CN219285798U - Multi-equipment linkage alarm device based on iron tower - Google Patents

Abstract

The utility model discloses a multi-equipment linkage alarm device based on an iron tower, which comprises a working platform arranged on the top layer of the iron tower, an auxiliary platform arranged on the middle layer of the iron tower and a tower foundation positioned at the bottom of the iron tower. According to the device, the working platform is arranged on the top layer of the iron tower, the auxiliary platform is arranged on the middle layer of the iron tower, and the tower foundation is arranged on the bottom layer of the iron tower, so that the cooperative protection is realized on the protection area through the cooperation of the working platform, the middle layer and the auxiliary platform, the invasion is prevented, the problems that the protection on the protection area in the prior art is mainly passively defended by single means such as people's air defense, object's defense and the like, the threat situation of the prior art cannot be met by the protection means and the early warning capability are solved, and the three-dimensional monitoring alarm and treatment on the protection area are realized; meanwhile, the whole device has a simple structure and reduces the cost.

Description

Multi-equipment linkage alarm device based on iron tower

Technical Field

The utility model belongs to the field of monitoring protection, and particularly relates to a multi-equipment linkage alarm device based on an iron tower.

Background

The protection of areas such as border emphasis areas, institutional areas and the like involves the safety of important personnel, equipment, facilities and information, and once improperly handled, the safety and benefits are seriously affected. At present, novel threat means continuously emerge, low-altitude unmanned aerial vehicle is frequently invaded, ground threat personnel, vehicles and dangerous goods are suddenly hidden, electromagnetic interference happens at time, but traditional regional protection still takes passive defense of single means such as people's air defense and physical defense as the main part, and protection means and early warning capability can not adapt to the current situation of novel threat yet.

With the rapid development and mature application of the internet of things technology and the artificial intelligence technology, the traditional regional protection still takes passive defense as a main measure of personal defense, physical defense and other single measures, and the protection measure and the early warning capability cannot adapt to the threat current situation of the prior art.

Disclosure of Invention

The utility model aims to solve the problems in the background technology and provides a multi-equipment linkage alarm device based on an iron tower.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

the utility model provides a multi-equipment linkage alarm device based on an iron tower, which comprises a working platform arranged on the top layer of the iron tower, an auxiliary platform arranged on the middle layer of the iron tower and a tower foundation positioned at the bottom of the iron tower, wherein the auxiliary platform comprises a plurality of support plates, wherein the support plates are arranged on the support plates, and the support plates are arranged on the support plates:

the auxiliary platform comprises acousto-optic rejection equipment, a tripod head camera and a lifting fence, wherein the lifting fence is arranged on the iron tower, the acousto-optic rejection equipment is fixedly arranged on the lifting fence, and the tripod head camera is fixedly arranged on the iron tower.

The tower footing includes the switch board, is used for the UPS power of power supply and is used for the insulation can of heating, and the switch board is located the bottom of iron tower, and UPS power and insulation can are all installed in the switch board.

Preferably, the working platform comprises a mounting table and radar photoelectric integrated equipment, spectrum detection equipment, environment monitoring equipment and direct lightning protection equipment which are arranged on the mounting table.

Preferably, the power distribution cabinet comprises a cabinet body, and a junction box, a server case, a surge protector and a temperature control fan which are respectively arranged in the cabinet body.

Preferably, the iron tower comprises four support columns, the four support columns are connected through a plurality of steel pipes to form a quadrangular frustum pyramid, and each support column is fixedly connected with the power distribution cabinet through a foundation anchor bolt.

Preferably, a ladder is fixedly arranged on one side of the iron tower, and a circuit tube for introducing a signal wire and a power wire is also arranged on the iron tower.

Preferably, an intelligent controller which is respectively connected with the acousto-optic rejection device, the cradle head camera, the radar photoelectric integrated device, the spectrum detection device, the environment monitoring device and the direct lightning protection device is arranged in the server case.

Preferably, the top and bottom layers of the pylon are each provided with a fibre optic transceiver.

Preferably, the tower foundation further comprises lightning protection grounding equipment, and the lightning protection grounding equipment is connected with the direct lightning protection equipment through a lightning protection down-lead.

Preferably, the tower foundation further comprises a tower Zhou Anquan protective device positioned around the iron tower, and the tower Zhou Anquan protective device comprises an iron wire protective net, an electronic fence and a security camera arranged around the iron tower.

Compared with the prior art, the utility model has the beneficial effects that:

according to the device, the working platform is arranged on the top layer of the iron tower, the auxiliary platform is arranged on the middle layer of the iron tower, and the tower foundation is arranged on the bottom layer of the iron tower, so that the cooperative protection is realized on the protection area through the cooperation of the working platform, the middle layer and the auxiliary platform, the invasion is prevented, the problems that the protection on the protection area in the prior art is mainly passively defended by single means such as people's air defense, object's defense and the like, the threat situation of the prior art cannot be met by the protection means and the early warning capability are solved, and the three-dimensional monitoring alarm and treatment on the protection area are realized; meanwhile, the whole device has a simple structure and reduces the cost.

Drawings

FIG. 1 is a schematic structural view of a multi-equipment linkage alarm device based on an iron tower;

FIG. 2 is a schematic view of the structure of the auxiliary table of the present utility model;

FIG. 3 is a schematic structural view of a foundation of the present utility model;

FIG. 4 is a schematic view of the structure of the working platform of the present utility model;

fig. 5 is a schematic view of a part of the structure of the iron tower according to the present utility model.

Reference numerals illustrate: 1. iron tower; 11. a support column; 12. a ladder; 13. a line pipe; 2. an auxiliary table; 21. an acousto-optic rejection device; 22. a pan-tilt camera; 23. lifting the fence; 3. a tower foundation; 31. a power distribution cabinet; 311. a cabinet body; 312. a junction box; 313. a server chassis; 314. a surge protector; 315. a temperature-controlled fan; 32. a UPS power supply; 33. an insulation box; 4. a working platform; 41. a mounting table; 42. an optoelectronic integrated device; 43. a spectrum detection device; 44. an environmental monitoring device; 45. a direct lightning protection device.

Detailed Description

The following description of the technical solutions in the embodiments of the present application will be made clearly and completely with reference to the drawings in the embodiments of the present application, and it is apparent that the described embodiments are only some embodiments of the present application, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art without undue burden from the present disclosure, are within the scope of the present disclosure.

It will be understood that when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used herein in the description of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application.

As shown in fig. 1-5, a multi-equipment linkage alarm device based on iron tower, including setting up the work platform 4 at the top layer of iron tower 1, multi-equipment linkage alarm device based on iron tower still includes the auxiliary stand 2 that sets up at the iron tower 1 middle level and is located the tower foundation 3 in iron tower 1 bottom, wherein:

the auxiliary platform 2 comprises an acousto-optic rejection device 21, a cradle head camera 22 and a lifting fence 23, wherein the lifting fence 23 is arranged on the iron tower 1, the acousto-optic rejection device 21 is fixedly arranged on the lifting fence 23, and the cradle head camera 22 is fixedly arranged on the iron tower 1.

The tower footing 3 includes switch board 31, is used for UPS power 32 and the insulation can 33 that is used for the heating of power supply, and switch board 31 is located the bottom of iron tower 1, and UPS power 32 and insulation can 33 are all installed in switch board 31.

It should be noted that, the working platform 4 is a multi-device cooperative working platform of patent 2023202097631, and the details of the devices in the working platform 4 are not described herein in detail.

Specifically, the height of the lifting fence 23 is directly fixedly connected with a certain position of the iron tower 1 through a bolt according to requirements, and the acousto-optic rejection device 21 and the pan-tilt camera 22 are deployed according to actual conditions and used for tracking targets in an intrusion protection area and performing acousto-optic rejection. The power distribution cabinet 31 is elevated by more than or equal to 1 meter according to actual deployment requirements. A plurality of batteries (shown in figure 3) are also arranged in the power distribution cabinet 31, and the power distribution cabinet 31 is ensured to work normally for more than or equal to 2 hours after abnormal power failure through the batteries and the UPS 32. When the low temperature condition occurs, the insulation box 33 automatically opens and heats to ensure that the power distribution cabinet 31 works normally.

In one embodiment, the work platform 4 includes a mounting table 41 and a radar photo-electric integrated device 42, a spectrum sensing device 43, an environmental monitoring device 44, and a direct lightning protection device 45 disposed on the mounting table 41.

Specifically, the radar photoelectric integrated apparatus 42, the spectrum detection apparatus 43, the environment monitoring apparatus 44, and the direct lightning protection apparatus 45 are all mounted on the mounting table 41, and deicing or rain removal operation is performed by the photoelectric apparatus in the radar photoelectric integrated apparatus 42 when the environment monitoring apparatus 44 detects abnormal weather information. When the radar equipment in the radar photoelectric integrated equipment 42 finds a target and enters the early warning area, the photoelectric equipment in the radar photoelectric integrated equipment 42 is automatically guided to perform corresponding broadcast warning and strong and weak light striking to drive away the invasion target. The spectrum sensing device 43 is mainly used for monitoring and alarming electromagnetic wave signals of a protection area.

In one embodiment, the power distribution cabinet 31 includes a cabinet body 311, and a junction box 312, a server chassis 313, a surge protector 314, and a temperature controlled fan 315 mounted within the cabinet body 311, respectively.

Specifically, a shutter air port is arranged on the cabinet body 311, the temperature in the cabinet body 311 is regulated and controlled by the temperature control fan 315 and the shutter air port, and the heating of the incubator 33 enables the server cabinet 313 to continuously and stably run in a severe environment with the temperature of more than or equal to-40 ℃.

In one embodiment, the iron tower 1 comprises four support columns 11, the four support columns 11 are connected through a plurality of steel pipes to form a quadrangular frustum pyramid, and each support column 11 is fixedly connected with the power distribution cabinet 31 through a foundation anchor bolt.

Specifically, each support column 11 is fixedly connected with the power distribution cabinet 31 through a foundation bolt, so that the stability of the iron tower 1 is improved, and 12-level wind tower top shaking is less than or equal to 50mm. The iron tower 1 is fixedly connected with the mounting table 41 through bolts, gaskets and double hexagonal nuts, and meanwhile each supporting column 11 is matched with 2 auxiliary supporting steel frames to support the mounting table 41 in a triangular mode.

In one embodiment, a ladder 12 is fixedly installed on one side of the iron tower 1, and a line pipe 13 for introducing signal lines and power lines is also installed on the iron tower 1.

Specifically, the maintenance personnel can conveniently maintain the equipment on the iron tower 1 by arranging the ladder 12. The signal wire and the power wire are led in through the circuit tube 13, so that communication and power supply of all the devices in the auxiliary platform 2, the working platform 4 and the tower foundation 3 are realized.

In one embodiment, an intelligent controller is disposed in the server housing 313 and is connected to the acousto-optic rejection device 21, the pan-tilt camera 22, the radar photo-electric integrated device 42, the spectrum detection device 43, the environment monitoring device 44, and the direct lightning protection device 45, respectively.

Specifically, remote switching of the acousto-optic rejection device 21, the cradle head camera 22, the radar and photoelectric integrated device 42, the spectrum detection device 43, the environment monitoring device 44 and the direct lightning protection device 45 is realized through an intelligent controller.

In one embodiment, both the top and bottom layers of pylon 1 are fitted with fiber optic transceivers.

Specifically, the communication of lightning electromagnetic pulse and lightning wave damage devices is prevented by the optical fiber transceivers on the top layer and the bottom layer of the iron tower 1 and the surge protector 314 positioned in the cabinet body 311.

In one embodiment, the tower foundation 3 further comprises lightning grounding means, which are interconnected with the direct lightning protection means 45 by lightning down-conductor.

Specifically, lightning protection grounding equipment can be lightning protection grounding net, and lightning protection downlead is located the both sides of ladder 12 respectively, and the top layer of iron tower 1 lays down, is 40mm 4 mm's galvanized flat steel lightning protection downlead, through lightning protection grounding equipment and direct lightning protection equipment 45 interconnect, realizes the effect of lightning protection.

In one embodiment, the foundation 3 further includes a tower Zhou Anquan guard around the tower 1, and the tower Zhou Anquan guard includes a wire guard mesh, an electronic fence, and security cameras disposed around the tower 1.

Specifically, climbing and crossing are realized through iron wire protection network, electronic fence and security camera, and accurate warning of shearing.

According to the device, the working platform is arranged on the top layer of the iron tower, the auxiliary platform is arranged on the middle layer of the iron tower, and the tower foundation is arranged on the bottom layer of the iron tower, so that the cooperative protection is realized on the protection area through the cooperation of the working platform, the middle layer and the auxiliary platform, the invasion is prevented, the problems that the protection on the protection area in the prior art is mainly passively defended by single means such as people's air defense, object's defense and the like, the threat situation of the prior art cannot be met by the protection means and the early warning capability are solved, and the three-dimensional monitoring alarm and treatment on the protection area are realized; meanwhile, the whole device has a simple structure and reduces the cost.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The above-described embodiments are merely representative of the more specific and detailed embodiments described herein and are not to be construed as limiting the claims. It should be noted that it would be apparent to those skilled in the art that various modifications and improvements could be made without departing from the spirit of the present application, which would be within the scope of the present application. Accordingly, the scope of protection of the present application is to be determined by the claims appended hereto.

Claims (9)

1. Multi-equipment linkage alarm device based on iron tower, including work platform (4) at iron tower (1) top layer, its characterized in that: multi-equipment linkage alarm device based on iron tower still includes auxiliary stand (2) and the tower footing (3) that are located in iron tower (1) bottom of setting up in iron tower (1) middle level, wherein:

the auxiliary table (2) comprises an acousto-optic rejection device (21), a cradle head camera (22) and a lifting fence (23), wherein the lifting fence (23) is arranged on the iron tower (1), the acousto-optic rejection device (21) is fixedly arranged on the lifting fence (23), and the cradle head camera (22) is fixedly arranged on the iron tower (1);

the tower footing (3) includes switch board (31), is used for UPS power (32) and is used for the insulation can (33) of heating of power supply, switch board (31) are located the bottom of iron tower (1), UPS power (32) and insulation can (33) are all installed in switch board (31).

2. The iron tower based multi-equipment linkage alarm device of claim 1, wherein: the working platform (4) comprises a mounting table (41), and radar photoelectric integrated equipment (42), spectrum detection equipment (43), environment monitoring equipment (44) and direct lightning protection equipment (45) which are arranged on the mounting table (41).

3. The iron tower based multi-equipment linkage alarm device of claim 2, wherein: the power distribution cabinet (31) comprises a cabinet body (311), a junction box (312), a server case (313), a surge protector (314) and a temperature control fan (315) which are respectively arranged in the cabinet body (311).

4. The iron tower based multi-equipment linkage alarm device of claim 1, wherein: the iron tower (1) comprises four support columns (11), the four support columns (11) are connected through a plurality of steel pipes to form a quadrangular frustum pyramid, and each support column (11) is fixedly connected with a power distribution cabinet (31) through a foundation anchor bolt.

5. The iron tower based multi-equipment linkage alarm device of claim 1, wherein: one side of the iron tower (1) is fixedly provided with a ladder (12), and the iron tower (1) is also provided with a circuit tube (13) for introducing signal wires and power wires.

6. A tower based multi-equipment linked alarm apparatus as defined in claim 3, wherein: an intelligent controller which is respectively connected with the acousto-optic rejection device (21), the cradle head camera (22), the electric radar photoelectric integrated device (42), the frequency spectrum detection device (43), the environment monitoring device (44) and the direct lightning protection device (45) is arranged in the server case (313).

7. The iron tower based multi-equipment linkage alarm device of claim 1, wherein: optical fiber transceivers are arranged on the top layer and the bottom layer of the iron tower (1).

8. The iron tower based multi-equipment linkage alarm device of claim 2, wherein: the tower foundation (3) further comprises lightning protection grounding equipment, and the lightning protection grounding equipment is connected with the direct lightning protection equipment (45) through lightning protection downlead.

9. The iron tower based multi-equipment linkage alarm device of claim 1, wherein: the tower foundation (3) further comprises tower Zhou Anquan protection equipment positioned around the iron tower (1), and the tower Zhou Anquan protection equipment comprises an iron wire protection net, an electronic fence and a security camera which are arranged around the iron tower (1).

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