阅读说明：本技术 一种绿色装配式建筑避雷辅助支撑装置 (Lightning-arrest auxiliary stay device of green assembled building ) 是由 袁野 邵刚 李惠 于 2021-09-28 设计创作，主要内容包括：本发明公开了一种绿色装配式建筑避雷辅助支撑装置,绿色装配式建筑避雷辅助支撑装置包括：接地座；避雷针体,避雷针体与接地座相连；缓震支撑装置,缓震支撑装置设置在避雷针体的辅助支撑；第一导流组件,第一导流组件设置在缓震支撑装置外部；第二导流组件,第二导流组件与第一导流组件相连；其中,所述缓震支撑装置包括：缓震组件,所述缓震组件设置在避雷针体外部；至少两组支撑组件,支撑组件与缓震组件相连,本装置通过缓震支撑装置进行避雷针体的水平缓震补充,进一步提高了避雷针体的防震能力,同时内部设置的第一导流组件与第二导流组件配合,在一定区域内,提高了电流的导流范围,防止局部电流过大,造成意外,消除了安全隐患。(The invention discloses a green assembled building lightning-protection auxiliary supporting device, which comprises: a ground base; the lightning rod body is connected with the grounding seat; the shock absorption supporting device is arranged on the auxiliary support of the lightning rod body; the first flow guide assembly is arranged outside the cushioning support device; the second flow guide assembly is connected with the first flow guide assembly; wherein, bradyseism strutting arrangement includes: the shock absorption component is arranged outside the lightning rod body; at least two sets of supporting components, supporting component and bradyseism subassembly link to each other, and this device carries out the level bradyseism of lightning-arrest needle body through bradyseism strutting arrangement and supplements, has further improved the shock-proof ability of lightning-arrest needle body, and the first water conservancy diversion subassembly and the cooperation of second water conservancy diversion subassembly of inside setting have improved the water conservancy diversion scope of electric current simultaneously in certain area, prevent that local electric current is too big, cause the accident, have eliminated the potential safety hazard.)

1. The utility model provides a lightning-arrest auxiliary stay device of green assembled building, its characterized in that, the lightning-arrest auxiliary stay device of green assembled building includes:

a ground base;

the lightning rod body is connected with the grounding seat and is used for lightning stroke flow guiding contact;

the shock absorption supporting device is arranged on the auxiliary support of the lightning rod body;

the first flow guide assembly is arranged outside the cushioning supporting device and used for secondary flow guide connection of current;

the second flow guide assembly is connected with the first flow guide assembly and is used for primary flow guide connection of current;

wherein, bradyseism strutting arrangement includes:

the shock absorption component is arranged outside the lightning rod body and used for buffering the horizontal movement of the lightning rod body;

and the support assemblies are connected with the cushioning assemblies and used for counteracting acting force of the cushioning assemblies.

2. The lightning-protection auxiliary supporting device for green fabricated building as claimed in claim 1, wherein the shock absorption assembly comprises:

the stabilizing frame is arranged outside the grounding seat;

the counterweight frame is positioned outside the stabilizing frame and used for improving the connection stability of the cushioning component;

the first sliding grooves are arranged outside the grounding seat;

the support is connected with the first sliding groove;

the buffering groove is connected with the counterweight frame and used for buffering connection of the support;

the limiting frame is positioned outside the support;

the second sliding grooves are arranged outside the stabilizing frame and used for limiting connection of the limiting frame;

the reinforcing member, the reinforcing member sets up inside the support for the inboard bradyseism of support is supported and is connected.

3. The lightning protection auxiliary support device for green fabricated building according to claim 1, wherein the support assembly comprises:

the first flow guide net rack is connected with the stabilizing frame and is used for matching with the first flow guide assembly to perform flow guide treatment;

the transmission parts are arranged outside the stabilizing frame and are used for limiting transmission of horizontal acting force; the transmission member includes:

the transmission rod is connected with the first diversion net rack;

the first connecting shaft bracket is arranged outside the stabilizing frame, and is provided with a transmission plate outside the first connecting shaft bracket;

the third sliding chute is positioned outside the transmission plate and used for limiting the movement of the transmission rod;

and the transmission spring frame is connected with the transmission plate and is used for movably supporting the transmission plate.

4. The green fabricated building lightning protection auxiliary support device according to claim 1, wherein the first current guiding assembly comprises:

the second flow guide net rack is connected with the grounding seat;

the shunt ring assembly is connected with the second diversion net rack and is used for carrying out current shunt treatment; the diverter ring assembly includes:

the ring frame is arranged outside the second flow guide net rack;

the communicating groove is positioned in the annular frame and used for limiting the movement of the lightning rod body;

the shunt rods are arranged outside the ring frame and used for leading out secondary components of current.

5. The green fabricated building lightning protection auxiliary support device according to claim 1, wherein the second current guiding assembly comprises:

the guide plate is arranged outside the lightning rod body;

the guide rods are connected with the guide plates and are used for guiding and transmitting the current for the first time; .

6. The green fabricated building lightning protection auxiliary supporting device according to claim 1, further comprising:

the polyvinyl chloride coating is coated outside the first flow guide assembly 5 and the second flow guide assembly 6 and is used for further improving the corrosion resistance of the structure;

and the monitoring device is arranged outside the lightning rod body and used for monitoring the external wind power in real time.

7. The lightning protection auxiliary supporting device for green fabricated building as claimed in claim 1, wherein the monitoring device comprises:

the second connecting shaft bracket is arranged outside the lightning rod body;

the insulating ring frame is connected with the lightning rod body and is used for fixedly connecting the second connecting shaft frame;

the connecting plate is arranged outside the second connecting shaft frame;

a plurality of blades located outside the connection plate.

Technical Field

The invention relates to the assembly type building industry, in particular to a lightning-protection auxiliary supporting device for a green assembly type building.

Background

With the improvement of the building level, the assembly type building is more and more favored by the building industry, especially in a construction site with higher construction difficulty, the assembly type building gradually replaces the traditional building mode, and meanwhile, the assembly type building is a representative of a modern industrial production mode due to the adoption of standardized design, industrial production, assembly construction, information management and intelligent application.

When carrying out high-rise assembly type structure construction, the outside needs to set up lightning-arrest equipment, prevents to take place the thunderbolt when thunderstorm weather, but current lightning-arrest equipment stability is relatively poor, collapses easily when extreme weather, consequently, for solving this problem, need to develop a lightning-arrest auxiliary stay device of green assembly type structure urgently.

Disclosure of Invention

The invention aims to provide a green assembly type building lightning protection auxiliary supporting device to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides a lightning-arrest auxiliary stay device of green assembled building, the lightning-arrest auxiliary stay device of green assembled building includes:

a ground base;

the lightning rod body is connected with the grounding seat and is used for lightning stroke flow guiding contact;

the shock absorption supporting device is arranged on the auxiliary support of the lightning rod body;

the first flow guide assembly is arranged outside the cushioning supporting device and used for secondary flow guide connection of current;

the second flow guide assembly is connected with the first flow guide assembly and is used for primary flow guide connection of current;

wherein, bradyseism strutting arrangement includes:

the shock absorption component is arranged outside the lightning rod body and used for buffering the horizontal movement of the lightning rod body;

and the support assemblies are connected with the cushioning assemblies and used for counteracting acting force of the cushioning assemblies.

Compared with the prior art, the invention has the beneficial effects that: this device reasonable in design carries out the level bradyseism of lightning-arrest needle body through bradyseism strutting arrangement and supplements, has further improved the shock-proof capability of lightning-arrest needle body, and the cooperation of the first water conservancy diversion subassembly and the second water conservancy diversion subassembly of inside setting has improved the water conservancy diversion scope of electric current in certain area simultaneously, prevents that local current is too big, causes the accident, has eliminated the potential safety hazard, has improved the not enough of current device, has higher practicality and market prospect, is fit for using widely on a large scale.

Drawings

Fig. 1 is an internal structure schematic diagram of a green fabricated building lightning protection auxiliary supporting device.

Fig. 2 is an external structure schematic diagram of a green fabricated building lightning protection auxiliary supporting device.

Fig. 3 is a partial schematic view of fig. 1 at a.

Fig. 4 is a schematic structural diagram of a shunt ring assembly in a green fabricated building lightning protection auxiliary supporting device.

In the figure: 1-grounding seat, 2-cushioning support device, 3-cushioning component, 4-support component, 5-first flow guide component, 6-second flow guide component, 7-monitoring device, 8-lightning rod body, 301-stabilizing frame, 302-counterweight frame, 303-first chute, 304-support leg component, 305-cushioning groove, 306-support, 307-limiting frame, 308-reinforcing frame, 309-cushioning frame, 310-second chute, 401-first flow guide net rack, 402-transmission rod, 403-first connection shaft rack, 404-transmission plate, 405-third chute, 406-transmission spring rack, 501-shunt ring component, 502-second flow guide net rack, 503-ring rack, 504-communication groove, 505-shunt rod, 601-guide plate, 602-guide rod, 701-second connecting shaft bracket, 702-connecting plate, 703-blade, 704-insulating ring bracket.

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.

In one embodiment of the present invention, the green fabricated building lightning protection auxiliary supporting device comprises: a ground base 1; the lightning rod 8 is connected with the grounding seat 1 and is used for lightning stroke flow guiding contact; the shock absorption supporting device 2 is arranged on the auxiliary support of the lightning rod body 8; the first flow guide assembly 5 is arranged outside the cushioning support device 2 and used for secondary flow guide connection of current; the second flow guide assembly 6 is connected with the first flow guide assembly 5 and is used for primary flow guide connection of current; wherein, bradyseism strutting arrangement 2 includes: the shock absorption component 3 is arranged outside the lightning rod body 8, and is used for buffering the horizontal movement of the lightning rod body 8; at least two sets of supporting components 4, supporting component 4 links to each other with bradyseism subassembly 3 for bradyseism subassembly 3's effort is offset.

In one embodiment of the invention:

the cushioning assembly 3 comprises: the stabilizing frame 301 is arranged outside the grounding seat 1; a weight frame 302 positioned outside the stabilizing frame 301 for improving the connection stability of the shock absorbing assembly 3; at least four first sliding chutes 303, wherein the first sliding chutes 303 are arranged outside the grounding seat 1; at least four supports 306, wherein the supports 306 are connected with the first sliding chute 303; a cushioning slot 305, the cushioning slot 305 being connected to the weight frame 302 for cushioning connection of a support 306; a spacing bracket 307 located outside the pedestal 306; at least four second sliding grooves 310, wherein the second sliding grooves 310 are arranged outside the stabilizing frame 301 and used for limiting connection of the limiting frame 307; a reinforcement member disposed inside the pedestal 306 for a shock absorbing bracing connection inside the pedestal 306; the reinforcement comprises: the reinforcing frame 308 and the cushioning frame 309 are connected, and the cushioning frame 309 is connected with the reinforcing frame 308;

when external wind power is large and the lightning rod body 8 shakes, the bottom shock absorption component 3 performs shock absorption support in the horizontal direction, the balance weight frame 302 arranged in the middle can further improve the stability of the shock absorption component 3, when the lightning rod body horizontally moves in a small range, the four support seats 306 slide in the first sliding grooves 303 connected with the support seats, the tops of the support seats 306 slide in the second sliding grooves 310 connected with the support seats through the limiting frames 307, the inner sides of the support seats 306 perform limiting buffering through the shock absorption grooves 303, and meanwhile, the reinforcing members arranged at the bottom further improve the overall shock absorption capacity;

in addition, the fixed support that sets up of accessible carries out lightning-arrest needle body 8 supports fixedly, bradyseism subassembly 3 can further improve lightning-arrest needle body 8's bradyseism ability, avoids the too big needle body that causes of outside wind-force to collapse, carries out the effort of horizontal direction and supplyes, further improves lightning-arrest needle body 8's shockproof ability.

In one embodiment of the invention:

the support assembly 4 comprises: the first flow guide net rack 401 is connected with the stabilizing frame 301 and is used for matching with the first flow guide assembly 5 to perform flow guide treatment; a chute matched with the first diversion net rack 401 is arranged outside the stabilizing frame 301 and used for limiting movement of the first diversion net rack 401; the transmission pieces are arranged outside the stabilizing frame 301 and used for limiting transmission of horizontal acting force; the transmission member includes: a transmission rod 402, wherein the transmission rod 402 is connected with the first diversion net rack 401; a first connecting shaft bracket 403, the first connecting shaft bracket 403 being disposed outside the stabilizer 301, a driving plate 404 being located outside the first connecting shaft bracket 403; a third sliding groove 405 located outside the driving plate 404 for limiting the movement of the driving rod 402; the transmission spring frame 406 is connected with the transmission plate 404 and is used for movably supporting the transmission plate 404; the bottom of the lightning rod body 8 is connected with the inside of a first diversion net rack 401, the first diversion net rack 401 is connected with an external first diversion assembly 5, when the external lightning rod body 8 is struck by lightning, a part of electricity is guided to the external first diversion assembly 5 through the first diversion net rack 401, when the external lightning rod body 8 shakes, the first diversion net rack 401 horizontally moves in a bottom chute to drive an external transmission rod 402 to move, the tail end of the transmission rod 402 moves in a third chute 405 to change the stress position of a transmission plate 404 and drive a transmission spring rack 406 connected with the transmission plate to carry out pressure transmission with different force degrees, so that the reverse acting force of a support 306 connected with the transmission plate is counteracted, and the effect of stable structure is achieved;

in addition, the supporting component 4 can be replaced by a stable supporting structure, and the supporting component 4 can offset the reverse acting force, so that the moving range of the structure is reduced, and the overall stability of the structure is further improved.

In one embodiment of the invention:

the first flow guide assembly 5 includes: the second flow guide net rack 501, the second flow guide net rack 501 is connected with the grounding seat 1; the shunt ring assembly 502 is connected with the second diversion net rack 501 and is used for conducting current shunt treatment; the diverter ring assembly 502 includes: the ring frame 503 is arranged outside the second flow guide net frame 501; the communicating groove 504 is positioned in the ring frame 503 and is used for limiting the movement of the lightning rod body 8; at least four shunt rods 505, wherein the shunt rods 505 are arranged outside the ring frame 503 and used for leading out secondary components of current;

the first diversion net rack 401 and the second diversion net rack 501 are both arranged in a cylinder shape, and when the lightning rod body 8 in the middle part shakes inside the communicating groove 504 under external force and is subjected to external electric shock, current is guided to the second diversion net rack 501 through the ring rack 503 and the four shunt rods 505;

in addition, the first current guide assembly 5 can be replaced by external single connecting equipment, the first current guide assembly 5 can divide the introduced current in a shunting manner, and the phenomenon that the local current is too large and damages external equipment is avoided.

In one embodiment of the invention:

the second flow guide assembly 6 includes: the flow guide plate 601 is arranged outside the lightning conductor body 8; the guide rods 602 are connected with the guide plate 601 and used for guiding the primary direction of current;

when the external lightning rod body 8 is struck by lightning, firstly, the lightning rod body is shunted through the first diversion assembly 5, then, the lightning rod body is shunted through the second diversion assembly 5, current is transmitted to three diversion rods 602 on the outer side through the lightning rod body 8 and the diversion plate 601, then, the diversion rods 602 are conducted to the first diversion net rack 401 connected with the first diversion net rack 401, and then, the grounding conduction is carried out through the grounding seat 1 connected with the first diversion net rack 401;

in addition, direct shunting can be carried out through the first current guide assembly 5, and the internal structure interval of the second current guide assembly 6 is larger, so that current accumulation during initial contact is prevented.

In one embodiment of the invention:

the lightning-arrest auxiliary stay device of green fabricated building still includes: the polyvinyl chloride coating is coated outside the first flow guide assembly 5 and the second flow guide assembly 6 and is used for further improving the corrosion resistance of the structure; the monitoring device 7 is arranged outside the lightning rod body 8, and is used for monitoring external wind power in real time;

the coating thickness of the polyvinyl chloride coating is smaller than 1 mm, meanwhile, sensing equipment and wireless transmitting equipment are arranged in the device and used for being matched with the detection device 7 to transmit data, the rest electric parts are connected with power supplies matched with the rest electric parts through leads, and a proper control device is selected according to actual conditions so as to meet control requirements;

in addition, the polyvinyl chloride coating can be replaced by other paint layers, and has the advantages of good compatibility, good sunlight and weather fastness and low production cost.

In one embodiment of the invention:

the monitoring device 7 includes: the second connecting shaft bracket 701, the second connecting shaft bracket 701 is arranged outside the lightning rod body 8; the insulating ring frame 704 is connected with the lightning rod 8 and is used for fixedly connecting the second connecting shaft frame 701; a connection plate 702, the connection plate 702 being disposed outside the second connection pedestal 701; a number of blades 703 located outside the connection plate 702;

under the drive of outside wind-force, drive outside a plurality of blade 703 and rotate, cooperation inside sensing equipment carries out real-time supervision to wind-force, simultaneously, can set up energy storage equipment, utilizes the energy storage to outside wind-force resource, further improves resource utilization.

To sum up, this device carries out the level bradyseism of lightning-arrest needle body through bradyseism strutting arrangement and supplements, has further improved the shock-proof ability of lightning-arrest needle body, and the cooperation of the first water conservancy diversion subassembly and the second water conservancy diversion subassembly of inside setting has improved the water conservancy diversion scope of electric current in certain area simultaneously, prevents that local electric current is too big, causes the accident, has eliminated the potential safety hazard, has improved the not enough of current device.

The working principle of the invention is as follows: when the lightning rod device is used, when external wind force is large and the lightning rod body 8 is caused to shake, the bottom shock absorption component 3 carries out shock absorption support in the horizontal direction, the balance weight frame 302 arranged in the middle can further improve the stability of the shock absorption component 3, when the lightning rod device horizontally moves in a small range, the four support seats 306 slide in the first sliding grooves 303 connected with the four support seats, the tops of the support seats 306 slide in the second sliding grooves 310 connected with the support seats through the limiting frames 307, the inner sides of the support seats 306 carry out limiting buffering through the shock absorption grooves 303, and meanwhile, the reinforcing members arranged at the bottom further improve the whole shock absorption capacity; the lightning rod body 8 can be supported and fixed through the fixed support, the shock absorption component 3 can further improve the shock absorption capacity of the lightning rod body 8, the collapse of the lightning rod body caused by overlarge external wind force is avoided, the acting force in the horizontal direction is supplemented, and the shock absorption capacity of the lightning rod body 8 is further improved;

the bottom of the lightning rod body 8 is connected with the inside of a first diversion net rack 401, the first diversion net rack 401 is connected with an external first diversion assembly 5, when the external lightning rod body 8 is struck by lightning, a part of electricity is guided to the external first diversion assembly 5 through the first diversion net rack 401, when the external lightning rod body 8 shakes, the first diversion net rack 401 horizontally moves in a bottom chute to drive an external transmission rod 402 to move, the tail end of the transmission rod 402 moves in a third chute 405 to change the stress position of a transmission plate 404 and drive a transmission spring rack 406 connected with the transmission plate to carry out pressure transmission with different force, so that the reverse acting force of a support 306 connected with the transmission plate is counteracted, the effect of stable structure is achieved, the support assembly 4 can be replaced by a stable support structure, the support assembly 4 can counteract the reverse acting force, the structure moving range is reduced, and the overall stability of the structure is further improved, the first diversion net rack 401 and the second diversion net rack 501 are both arranged in a cylinder, when the middle lightning rod body 8 is shaken in the communicating groove 504 by external force and is subjected to external electric shock, current is guided and sent to the external second diversion net rack 501 through the ring frame 503 and the four diversion rods 505, the first diversion assembly 5 can be replaced by external single connecting equipment, the first diversion assembly 5 can divide and divide the introduced current, local current is prevented from being overlarge and damaging external equipment, when the external lightning rod body 8 is struck by lightning, the current is firstly divided by the first diversion assembly 5 and then divided by the second diversion assembly 5, the current is sent to the three outer diversion rods 602 through the lightning rod body 8 and the diversion plate 601, then the diversion rods 602 are conducted to the first diversion net rack 401 connected with the first diversion net rack, and then the grounding conduction is carried out through the grounding seat 1 connected with the first diversion net rack 401, the direct shunt can be carried out through the first flow guide component 5, and the internal structure interval of the second flow guide component 6 is larger, so that the current is prevented from gathering during primary contact.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.