BR102019025834A2 - mini underground shelter - Google Patents

Abstract

It is a metal box to house switching and transmission equipment for telecommunications, and other equipment with physical layout for sealing, locking, drainage, ventilation and hermetic connection systems with power cables, optical fiber and radio frequency cables and underground it has a metal box (11), supported on a base (12) and anchored in the upper vertices and the inside of the box (11) contains the Rack (1) of the switching and transmission equipment arranged in rulers with channels (2); and contains the internal passage box (3) for passage of the Rack signal transmission cables (1); and the side walls of the passage box (3) have inlet (4) and exit (5) holes for the cables, and the passage box (3) has an open bottom formed by gravel; and has battery bank (7); and it has an electrical panel (6) and equipment for the ventilation and filtering system (9) of the cooling air in the metal box (11); and the metal box (11) has two overlapping covers, and the mini-shelter has the air intake tower (22) and the air discharge tower (23); and it has an electrical panel, and it has a rack for fixing equipment; and the equipment is mounted with the byface facing upwards; and has space for installing battery banks (7); and it has an emergency pump, with an automatic float.

Description

MINI UNDERGROUND SHELTER

[001] It is a Mini Underground Shelter to house switching and transmission equipment for telecommunications, traffic control equipment, power systems, batteries, shelter for weapons and ammunition, food, as well as other segments, and is characterized by its provision physics of the sealing systems, locking, drainage, ventilation and hermetic connection with power cables, optical fiber and radio frequency cables, fixing in the basement and the respective equipment inside the Mini Shelter.

[002] The shelters were initially developed to meet the needs of telecommunications companies. Initially, the lockers were installed on public roads with the purpose of housing telecommunications, telephone, internet and television equipment. Installation on public roads has generated mobility problems, visual pollution and noise due to the refrigeration system. Also, due to frequent robberies and vandalism, the solution found was to place these shelters underground. This innovative idea required sealing systems, drainage, ventilation, opening, fixing in the basement and adaptations in the arrangement of equipment inside the shelter.

[003] In the current state of the art, several solutions have been published and can be seen in the patent documents, referenced below:

[004] The patent document MU 8900761-1 - Underground System for Accommodation of Telecommunications or Power Cabin describes an underground system for accommodation of telecommunications or power cabin. This system consists of a compartment that was developed to be deployed with a concrete pit underground, with the function of accommodating and protecting against flooding, dust, extreme temperatures, and even vandalism, the most diverse types of cabins, which before were positioned above the ground. The compartment is fully sealed and consists of a ventilation system by fans and towers that keep the internal temperature at recommended levels, and a scissor-type lifting platform, which is manually activated when there is a need to raise or lower the cabin .

[005] Patent document US2009072685 - Flush To Grade Underground Cabinet presents an underground cabinet that uses air, collected by towers that are above the ground, to cool the interior.

[006] Patent document RU2647669 - Underground Base Station And Automatic Control System Of The State Of Underground Base Station describes an underground data center, within which the equipment is located, an automatic control system for the environmental conditions of the underground data center , and outside - a communication support device that connects to equipment located in the underground data center via communication lines.

[007] Patent document BR 20 2014 002452 8 - Underground Cabinet with Lifting System for Telecommunications and Energy Racks describes an underground compartment for the accommodation of equipment, more specifically to an underground cabinet with lifting system for telecommunications and racks energy, which was designed to house underground, automation equipment, infrastructure, batteries and uninterrupted power supply for data processing, telecommunications, landline or mobile telephony products of all existing technologies (GSM, 3G , 4G, etc...). The model being equipped with a box (cabinet) with structural reinforcements; a rectangular cover, with the inspection cover and a lower channel, for the three sealing barriers or rubbers of the sealing system; a lifting system with a rectangular platform, driven by spindles and a chain rotated by an electric motor, arranged in two lateral towers; two metal racks with standard ETSI 23", 21" and 19" ruler for installing the equipment, and a compartment for installing and protecting the batteries; and the exhaust system, with absolute filters, fans and ducts

[008] The patent document MU 7700582-1 - Underground Container for Telecommunications describes UNDERGROUND CONTAINER FOR TELECOMMUNICATIONS characterized by presenting variable shapes, materials and manufacturing processes, configuring a container that serves to shelter equipment, accessories and facilities in the telecommunications area in general, and which contains its entire structure buried, leaving only ducts and an articulated hermetic door in contact with the environment. Installed in squares, gardens, public places and others, it does not compromise the environment and reduces air conditioning, land use and surveillance costs.

[009] Patent document US2005130621 - Flood evacuation system for subterranean telecommunications vault describes an underground shelter for electronic equipment, such as instrumentation for telecommunication antenna systems, with a flood evacuation system that prevents the equipment from being submerged in water.

[0010] Patent document BR 20 2013 032856 7 - HERMETIC AND UNDERGROUND COMPARTMENT FOR OUTDOOR CABINET, the present model refers to the technical field of underground accommodation for cabinets and their equipment, more specifically to a hermetic and underground compartment for outdoor cabinet , which consists of a sealed compartment, positioned below ground level, whose purpose is to allow the installation of outdoor cabinets inside. In this compartment, drainage, sealing, elevation, cooling and cable accommodation systems are installed, which allows the use of outdoor cabinets for multiple applications, such as panels for electrical energy distribution, general distributors of telephone cables and equipment. switching and transmission for telecommunications.

[0011] The Mini Underground Shelter, revealed in this report, identified a plurality of improvements to the existing shelters. It is characterized by the constructive disposition that comprises the shelter made with a metal box, anchored at the vertices against buoyant force. The shelter has two overlapping covers; the first opens with an external, hinged rotating handle; the second cover is opened after opening the first, by means of an internal closure. The shelter does not have an elevation system, unlike other underground shelters contained in the current technical state. The passage box is internal and embedded in one of the corners of the shelter, in order to optimize the deployment space. The bottom of the junction box is cast with gravel for natural drainage. The shelter has an absolute filter and two fans in the configuration (1+1), one operating and the other reserve. In order to exchange the air, it has two ventilation towers installed, one for air intake and the other for exhaustion. The shelter has an electrical panel that can be placed inside an overlapping box arranged horizontally, or of the drawer type, or even fixed on the inner side wall. It has a rack for installation of equipment with availability for fixing equipment. The equipment is mounted with a bayface facing up. It has space for installing battery banks. It has an emergency pump, with automatic float, with hydraulic interconnection to the junction box.

[0012] The Mini Shelter has a device coupled to the air intake to restrict the entry of water. It has towers at the ends of the air intake and discharge ducts from the mechanical ventilation heat exchange system. The air intake and discharge towers are subject to water ingress, as it has an air flow into the intake duct that drags water particles into the system. This is intensified in the presence of a side wind that, when crossing the tower sideways, carries a large amount of water into the system.

[0013] For a better understanding of the Mini Underground Shelter, figures are presented with indications of the components of interest.

[0014] Figure 1 is a perspective of the Mini Shelter without a cover.

[0015] Figure 2 is a front view, in section, of the metal box (11) and shows the cover (20) and the intake duct (8) of air coming from the intake tower (22).

[0016] Figure 3 is a top view of the metal box (11) open and shows the physical arrangement of the equipment inside and the two towers, intake (22) and discharge (23), of the cooling air.

[0017] Figure 4 is a perspective view of the intake tower (22),

[0018] Figure 5 is an external view, in perspective, of the Mini Shelter with cover.

[0019] Figure 1 shows the metal box (11), supported on a base (12) and anchored at the upper vertices by tie rods (13) embedded in the ground. Each of the four upper vertices of the metallic box (11) has an eye (14) for lifting the metallic box (11).

[0020] The equipment contained within the box (11) were grouped and arranged in four areas. As shown in Figure 1, the first area (31), located in the upper left quadrant, contains the Rack (1) for switching and transmission equipment arranged in strips with channels (2). The second area (32), located in the lower left quadrant, contains the passage box (3) of the Rack signal transmission cables (1), which is inside the same volume occupied by the Mini Shelter. The outer side walls of the box (11) and the junction box (3) have holes for input (4) and output (5) of the cables. The passage box (3) has an open bottom formed by gravel to drain the eventually accumulated water. The internal walls of the junction box, which give access to the part protected against water ingress, have elements for safe cable passage, such as cable glands, among others, preventing water from entering through the cables into the shelter. The second area also has an internal emergency pump, with an automatic float and hydraulic connection to the junction box, to drain the water that eventually enters the Mini Shelter. The third area (33), located in the upper right quadrant, has the battery bank (7), whose batteries can be supported on trays, or also fixed on rack rulers. The fourth area (34), located in the lower right quadrant, has the electrical panel (6) and the equipment for the ventilation and filtering system (9) of the box's cooling air. The ventilation system is complemented by cold air intake ducts (8) and discharge ducts (10). The box (11) and the equipment are grounded (16). The box (11) also has covers with eccentric locking devices that compress the covers against the rubber profile of the edge of the box, when closing, creating a pressure that guarantees the desired tightness.

[0021] Figure 2 and 3 show the ventilation system complemented by the intake ducts (8) of cold air that comes from an intake tower (22) and discharge (10) of hot air that is blown to the tower. discharge (23). The physical arrangement of the equipment inside the box (11) allows a high-efficiency air flow (17, 18 and 19) with a reduction in the size and power of the refrigeration system. Questions sought in the project of underground shelters.

[0022] Figure 4 shows how the Mini Underground Shelter, revealed in this report, restricts the entry of rainwater in the intake tower (22) and in the discharge tower (23) of the air from the heat exchange system by mechanical ventilation . The intake tower (22), which makes the air intake, is subject to water ingress, as it has an air flow into the intake duct (8) that drags water particles into the system. This is intensified in the presence of a side wind that, when crossing the tower, carries a large amount of air into the system.

• a) As venezianas (24), na face externa da torre de admissão (22), faz com que grande parte da água que incide lateralmente é direcionada para fora, contudo quando exposta a chuva intensa, esta solução não é suficiente;
• b) As aletas das venezianas (24). Para que a água que ainda penetra na veneziana (24) não ingresse no sistema, as venezianas inferiores possuem aletas que constituem um coletor interno em forma de calha que recebe esta água e a conduz para fora pela abertura da última aleta das venezianas, reduzindo esta parcela de água. Contudo na presença de ventos laterais do fluxo de ar através das venezianas ainda carrega grande quantidade de água para dentro do sistema.
• c) Um sistema de anteparas (25) cruzadas isola cada quadrante não permitindo o fluxo cruzado, eliminando assim a última parcela de água, deixando o sistema praticamente estanque. As anteparas (25) dividem o duto de admissão (8) em mais de um duto. Cada um com entrada e fluxo de ar independente.
• d) Para completar a otimização do sistema de captação e descarga do ar, um sistema escalonado (26) divide o fluxo de ar em partes e o descarrega uniformemente pela altura da veneziana reduzindo grandemente a perda de carga do sistema, pela equalização do fluxo de ar. O sistema escalonado (26) é constituído por chapas de alturas diferentes que criam dutos com geometrias desejadas para garantir a distribuição uniforme de ar, nas venezianas.
• e) Tela contra insetos (vespas e abelhas). Por entre as venezianas (24) e o sistema de anteparas (25) e sistema escalonado (26), é instalado, em todas as faces, uma tela (27) para não permitir a entrada de insetos como vespas e abelhas, que possam criar colmeias para dentro dos dutos e da caixa (11).

[0023] As a solution, devices were adopted that together add the desired protection. The devices that had their constructive provisions adapted to obtain the desired technical effect were:

• a) The shutters (24), on the external face of the intake tower (22), make that much of the water that falls on the side is directed outwards, however when exposed to heavy rain, this solution is not enough;
• b) The flaps of the shutters (24). So that the water that still penetrates the shutter (24) does not enter the system, the lower shutters have fins that constitute an internal gutter-shaped collector that receives this water and leads it out through the opening of the last shutter of the shutters, reducing this portion of water. However in the presence of side winds the airflow through the louvers still carries large amounts of water into the system.
• c) A system of bulkheads (25) crossed isolates each quadrant, not allowing cross flow, thus eliminating the last portion of water, leaving the system practically watertight. The bulkheads (25) divide the intake duct (8) into more than one duct. Each with independent inlet and airflow.
• d) To complete the optimization of the air intake and discharge system, a staggered system (26) divides the air flow into parts and discharges it evenly through the height of the shutter, greatly reducing the head loss of the system, by equalizing the air flow. air. The staggered system (26) consists of sheets of different heights that create ducts with desired geometries to ensure uniform air distribution in the shutters.
• e) Screen against insects (waps and bees). Between the shutters (24) and the bulkhead system (25) and the staggered system (26), a screen (27) is installed on all sides to prevent the entry of insects such as wasps and bees, which may create hives into the ducts and the box (11).

[0024] The devices that together provide a mechanical ventilation with lower power and higher flow, making the entire system more efficient.

[0025] Figure 5 shows the two overlapping covers, the first opening with an external handle embedded in a compartment in the cover to house the security lock, and the second cover is opened after opening the first, by means of of an internal closure. The covers have sealing rubber around their entire perimeter and the cover locks have a mechanism that tightens the perimeter rubber against the metal frame of the box.

Claims (9)

MINI UNDERGROUND SHELTER is a metal box to house switching and transmission equipment for telecommunications, traffic control equipment, power systems, batteries, shelter for weapons and ammunition, food, as well as other segments with physical layout for sealing systems, locking , drainage, ventilation and hermetic connection with power cables, optical fiber and radio frequency cables, underground fixation and the respective equipment inside the mini-shelter, characterized by the metallic box (11), being supported on a base (12) and anchored at the upper vertices by tie rods (13) nailed into the ground and each of the four upper vertices of the metal box (11) has an eye (14); and the inside of the box (11) is grouped and arranged in four areas, the first area (31), located in the upper left quadrant, containing the Rack (1) of the switching and transmission equipment arranged in rulers with channels (2) ; the second area (32), located in the lower left quadrant, contains an emergency pump with automatic float and passage box (3) internal and embedded in one of the corners of the shelter for passage of the Rack signal transmission cables (1); and the side walls of the passage box (3) have inlet (4) and exit (5) holes for the cables, and the passage box (3) has an open bottom formed by gravel; and the third area (33), located in the upper right quadrant, has a battery bank (7); and the fourth area (34), located in the lower right quadrant, has an electrical panel (6) and the equipment for the ventilation and filtering system (9) of the cooling air of the metal box (11); and the metal box (11) and the equipment have a ground (16); and the metal box (11) has two overlapping lids, the first opening with an external handle, and the second lid being opened after opening the first, by means of an internal closure; and the mini-shelter has an absolute filter and two fans; and for having the air intake tower (22) and the air discharge tower (23); and because it has an electrical panel to be arranged inside a overlapping box arranged horizontally, and because it has a rack with availability for fixing equipment; and the equipment must be mounted with the byface facing upwards; and for having space for installing battery banks (7). MINI UNDERGROUND SHELTER, according to claim 1, characterized in that the admission tower (22) has shutters (24) on the external face of the admission tower (22), and the shutters have fins that constitute an internal gutter-shaped collector . MINI UNDERGROUND SHELTER, according to claim 1, characterized in that the intake tower (22) has a system of crossed bulkheads (25) that divide the intake duct (8) into more than one duct. MINI UNDERGROUND SHELTER, according to claims 1 and 3, characterized in that the intake tower (22) has a stepped system (26) consisting of plates of different height positioned in the ducts that form the intake duct (22). MINI UNDERGROUND SHELTER, according to claim 1, characterized in that the electrical panel is arranged drawer type. MINI UNDERGROUND SHELTER, according to claim 1, characterized in that the electrical panel is fixed to the inner side wall of the metal box (11). MINI UNDERGROUND SHELTER, according to claim 1, characterized in that the battery bank (7) has the batteries supported on trays. MINI UNDERGROUND SHELTER, according to claim 1, characterized in that the battery bank (7) has the batteries supported on rack rulers. MINI UNDERGROUND SHELTER, according to claim 1, characterized by the process of containing the entry of water into the intake tower (22), comprising:

• a) Shutters (24), on the external face of the intake tower (22);
• b) Lower louvers (24) with fins that constitute an internal gutter-shaped collector;
• c) Crossed bulkhead system (25) that isolates each quadrant and divides the intake duct (8) into more than one duct, and each duct with independent air inlet and flow;
• d) Staggered system (26) consisting of plates of different heights and dividing the air flow into parts;
• e) Screen against insects (waps and bees) between the shutters (24) and the bulkhead system (25) and the stepped system (26).

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