; Thus effectively avoid the shaft tower run-off the straight of communicating, topple over time often occur that communication shaft tower drops to ground by roof edge, and cause the problem of serious potential safety hazard.

Claims

1. a Combined roof communication shaft tower, comprise the communication pole be fixedly installed on the parapet on roof, it is characterized in that, also comprise the balancing weight being arranged on roof upper surface, reinforcement braced structures is provided with between described balancing weight and communication pole, this reinforcement braced structures comprises the lower support bar and upper support bar that connect balancing weight and communication pole, and upper support bar is positioned at above lower support bar, one end of described upper support bar is connected with in the middle part of communication pole, and the other end extends obliquely toward balancing weight direction and is connected with balancing weight; Described lower support bar one end is connected with communication pole bottom, and the other end is connected with balancing weight.

2. Combined roof communication shaft tower according to claim 1, is characterized in that, be provided with rubber spacer between described balancing weight and roof upper surface.

3. Combined roof communication shaft tower according to claim 1, is characterized in that, described in

Be connected by main supporting structure between parapet with communication pole, described main supporting structure comprises the main support rod and auxiliary support bar that connect parapet and communication pole, and described main support rod one end is connected with parapet side, and the other end is connected with communication pole bottom; Described auxiliary support bar is positioned at above main support rod, and auxiliary support bar one end is connected with parapet end face, and the other end extends obliquely toward communication pole direction and is connected with communication pole.

4. Combined roof communication shaft tower according to claim 3, is characterized in that, the below of the connecting portion of the connecting portion between described auxiliary support bar and communication pole between upper support bar and communication pole; The below of the connecting portion of the connecting portion between described lower support bar and communication pole between auxiliary support bar and communication pole; The below of the connecting portion of the connecting portion between described main support rod and communication pole between lower support bar and communication pole.

5. the Combined roof communication shaft tower according to claim 3 or 4, it is characterized in that, the quantity of described auxiliary support bar is two, forms triangular support configurations between two auxiliary support bars and parapet end face.

6. the Combined roof communication shaft tower according to claim 1 or 2 or 3 or 4, it is characterized in that, the quantity of described lower support bar is two, and two lower support bars are horizontally disposed with, and two form triangular support configurations between lower support bar and balancing weight.

7. the Combined roof communication shaft tower according to claim 1 or 2 or 3 or 4, it is characterized in that, be provided with the auxiliary bar vertically arranged in the middle part of described balancing weight end face, the lower end of described upper support bar is connected with auxiliary pole-footing portion; Described balancing weight is made up of concrete block or bloom.

8. the Combined roof communication shaft tower according to claim 1 or 2 or 3 or 4, it is characterized in that, also comprise and trigger rope, connection cord, flip flop equipment and actuating unit, described flip flop equipment and actuating unit are positioned at the same side of communication pole, and described actuating unit and parapet are positioned at the relative both sides of communication pole;

9. Combined roof communication shaft tower according to claim 8, it is characterized in that, be positioned at the first upper limit position block triggered above piston in described triggering cylinder body, be positioned at above the first upper limit position block and be provided with vertical guide pin bushing in described triggering cylinder body, slidably guide rod is provided with in vertical guide pin bushing, guide rod lateral surface is provided with the 3rd upper limit position block and the 3rd lower position block, and vertical guide pin bushing is between the 3rd upper limit position block and the 3rd lower position block, described guide rod is arranged with the second Compress Spring between vertical guide pin bushing and the 3rd lower position block, and when the 3rd upper limit position block is resisted against vertical guide pin bushing upper end, the lower end of described guide rod is positioned at the below of the first upper limit position block, described pressure sensor is arranged on the lower end of guide rod.

10. Combined roof communication shaft tower according to claim 8, it is characterized in that, described execution cylinder body lateral surface is provided with and the ventilation interface performing inner chamber of cylinder block and be connected, and ventilation interface is provided with controlled valve, described ventilation interface leans between the second front limit block at the blind end performing cylinder body; Limited block after described execution cylinder body medial surface is provided with second, and the close openend performing cylinder body of limited block after second.