WO2019190458A1 - Systèmes et procédés de protection contre la foudre - Google Patents
Systèmes et procédés de protection contre la foudre Download PDFInfo
- Publication number
- WO2019190458A1 WO2019190458A1 PCT/US2018/024331 US2018024331W WO2019190458A1 WO 2019190458 A1 WO2019190458 A1 WO 2019190458A1 US 2018024331 W US2018024331 W US 2018024331W WO 2019190458 A1 WO2019190458 A1 WO 2019190458A1
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- WO
- WIPO (PCT)
- Prior art keywords
- mast
- assembly
- lightning protection
- base
- section
- Prior art date
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Classifications
-
- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02G—INSTALLATION OF ELECTRIC CABLES OR LINES, OR OF COMBINED OPTICAL AND ELECTRIC CABLES OR LINES
- H02G13/00—Installations of lightning conductors; Fastening thereof to supporting structure
-
- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04H—BUILDINGS OR LIKE STRUCTURES FOR PARTICULAR PURPOSES; SWIMMING OR SPLASH BATHS OR POOLS; MASTS; FENCING; TENTS OR CANOPIES, IN GENERAL
- E04H12/00—Towers; Masts or poles; Chimney stacks; Water-towers; Methods of erecting such structures
- E04H12/20—Side-supporting means therefor, e.g. using guy ropes or struts
-
- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04H—BUILDINGS OR LIKE STRUCTURES FOR PARTICULAR PURPOSES; SWIMMING OR SPLASH BATHS OR POOLS; MASTS; FENCING; TENTS OR CANOPIES, IN GENERAL
- E04H12/00—Towers; Masts or poles; Chimney stacks; Water-towers; Methods of erecting such structures
- E04H12/22—Sockets or holders for poles or posts
- E04H12/2238—Sockets or holders for poles or posts to be placed on the ground
Definitions
- the presently disclosed subject matter relates generally to systems and methods for providing lightning protection, and more particularly to portable lightning protection systems and methods of deploying same.
- Lightning terminals or“lightning rods” are commonly attached to numerous structures such as buildings, cell towers, drilling rigs, and tanks. Generally, these terminals are attached to the highest part of the structure and grounded. Lightning will strike the terminal instead of the structure and follows the least path of resistance to the ground.
- assets include, for example, portable buildings, airfields, aircraft, ground vehicles, pumping stations, fuel depots, emergency and military command posts, solar cell installations, satellite dish installations, environmental monitoring facilities, etc.
- a lightning protection system that can be quickly and easily installed adjacent to such assets to provide protection from lightning strikes.
- the disclosed subject matter provides a lightning protection system.
- the lightning protection system may include a multi-section conductive mast assembly including at least a base mast section and a top mast section; an air terminal attachable to the top mast section; and a base assembly attachable to the base mast section via a hinge assembly, wherein the hinge assembly is configured to allow the base mast section to hinge relative to the base assembly.
- the base assembly may include a plurality of radially extending inner horizontal beams having inner ends attachable to the hinge assembly and a plurality of inclined beams having inner ends attachable to the base mast section and outer ends attachable to the radially extending horizontal beams.
- the base assembly may further include a plurality of outer horizontal beams attachable to outer ends of the radially extending inner horizontal beams.
- the lightning protection system may further include at least one grounding cable to ground the multi-section conductive mast assembly.
- the system may further include at least one ground rod to ground the at least one grounding cable to earth.
- the hinge assembly may include a top horizontal plate and a bottom horizontal plate hingedly connected on at least one side thereof.
- the top horizontal plate and bottom horizontal plate may be hingedly connected on two opposing sides thereof.
- the base mast section may include a plurality of radially extending, axially aligned ribs.
- the inner ends of the plurality of inclined beams may be attachable to the base mast section ribs.
- a top horizontal plate of the hinge assembly may include an upper surface and attachment plates extending upward from the top horizontal plate upper surface for attachment to the base mast section ribs.
- the system may further include at least one intermediate mast section disposed between the base mast section and the top mast section.
- the top horizontal plate and bottom horizontal plate may be secured together in a non-hinged state via one or more cam lever fasteners, wherein one of the top horizontal plate and bottom horizontal plate comprises a captive cam lever fastener and the other of the top horizontal plate and bottom horizontal plate comprises a corresponding slot for the cam lever fastener to engage.
- Sections of the multi-section conductive mast may be joined by a threaded coupling.
- the inner ends of the plurality of radially extending inner horizontal beams may be attachable to the hinge assembly via insertion into corresponding slots thereon and may be secured in place via a quick connect/disconnect mechanism, and wherein the inner ends of the plurality of inclined beams may be attachable to the base mast section and the outer horizontal beams may be attachable to outer ends of the radially extending inner horizontal beams via quick connect/disconnect mechanisms.
- the quick connect/disconnect mechanism for securing the inner ends of the plurality of radially extending horizontal beams within the corresponding slots of the hinge assembly may include a removable pin, and wherein the quick connect/disconnect mechanism for attaching the inner ends of the plurality of inclined beams to the base mast section and for attaching the outer horizontal beams to outer ends of the radially extending inner horizontal beams may include a cam lever fastener.
- the disclosed subject matter provides a method of deploying a lightning protection system.
- the method may include providing a lightning protection system, wherein the lightning protection system may include a multi-section conductive mast assembly including at least a base mast section and a top mast section; an air terminal attachable to the top mast section; and a base assembly attachable to the base mast section via a hinge assembly, wherein the hinge assembly is configured to allow the base mast section to hinge relative to the base assembly.
- the method may further include assembling the base assembly and multi-section conductive mast assembly; connecting the base mast section to the base assembly via the hinge assembly; positioning the base assembly to a desired location and securing in position; grounding the lightning protection system; and placing and securing the multi-section conductive mast assembly in an upright position using the hinge assembly.
- the disclosed subject matter provides a catenary lightning protection system.
- the system may include at least two lightning protection systems, each lightning protection system may include: a multi-section conductive mast assembly comprising at least a base mast section and a top mast section; an air terminal attachable to the top mast section; and a base assembly attachable to the base mast section.
- the system may further include a catenary wire connected between the at least two lightning protection systems.
- the base assembly may be attachable to the base mast section via a hinge assembly, wherein the hinge assembly may be configured to allow the base mast section to hinge relative to the base assembly.
- the disclosed subject matter provides a method of deploying a catenary lightning protection system.
- the method may include providing at least two lightning protection systems, each lightning protection system may include a multi-section conductive mast assembly comprising at least a base mast section and a top mast section; an air terminal attachable to the top mast section; a base assembly attachable to the base mast section; and a catenary wire connected between the at least two lightning protection systems.
- the method may further include assembling the at least two lightning protection systems; positioning the at least two lightning protection systems a certain distance apart and securing in position; grounding the at least two lightning protection systems; and installing a catenary wire between the at least two lightning protection systems.
- the base assembly may be attachable to the base mast section via a hinge assembly, wherein the hinge assembly may be configured to allow the base mast section to hinge relative to the base assembly.
- the disclosed subject matter provides a lightning isolation support arm assembly.
- the support arm assembly may include mast base adapter; and one or more support arms attached to the mast base adapter.
- One or both of the mast base adapter and one or more support arms may be made of hollow piping.
- the mast base adapter may be configured to be attached between adjacent mast sections of a mast assembly.
- the mast base adapter may be configured to be attached to a mast section of a mast assembly.
- the one or more support arms may include an accessory unit attachment point configured to attach an accessory unit, such as an antenna, sensor, camera, or any other suitable accessory/device thereto.
- the accessory unit attachment point may be disposed substantial at an upper most portion of the one or more support arms.
- the one or more support arms may include a wire/cable port formed therein.
- the wire/cable port may be formed in a sidewall of an upper portion of the one or more support arms.
- the support arms may be attached at a lower end portion thereof to a sidewall portion of the mast base adapter.
- the mast base adapter may further include one or more mating holes, wherein the one or more mating holes may be aligned with the lower end portions of the one or more support arms when attached thereto, and may be configured to form a passage between an internal hollow portion of the one or more support arms and an internal hollow portion of the mast base adapter.
- the one or more mating holes when mated with the lower end portions of the one or more support arms, may be configured to form a passage between an internal hollow portion of the one or more support arms and an internal hollow portion of the mast base adapter.
- the one or more support arms may extend out a distance horizontally from mast base adapter and then curve upward in a generally vertical direction.
- the one or more support arms may be a generally L-shape.
- the generally vertical sections of the one or more support arms may be a generally coil shape.
- the generally vertical sections of the one or more support arms may include one or more coil turns.
- the disclosed subject matter provides a lightning protection system.
- the lightning protection system may include a multi-section conductive mast assembly comprising at least a base mast section and a top mast section; an air terminal attachable to the top mast section; a base assembly attachable to the base mast section via a hinge assembly, wherein the hinge assembly is configured to allow the base mast section to hinge relative to the base assembly; and a support arm assembly attached to the mast assembly.
- the support arm assembly may include a mast base adapter; and one or more support arms attached to the mast base adapter.
- the disclosed subject matter provides a method of deploying a lightning protection system.
- the method may include providing a lightning protection system.
- the lightning protection system may include a multi-section conductive mast assembly including at least a base mast section and a top mast section; an air terminal attachable to the top mast section; a base assembly attachable to the base mast section via a hinge assembly, wherein the hinge assembly may be configured to allow the base mast section to hinge relative to the base assembly; and a support arm assembly attachable to the mast assembly.
- the support arm assembly may include a mast base adapter; and one or more support arms attached to the mast base adapter.
- the method may further include assembling the base assembly; assembling the multi-section conductive mast assembly; attaching the support arm assembly; connecting the base mast section to the base assembly via the hinge assembly; positioning the base assembly to a desired location and securing in position; grounding the lightning protection system; and placing and securing the multi-section conductive mast assembly in an upright position using the hinge assembly.
- the disclosed subject matter provides a catenary lightning protection system.
- the catenary lightning protection system may include at least two lightning protection systems.
- Each lightning protection system may include a multi-section conductive mast assembly comprising at least a base mast section and a top mast section; an air terminal attachable to the top mast section; and a base assembly attachable to the base mast section.
- the catenary lightning protection system may further include a catenary wire connected between the at least two lightning protection systems; and one or more support arm assemblies attached to the mast assembly of one or more of the at least two lightning protection systems.
- the support arm assembly may include a mast base adapter; and one or more support arms attached to the mast base adapter.
- the disclosed subject matter provides a method of deploying a catenary lightning protection system.
- the method may include providing at least two lightning protection systems.
- Each lightning protection system may include a multi-section conductive mast assembly comprising at least a base mast section and a top mast section; an air terminal attachable to the top mast section; a base assembly attachable to the base mast section; a catenary wire connected between the at least two lightning protection systems; and one or more support arm assemblies attachable to the mast assembly of one or more of the at least two lightning protection systems.
- the support arm assembly may include a mast base adapter; and one or more support arms attached to the mast base adapter.
- the method may further include assembling the at least two lightning protection systems; positioning the at least two lightning protection systems a certain distance apart and securing in position; grounding the at least two lightning protection systems; and installing a catenary wire between the at least two lightning protection systems.
- FIG. 1 illustrates a modular lightning protection system when fully deployed in an upright position in accordance with an embodiment of the invention
- FIG. 2 illustrates an example of an air terminal of the modular lightning protection system
- FIG. 3 illustrates the modular lightning protection system in a folded over configuration in accordance with an embodiment of the invention
- FIG. 4 illustrates an example of a cam lever fastener, several of which are used for assembling/disassembling the modular lightning protection system without the use of tools;
- FIG. 5 through FIG. 9 illustrates an example of a base assembly and a hinge assembly of the modular lightning protection system
- FIG. 10 illustrates an example of a ground rod of the modular lightning protection system
- FIG. 11 through FIG. 13 illustrates details of a comer portion of the base assembly of the modular lightning protection system
- FIG. 14 illustrates an example of guy wires of the modular lightning protection system prior to be deployed in an upright position
- FIG. 15 and FIG. 16 illustrate examples of installing the guy wires of the modular lightning protection system
- FIG. l7and FIG. 18 illustrates an example of a wheeled caster of the modular lightning protection system
- FIG. 19 illustrates an example of a handcart to facilitate movement and placement of the modular lightning protection system
- FIG. 20 and FIG. 21 illustrate examples of using the handcart to install the wheeled caster with respect to the base assembly of the modular lightning protection system
- FIG. 22 and FIG. 23 illustrate examples of using the handcart to cradle a mast assembly of the modular lightning protection system
- FIG. 24 illustrates an example carry case of the disclosed modular lightning protection system
- FIG. 25 illustrates an example of the inside of the carry case of the modular lightning protection system
- FIG. 26 illustrates a graphical plot of a zone of protection of the modular lightning protection system based on height
- FIG. 27 illustrates a flow diagram of an example method of deploying the modular lightning protection system in accordance with an embodiment of the invention
- FIG. 28 illustrates a side view of a catenary lightning protection system comprising at least two lightning protection systems connected by a catenary wire in accordance with an embodiment of the invention
- FIG. 29 illustrates another view of the catenary lightning protection system comprising at least two lightning protection systems connected by a catenary wire;
- FIG. 30 illustrates another view of the catenary lightning protection system comprising at least two lightning protection systems connected by a catenary wire in accordance with another embodiment of the invention
- FIG. 31 illustrates another view of the catenary lightning protection system comprising at least two lightning protection systems connected by a catenary wire in accordance with yet another embodiment of the invention
- FIG. 32 illustrates a portion of the catenary lightning protection system and catenary wire in accordance with an embodiment of the invention
- FIG. 33A and FIG. 33B illustrate example schematic diagrams of the catenary lightning protection system showing, an exemplary protection zone thereof with and without the catenary wire, respectively in accordance with an embodiment of the invention
- FIG. 34 illustrates a method of deploying the catenary lightning protection system in accordance with an embodiment of the invention
- FIG. 35 illustrates an example of a lightning isolation support arm assembly in accordance with an embodiment of the invention.
- FIG. 36 illustrates another example of a lightning isolation support arm assembly in accordance with an embodiment of the invention.
- the presently disclosed subject matter provides a modular lightning protection system comprising a modular mobile platform and method of deploying same.
- the lightning protection system is a modular, stand- alone, fully integrated, portable lightning protection system, which may be in kit form for rapid assembly and deployment, as well as for longer term applications for a wide spectrum of special protection needs.
- the lightning protection system is preferably designed for quick installation as a reusable, modular mobile platform for easy assembly and movement in the desired operational area.
- the lightning protection system may include a lightweight, rugged aluminum alloy mast, a mobility-enabled base assembly, customer specified grounding attachment components, and a UL-listed air terminal.
- the lightning mast components are preferably modular and short enough in length for easy stowing, for example, in a hard carry case.
- the presently disclosed subject matter provides a lightning protection system comprising at least two, preferably portable, lightning protection systems connected by a catenary wire and method of deploying same. Namely, in such a lightning protection system, the two lightning protection systems connected by a catenary wire have a combined lightning protection zone that is larger than the combined lightning protection zones of two lightning protection systems absent the catenary wire.
- the presence of the catenary wire connecting the two lightning protection masts serves to provide a substantially continuous and expanded lightning protection zone as compared with the two separate lightning protection zones of two lightning protection systems absent the catenary wire.
- the base assembly may incorporate water-ballast“bricks” for ballast.
- a carry case such as a soft carry case, may be provided for storage and transport of the (empty) water bricks.
- any suitable weighted device such as sand bags, blocks, weights, and the like, may be used in place of, or in conjunction with, the water bricks.
- the base assembly may be suitable for non-penetrating application on hard surfaces, rooftops, and/or other critical or non-penetrable surfaces.
- the lightning protection system is preferably capable to withstand wind gust loads equivalent to about 120 mph (193.1 kph), and potentially greater. Further, all system components are preferably corrosion resistant and suitable for indefinite deployment periods in sea coast and/or other challenging environments.
- the function of the lightning protection system is to provide a highly conductive, portable, and easily deployed structure to deter and terminate lighting strikes that may threaten assets and personnel under its cone of protection.
- the lightning protection system may further include air terminal static discharge technology to reduce the probability of lightning strikes, and serves as an air terminal for lightning strike termination when required, for example as a UL Listed air terminal.
- Static discharge technology lowers the exposure to a direct lightning strike by controlling the conditions that trigger direct strike (i.e., reduces the build-up of static ground charge and retards the formation of the ion“streamers” that complete the path for a lightning strike).
- the lightning protection system employs the point-discharge principle to continually leak off the lightning-causing ground potential over a long period of time instead of the short duration, powerful discharge occurring with a lightning strike.
- lightning protection system An example of one specific use of lightning protection system is a military airfield where there are a number of multi-million dollar aircraft sitting on an open tarmac and out in the open and susceptible to lightning strikes.
- the presently disclosed modular lightning protection system can be used in any number of civilian and/or military applications.
- FIG. 1 illustrates an example of a modular lightning protection system 100 in accordance with an embodiment of the invention in a fully deployed position.
- the modular lightning protection system 100 includes a base assembly 110 that supports a base mast section 118.
- Base mast section 118 is the lower most mast section of mast assembly 130.
- Mast assembly 130 is hingeably coupled to base assembly 110 at a bottom of base mast section 118 via a hinge assembly 120.
- the mast assembly 130 includes a plurality of mast sections 132 that are coupled end-to-end.
- the mast sections 132 are coupled end-to-end via threaded couplers (not shown).
- the mast sections 132 may be coupled together via any suitable mechanism and/or technique.
- the cross-sectional diameter of the mast assembly 130 may vary from larger to smaller from bottom to top. Accordingly, there may be a certain order of the mast sections 132.
- the base mast section 118 and the mast sections 132 of the mast assembly 130 may be formed, for example, of lightweight, rugged, aluminum alloy, or other suitable material.
- an air terminal 134 may be installed at the uppermost end of the mast assembly 130.
- the air terminal 134 preferably includes a conductive rod 133 and may further include a brush 135 comprised of a plurality of fine conductive wires.
- air terminal 134 may be a brushless terminal.
- the conductive rod 133 can be inserted into an axial bore extending downwardly from the top end of the uppermost mast section 132.
- the conductive rod 133 may be coupled/connected to the uppermost mast section 132 via any suitable mechanism and/or technique.
- mast sections 132 of the mast assembly 130 may be alodined, anodized, painted, and/or coated with any other protective coating that presents no impediment to the voltage of a lightning
- Alodining (chemical conversion) is a coating method intended to provide corrosion prevention to aluminum products left unpainted, as well as to improve adhesion of painting processes.
- Anodizing is the electrochemical oxidation of an aluminum surface designed to produce a stable film of the aluminum's oxide on that surface.
- the total height of the modular lightning protection system 100 may range, for example, in a range from about 14 ft. to about 40 ft., or any other suitable height range. Accordingly, each of the mast sections 132 may be in the range of from about 4 ft. to about 8 ft. long, or any other suitable length range. In one example, the total height of the modular lightning protection system 100 may be about 38 feet.
- the base mast section 118 may be about 3 feet long; the mast assembly 130 may include about 6 mast sections 132, each being about 6.5 ft. long; and the air terminal 134 may be about 1.5 ft. long.
- the 38-foot modular lightning protection system 100 occupies a circular area that is about 10.8 ft. (3.3m) in diameter.
- the mast assembly 130 may be supported, for example, by stay lines (or guy wires) 138.
- stay lines or guy wires
- three stay lines 138 may be used to support mast assembly 130.
- one end of the stay lines 138 may be connected to an upper region of the mast assembly 130, e.g., about two-thirds of the way up the mast assembly 130, and the other end of the stay lines 138 may be connected to the base assembly 110.
- a set of wheeled casters 140 may be provided to impart mobility to the modular lightning protection system 100.
- wheeled casters 140 may be provided, one for each corner of the base assembly 110.
- the modular lightning protection system 100 may be more easily moved to a desired location and then the wheeled casters 140 may be removed.
- the modular lightning protection system 100 may be moved with the mast assembly 130 in either the upright position or in the folded over position.
- the base assembly 110 may include a set of water-ballast“bricks” 150.
- the water-ballast“bricks” 150 provide weight to the base assembly 110 of the modular lightning protection system 100.
- other mechanisms such as sand bags, blocks, weights, and the like, may be used to add weight to the base assembly 110 of the modular lightning protection system 100.
- water-ballast“bricks” 150 may hold about 3.3 gallons of water and have a weight of about 30 lbs. Accordingly, ground penetration is not necessarily required to set up the modular lightning protection system 100. Therefore, the modular lightning protection system 100 may be used on most any ground surface and/or potentially on top of a building structure.
- ground spikes may be used to secure the base assembly 110 to the ground.
- the modular lightning protection system 100 further may include a carry case 160 for holding and transporting the components of the modular lightning protection system 100 when disassembled.
- carry case 160 is a hard case (see FIGS. 24 and 25).
- the modular lightning protection system 100 may also include a carry case 152 (see FIG. 24) for holding the water-ballast“bricks” 150, preferably in there empty state.
- carry case 152 is a soft case.
- the modular lightning protection system 100 may also include a multifunctional handcart 170.
- the handcart 170 may be used to cradle the mast assembly 130 when in a folded over state.
- the hinge assembly 120 facilitates the folded over state of the modular lightning protection system 100.
- the handcart 170 may be used as a lift tool for installing the wheeled casters 140 beneath the base assembly 110 (see FIG. 21). More details of the handcart 170 are described herein below with reference to FIG. 19.
- the base assembly 110 is formed, for example, by outer horizontal members 112, wherein the ends of the three outer horizontal members 112 may be connected one to the next to form a base structure.
- base assembly 110 is formed by three or more outer horizontal members 112, wherein the ends of the outer horizontal members 112 may be connected one to the next to form a triangular base structure.
- the base assembly 110 may further include inner horizontal members 114, e.g., three inner horizontal members 114. Namely, one end of each of the inner horizontal members 114 connects to one corner of the base structure and the other end of each of the inner horizontal members 114 connects to hinge assembly 120, which is at the center of the base structure.
- the base mast section 118 may also include radially projecting fins 119, for example, three radially projecting fins 119, for added structural integrity.
- a set of angled members 116 e.g., three angled members 116, connect the corners of the base structure (i.e., formed by the outer horizontal members 112), for example, to an upper portion of the fins 119.
- the outer horizontal members 112, the inner horizontal members 114, and the angled members 116 can be, for example, aluminum or aluminum alloy angle members, or any other suitable material. All fasteners and installation hardware of the modular lightning protection system 100 may preferably be, for example, captive for fast installation and to avoid loose parts that could cause foreign object contamination and/or damage at sensitive sites.
- FIG. 4 shows an example of a cam lever fastener 144 engaged with a slot 145.
- the modular lightning protection system 100 preferably includes several cam lever fasteners 144 and corresponding slots 145 so that the various components can be connected/disconnected, and thereby assembling/disassembling modular lightning protection system 100 with minimal, or preferably with no tools.
- FIG. 5 through FIG. 9 illustrate more details of the base assembly 110 and the hinge assembly 120 of the modular lightning protection system 100 and showing several cam lever fasteners 144.
- FIG. 5, FIG. 6, and FIG. 7 show modular lightning protection system 100 in the deployed state wherein the hinge assembly 120 is closed and locked, for example by pins 121 (see FIG. 5).
- the pins 121 may, in one example, have detents released by a push button.
- any other suitable quick connect/disconnect type mechanism may be used.
- FIG. 8 shows the modular lightning protection system 100 in the folded over state wherein the hinge assembly 120 may be opened, for example, by removing one of the pins 121.
- the hinge assembly 120 may include a pair of hingeably connected plates with a hinge mechanism on two opposing sides.
- one plate e.g., the bottom plate
- the other plate e.g., the top plate
- inner horizontal members 114 are preferably removably attached to the bottom plate of hinge assembly 120, by insertion of the inner most ends of inner horizontal members 114 into corresponding sleeves 122 and secured in place with preferably a quick connect/disconnect type mechanism, such as a pin 123, or any other suitable quick connect/disconnect type mechanism.
- a quick connect/disconnect type mechanism such as a pin 123, or any other suitable quick connect/disconnect type mechanism.
- Cam lever fasteners 144 further operate to ensure a tight connection between the plates when the mast assembly 130 is in its upright position.
- Mast assembly 130 may, in one example, be detached from the hinge by removing both of pins 121, and removed from the base assembly 110 without the need to disassemble the entire base assembly 110.
- FIG. 5 and FIG. 8 show a coupler 146, for example, at the base of the base mast section 118.
- the coupler 146 is designed to receive, for example, a ground cable 148.
- the coupler 146 provides a mechanical and electrical connection of the ground cable 148 to the mast assembly 130.
- FIG. 10 shows the other end of the ground cable 148 connected to a ground rod 182 that may be driven into the ground.
- Ground cable 148 may be made of braided copper, for example 2/0 - 4/0, or other suitable material and gauge.
- the modular lightning protection system 100 can include one or multiple couplers 146, ground cables 148, and/or ground rods 182. However, in other embodiments, the modular lightning protection system 100 may be connected to an existing ground system, such as an existing ground system of an airfield.
- FIG. 11, FIG. 12, and FIG. 13 show more details of a corner portion of the base assembly 110 of the modular lightning protection system 100.
- one cam lever fastener 144 may be used to couple together the ends of two outer horizontal members 112 and one inner horizontal member 114 as shown.
- FIG. 10, FIG. 11, and FIG. 12 also show that the base assembly 110 may optionally include a pair of rods or tubing 154 at each comer thereof. Each pair of rods or tubing 154 may be provided to engage with corresponding sleeves or grooves formed in water-ballast“brick” 150, thereby holding the water-ballast“brick” 150 in place atop the respective corner of the base assembly 110.
- FIG. 14 illustrates stay lines 138 of the modular lightning protection system 100 prior to deploying.
- the stay lines 138 may attach to a collar 136 at an upper portion of the mast assembly 130, e.g., about two-thirds up the mast assembly 130.
- stay lines 138 may be stainless steel vinyl coated 1/8” diameter wire, or any other suitable material/size.
- FIG. 15 and FIG. 16 show more details of installing the stay lines 138 of the modular lightning protection system 100.
- the stay lines 138 may pre-set at a fixed length making the attachment and tensioning of the stay lines 138 quick and easy.
- One or more of the stay lines 138 may have a tensioning mechanism, such as a cam-over binder (e.g., a cam-over binder 156), that allows for easy tensioning of the stay lines 138.
- the stay lines 138 may also include turnbuckles 157 that may be adjusted and/or set prior to assembly if the tension of one or more of the stay lines 138 needs to be adjusted.
- FIG. 17 and FIG. 18, illustrates an example of a wheeled caster 140.
- FIG. 19 shows a side view and front view of an example of the handcart 170.
- the handcart 170 may include a main bar 172, a handle 174 at a top end of the main bar 172, a set of wheels 176 at a bottom end of the main bar 172, a lift bar 178 also at the bottom end of the main bar 172, and a cradle bar 180 at an upper portion of the main bar 172.
- Handcart 170 is preferably multifunctional and may be used, for example, as a lift tool for installing the wheeled casters 140 beneath the base assembly 110 as shown, for example, in FIG. 20 and FIG.
- FIG. 24 illustrates the carry cases of the modular lightning protection system 100.
- the carry case 160 in one example, may be a roll-away hard sided case that is used for stowing the components of the modular lightning protection system 100 when disassembled.
- FIG. 25 shows an example of the inside of the carry case 160.
- the dimensions of the carry case 160 are about 85.5 inches (about 2172 mm) long by about 20 inches (about 508 mm) wide by about 18 inches (about 458 mm) high and with a weight of about 270 pounds (about l23kg) when loaded.
- the carry case 152 in one example, may be a soft sided case for holding the water-ballast“bricks” 150, preferably when empty.
- the dimensions of the soft carry case 152 may be about 38 inches (about 965 mm) long by about 18 inches (about 458 mm) wide by about 18 inches (about 458mm) high and with a weight of about 25 pounds (about 11.4 kg) when holding three empty water-ballast“bricks” 150.
- FIG. 26 is an example of a plot 2500 of a zone of protection of the modular lightning protection system 100 when fully deployed.
- the modular lightning protection system 100 protects a conical zone around it that is calculated by the“rolling ball method.” This method is described in National Electrical Code (NEC), or NFPA70 published by the National Fire Protection Association (NFPA) (the contents of which are incorporated herein by reference), as well as the protection radii required for different types of assets. Briefly stated, assets are considered protected when they do not project into the surface of an imaginary sphere of suitable radius when it contacts both the top of the modular lightning protection system 100 and ground. A frequently used sphere has a radius of about 150 feet (about 45.7m).
- the plot 2500 indicates an example conical zone of protection for the modular lightning protection system 100 having a height of about 38 ft.
- FIG. 27 illustrates a flow diagram of an example of a method 2600 of deploying the modular lightning protection system 100.
- the method 2600 may include, but is not limited to, the following steps. Further, the method 2600 is not limited to the order of the following steps.
- the modular lightning protection system 100 is provided.
- the modular lightning protection system 100 is provided in its disassembled state within the carry case 160. Additionally, and if needed, a set of empty water-ballast “bricks” 150 may be provided within the carry case 152.
- the components of the modular lightning protection system 100 are removed from the carry case 160.
- the base assembly 110 is assembled (preferably without requiring the use of tools).
- assembly of the base mast section 118, the outer horizontal members 112, the inner horizontal members 114, and the angled members 116 do not require the use of any tools.
- mechanical attachment points may be accomplished by slots in one attaching piece and a captive cam lever fastener 144 in the other piece, and/or through the use of pins, carabineer clips, and/or other similar type of quick connect/disconnect devices.
- the mast assembly 130 is assembled (preferably without requiring the use of tools).
- the mast sections 132 of the mast assembly 130 are coupled end-to-end via, for example, threaded couplers.
- the air terminal 134 is installed in the end of the uppermost mast section 132.
- the mast assembly 130 is hingeably coupled to the base assembly 110 with the mast assembly 130 in the folded over position, as shown for example in FIG. 2 and FIG. 8.
- the modular lightning protection system 100 may be positioned to a desired position.
- wheeled casters 140 may be installed beneath each corner of the base assembly 110, as shown for example in FIG. 18, FIG. 20, and FIG. 21. Handcart 170 may then be used to help move the modular lightning protection system 100.
- the wheeled casters 140 may be removed from beneath the corners of the base assembly 110 using the handcart 170 if needed.
- the modular lightning protection system 100 may be positioned while still in the folded over position, or alternatively while the mast assembly 130 is in its upright position.
- the modular lightning protection system 100 is grounded.
- one or more ground rods 182 may be driven into the ground. Then the one or more ground rods 182 are electrically connected to one or more couplers 146 of the modular lightning protection system 100 via one or more ground cables 148.
- the modular lightning protection system 100 can be connected to an existing ground system, such as the existing ground system of an airfield.
- water-ballast“bricks” 150 may be positioned atop each corner of base assembly 110 as shown, for example, in FIG. 3 and FIG. 21.
- Water bricks 150 may be optionally held in place atop their respective comers of base assembly 110 by rods or tubing 154.
- Each corner of base assembly 110 may include one or more (e.g., 3-4), water bricks 150 placed thereon. Water bricks 150 may be filled prior to placement atop their respective corners of base assembly 110, or alternatively they may be filled after placement.
- other weighted item(s) may be used, such as sand bags, blocks, weights, and the like.
- ground spikes may be used to secure the base assembly 110 to the ground.
- the mast assembly 130 is placed and locked in the upright position, as shown for example in FIG. 1, FIG. 5, FIG. 6, and FIG. 7. Additionally, the stay lines 138 are attached and tensioned, as shown for example in FIG. 1, FIG. 15, and FIG. 16.
- the presently disclosed modular lightning protection system 100 comprises a modular mobile platform.
- the modular lightning protection system 100 may be a stand-alone, fully integrated, lightning protection system in, for example, kit form for rapid assembly and deployment as well as for longer term applications for a wide spectrum of special protection needs.
- the modular lightning protection system 100 is designed for quick installation as a reusable, modular mobile platform for easy assembly and movement in the desired operational area.
- the modular lightning protection system 100 preferably includes a lightweight, rugged aluminum alloy mast assembly 130, a mobility-enabled base assembly 110, customer-specified grounding attachment components (e.g., ground cables 148 and ground rods 182), and an air terminal 134.
- the mast sections 132 of the mast assembly 130 are modular and preferably of a length to facilitate easy stowing in a carry case (e.g., carry case 160).
- the modular lightning protection system 100 may be provided as a kit, wherein all the components may be stored and/or transported in carry case 160, and water-ballast“bricks” 150 may be stored and/or transported in case 152.
- the base assembly 110 may include water-ballast“bricks” 150 for ballast.
- a carry case 152 may also be provided for transport of the water bricks.
- the base assembly 110 may be suitable for non-penetrating application, such as, rooftops, non- penetrable surfaces, and other critical surfaces.
- the modular lightning protection system 100 is preferably capable of
- all components of the modular lightning protection system 100 are preferably corrosion resistant and suitable for indefinite deployment periods in sea coast or other challenging environments.
- the function of the modular lightning protection system 100 is to provide a highly conductive, easily deployed structure to deter and terminate lighting strikes that may threaten assets and personnel under its cone of protection.
- the modular lightning protection system 100 may include streamer discharge dissipation technology to reduce the probability of lightning strikes, and serves as an air terminal for lightning strike termination when required.
- An example of one specific use of the modular lightning protection system 100 is a military airfield where there are a number of multi-million dollar aircraft sitting on an open tarmac and out in the open and susceptible to lightning strikes.
- the presently disclosed modular lightning protection system 100 can be used in any number of civilian or military applications.
- the invention provides a catenary lightning protection system including at least two lightning protection systems connected by a catenary wire and method of deploying same.
- the lightning protection systems are connected by a catenary wire and have a combined lightning protection zone that is larger than the combined lightning protection zones of two lightning protection systems absent the catenary wire. Accordingly, the presence of the catenary wire connecting the two lightning protection masts serves to provide a substantially continuous and expanded lightning protection zone as compared with the two separate lightning protection zones of two lightning protection systems absent the catenary wire.
- FIG. 28 is a side view of a catenary lightning protection system 1000 comprising at least two lightning protection systems 1100A, 1100B connected by a catenary wire 1300.
- Catenary wire 1300 may be a aluminum conductor steel-reinforced (ACSR) cable, or other suitable cable, and may be about 1 ⁇ 4" diameter in size.
- FIGS. 29-31 show additional embodiments of the catenary lightning protection system 1000.
- Catenary lightning protection system 1000 includes at least two lightning protection systems, such as lightning protection systems 1100 A, 1100B.
- Each of the lightning protection systems 1100 A, 1100B includes, for example, a base assembly 1120 that supports a mast 1140.
- An air terminal 1160 e.g., UL-listed air terminal, is atop the mast 1140.
- the lightning protection systems 1100A, 1100B are designed for quick assembly and installation as well as easy movement within the desired operational area.
- the mast 1140 of the lightning protection systems 1100 A, 1100B can be, for example, a lightweight, rugged aluminum alloy mast that is grounded via customer-specified grounding attachment components (not shown).
- the height of the lightning protection systems 1100 A, 1100B can range, for example, from about 10 feet to about 40 feet, or other suitable height.
- the mast 1140 (and/or the air terminal 1160) may be alodined, anodized, painted, and/or coated with any other protective coating that presents no impediment to the voltage of a lightning flash.
- Alodining chemical conversion
- Anodizing is the electrochemical oxidation of an aluminum surface designed to produce a stable film of the aluminum's oxide on that surface.
- the lightning protection systems 1100 A, 1100B include the lightning protection system described in U.S. Patent 9,083,172, entitled“Portable lightning protection system,” issued on July 14, 2015; the entire disclosure of which is incorporated herein by reference (as shown, for example, in FIGS. 28 and 29). That is, in this embodiment, lightning protection systems 1100A and 1100B may be the same as lightning protection system of the’ 172 patent, wherein at least two of the lightning protection systems of the’ 172 patent are connected by catenary wire 1300 to create the catenary lightning protection system 1000.
- The’ 172 patent describes a lightning protection system for placement adjacent structures requiring lightning protection.
- the lightning protection system of the ⁇ 72 patent may include a multi- section conductive mast including a base mast section, and a top mast section; an air terminal attachable to the top mast section; a base attachable to the base mast section; and at least one grounding cable to ground the mast, wherein the base includes a plurality of radially extending horizontal beams having inner ends attachable to the base mast section and a plurality of inclined beams having inner ends attachable to the base mast section and outer ends attachable to the horizontal beams.
- the lightning protection system of the ’ 172 patent may include a base mast section with an upper end and a plurality of radially extending, axially aligned ribs; a top mast section; preferably at least one intermediate mast section attachable to the upper end of the base mast section and to the lower end of the top mast section, the mast sections being axially aligned when attached; an air terminal having a conductive rod insertable into the bore of the top mast section; a base including a plurality of radially extending horizontal beams having inner ends attachable to the base mast section ribs and a plurality of inclined beams having inner ends attachable to the base mast section ribs and outer ends attachable to the horizontal beams; and grounding cables connecting the mast to the ground.
- the lightning protection system of the’ 172 patent may include a base mast section, which includes a plurality of radially projecting fins; one or more intermediate mast sections; and a top mast section.
- the intermediate mast sections may include threaded coupling near their lower ends to be screwed onto the tops of sections which attach to them.
- the lightning protection system of the’ 172 patent may also include an air terminal, wherein the air terminal may include a conductive rod that is inserted into a bore in the upper end of the upper mast section, and may also include a brush which may include a plurality of fine conductive wires.
- the lightning protection system of the’ 172 patent may also include ground wires that connect the system base to one or more ground rods.
- a carry bag may also be provided for convenient storage and transport of the components.
- the lightning protection systems 1100 A, 1100B include the modular lightning protection system 100 described above, that is, lightning protection systems 1100 A and 1100B may be the same as modular lightning protection system 100, wherein at least two of modular lightning protection systems 100 are connected by catenary wire 1300 to create the catenary lightning protection system 1000 (as shown, for example, in FIG. 30).
- the modular lightning protection system 100 includes a mobile platform.
- the modular lightning protection system 100 includes a modular base assembly and a mast assembly, wherein the mast assembly, when installed on the base assembly, can be in a folded over position or in an upright position.
- the modular lightning protection system 100 may further include wheeled casters for imparting mobility to the modular lightning protection system 100 as well as water-ballast“bricks” for weighting down the modular lightning protection system 100.
- wheeled casters for imparting mobility to the modular lightning protection system 100 as well as water-ballast“bricks” for weighting down the modular lightning protection system 100.
- at least two of the modular lighting protection systems 100 are connected by catenary wire 1300.
- the lightning protection systems 1100 A, 1100B may include a combination of the modular lightning protection system 100 and the lightning protection system of the’ 172 patent, that is, lightning protection systems 1100A and 1100B may include one of each of the modular lightning protection system 100 and the lightning protection system of the’ 172 patent, wherein the two are connected by the catenary wire 1300 to create the catenary lightning protection system 1000 (as shown, for example, in FIG. 31).
- the lightning protection systems 1100A and 1100B are electrically connected via a catenary wire 1300.
- the catenary wire 1300 may ride on a pulley 1320 that is attached to an upper portion of the mast 1140.
- Each end of the catenary wire 1300 may be anchored to the ground (or surface) via, for example, ground spikes or stakes 1340. In particular, the catenary wire 1300 is pulled tight and then anchored to the ground (or surface).
- FIG. 32 illustrates an upper portion of the catenary lightning protection system 1000 and showing more details of the catenary wire 1300.
- the catenary lightning protection system 1000 preferably also includes a cable 1360 at each of the lightning protection systems 1100 A, 1100B.
- Cable 1360 may be a aluminum conductor steel-reinforced (ACSR) cable, or other suitable cable/material, and may be about 1 ⁇ 4" diameter in size.
- ACSR aluminum conductor steel-reinforced
- one end of the cable 1360 connects to the catenary wire 1300, for example near the pulley 1320, via a suitable clamp or other device and/or technique to provide a good electrical connection.
- the other end of the cable 1360 preferably connects to the mast 1140 a certain distance below the pulley 1320, for example, about 4 ft. below pulley 1320.
- the cable 1360 connects to the mast 1140 preferably via a clamp 1380, or other suitable mechanism.
- the purpose of the cable 1360 is to ensure a good electrical connection between the catenary wire 1300 that is riding on the pulley 1320 and the mast 1140.
- FIG. 33A is schematic diagram of the catenary lightning protection system 1000 showing, an exemplary protection zone thereof.
- the catenary lightning protection system 1000 provides a substantially continuous lightning protection zone 4000 between the two lightning protection systems 1100A, 1100B.
- FIG. 33B is schematic diagram of the lightning protection systems 1100A, 1100B absent the catenary wire 1300 connecting them.
- the lightning protection system 1100A has a certain lightning protection zone 4000 A and the lightning protection system 1100B has a certain lightning protection zone 4000B.
- the lightning protection zones 4000A, 4000B do not overlap. Accordingly, FIG.
- FIG. 33A illustrates the benefit of the catenary wire 1300, which is to expand the combined lightning protection zone 4000 between the two lightning protection systems 1100A, 1100B, as compared with the two separate lightning protection zones 4000 A, 4000B shown in FIG. 33B. Additional pairs of lightning protection systems like 1100 A, 1100B connected by catenary wire 1300 may be positioned in proximity to lightning protection systems 1100 A, 1100B (e.g., parallel with) to expand the lightning protection zone 4000.
- FIG. 34 is a flow diagram of an example of a method 5000 of deploying the catenary lightning protection system 1000.
- the method 5000 may include, but is not limited to, the following steps. Further, the method 5000 is not limited to the order of the following steps.
- lightning protection systems 1100 A, 1100B include two lightning protection systems 100 as described above with reference to FIGS. 1-27.
- the two lightning protection systems 1100A, 1100B include the lightning protection system according to the ⁇ 72 patent.
- lightning protection systems 1100 A, 1100B include one lightning protection system 100 and one lightning mast protection system according to the’ 172 patent.
- the lightning protection systems 1100A, 1100B are setup.
- the lightning protection systems 1100A, 1100B are set up a certain distance apart at the location to be protected. For example, if the lightning protection systems 1100 A, 1100B are about 38 feet in height, then they are set up about 80 feet apart, to provide an optimum lightning protection zone.
- the catenary wire 1300 is installed between the two lightning protection systems 1100A, 1100B.
- the pulley 1320 and the cable 1360 are installed on the mast 1140 of the lightning protection system 1100 A.
- the pulley 1320 and the cable 1360 are installed at the top of the mast 1140 of the lightning protection system 1100B.
- the catenary wire 1300 is installed upon the respective pulleys 1320 of the two masts 1140.
- the two respective cables 1360 are each connected to the catenary wire 1300 and their respective masts 1140 via a suitable clamp or other device and/or technique to provide good electrical connections thereto.
- the catenary wire 1300 is pulled tight and anchored to the ground (or surface) via, for example, the ground spikes or stakes 1340.
- the catenary wire 1300 is pulled to about 20 lbs. of tension and anchored to the ground (or surface).
- the two lightning protection systems 1100 A, 1100B that are connected by the catenary wire 1300 have a combined lightning protection zone that is larger than the combined lightning protection zones of two lightning protection systems absent the catenary wire 1300. Accordingly, the presence of the catenary wire 1300 connecting the two lightning protection systems 1100 A, 1100B serves to provide a substantially continuous and expanded lightning protection zone as compared with the two separate lightning protection zones of two lightning protection systems 1100 A, 1100B absent the catenary wire 1300.
- the catenary lightning protection system 1000 can include multiple pairs of lightning protection systems 1100 A, 1100B connected via catenary wire 1300.
- the function of the catenary lightning protection system 1000 is to provide a highly conductive, easily deployed lightning protection system to deter and terminate lighting strikes that may threaten assets and personnel under its zone of protection.
- a non-limiting example of one specific use of the catenary lightning protection system 1000 is protecting a military metal building(s) used for fuel storage which may be out in the open and susceptible to lightning strikes.
- the catenary lightning protection system 1000 can be used in any number of civilian and/or military applications.
- lightning protection systems 100, 1100A, and/or 1100B may further include a lightning isolation support arm assembly 6000 for mounting an accessory unit (not shown), such as a GPS antenna, meteorological sensor, air quality sensor, camera, or any other suitable accessory, to any of lightning protection systems 100, 1100A, and/or 1100B.
- an accessory unit such as a GPS antenna, meteorological sensor, air quality sensor, camera, or any other suitable accessory
- the support arm assembly 6000 further provides added lightning deterrence inductance.
- Support arm assembly 6000 may include a mast adaptor base 6050 and one or more support arms 6100.
- the mast adaptor base 6050 and the one or more support arms 6100 may be made of the same material as that of mast sections 132 (or mast 1140), for example, of lightweight, rugged, aluminum alloy, or other suitable material.
- the mast adaptor base 6050 and the one or more support arms 6100 are made of hollow aluminum piping, for example 6061-T6 aluminum piping.
- mast adaptor base 6050 and support arms 6100 may be made as a unitary piece.
- Mast adaptor base 6050 and support arms 6100 may be about one (1) inch in diameter, or other suitable size depending on application and/or location of installation on mast assembly 130.
- Support arm assembly 6000 may be installed, for example, between an uppermost mast section 6025 of mast assembly 130 (or mast 1140) and an adjacent lower mast section 6075 of mast assembly 130 (or mast 1140), and may be attached thereto via threaded couplers 6060 and 6070.
- Threaded coupler 6060 may be disposed at a lower portion of mast section 6025, and mast section 6026 may further include a mast insert portion 6080 extending below threaded coupler 6060.
- Threaded coupler 6070 may be disposed at a lower portion of mast adaptor base 6050, and mast adaptor base 6050 further may include an adapter insert portion 6090 extending below threaded coupler 6070.
- Mast insert portion 6080 may be sized and configured to fit into a top opening of mast adapter base 6050, and adapter insert portion 6090 may be sized and configured to fit into a top opening of mast section 6075.
- mast section 6025 is about one (1) inch in diameter and mast section 6075 is about one and quarter (1 1 ⁇ 4) inches in diameter.
- support arm assembly 6000 may be attached to mast assembly by inserting the mast insert portion 6080 into the top opening of mast adaptor base 6050 and engaging threaded coupler 6060 with corresponding threads formed about the top portion of the mast adaptor base 6050, and inserting the adapter insert portion 6090 into the top end of the mast section 6075 and engaging threaded coupler 6070 with corresponding threads formed about the top portion of mast section 6075.
- support arm assembly 6000 may be attached to mast assembly 130 (or mast 1140) via any other suitable mechanism and/or technique.
- the support arm assembly 6000 may alternatively be attached between any other two sections of mast assembly 130 (or mast 1140), or attached directly to any section of mast assembly 130 (or mast 1140).
- Support arm 6100 may include an accessory unit attachment point 6200, which may be at an upper most point of support arm 6100.
- Support arms 6100 may further include a wire/cable port 6150 formed in an upper portion of support arm 6100.
- wire/cable port 6150 may be formed in a sidewall of support arms 6100 just below the accessory unit attachment point 6200.
- Wire/cable port 6150 may be about 3/4 of an inch in diameter, or other suitable size depending on application.
- One or more support arms 6100 are preferably welded directly to the mast adaptor base 6050 at a mating hole (not shown) formed in a side wall of the mast adaptor base 6050, such that an opening of an end of the support arms 6100 pipes mate with the mating hole formed in the mast adaptor base 6050, thus forming an internal passage for allowing, for example, wiring/cabling of a mounted accessory unit to pass, for example, from wire/cable port 6150, down internally through the hollow portion of the support arms 6100 and into the mast adaptor base 6050 and internally into a hollow portion of the mast assembly 130 (or mast 1140), and exit, for example, at a lower section or bottom of mast assembly 130 (or mast 1140).
- Support arms 6100 may alternatively be attached to the mast adaptor base 6050 by, for example, but not limited to, clamping, coupling, threading/screwing, locking pin, friction fit, and/or any other suitable mechanism and/or technique.
- the support arms 6100 may be attached on opposing side walls of mast adaptor base 6050.
- support arms 6100 may extend out a distance horizontally from mast adaptor base 6050 and then curve upward in a generally vertical direction to form a generally "L" shaped arm structure. In one example, support arms 6100 may extend out about two (2) feet horizontally from a center line of the mast section its attached to, and then curve upward in a generally vertical direction about one and half (1 1/2) feet.
- Mast adaptor base 6050 may be about one and half (1 1/2) feet in height.
- Support arm assembly 6000 may be about two (2) feet in overall height from a bottom most point of the mast adaptor base 6050 to an upper most point of the support arms 6100. However, other dimensions are contemplated and may be any other suitable size depending on application.
- a desired accessory unit such as a GPS antenna, meteorological sensor, air quality sensor, camera, or any other suitable accessory, may be attached to one (or both) of support arms 6100 at the accessory unit attachment point 6200 via, for example, but not limited to, clamping, coupling, welding, threading/screwing, locking pin, friction fit, and/or any other suitable mechanism and/or technique.
- Wiring/cabling for the mounted accessory unit may be fed through the hollow internal portion of support arms 6100 and through the wire/cable port 6150 just below the accessory unit attachment point 6200.
- lightning protection systems 100, 1100A, and/or 1100B may further include a lightning isolation coil inductive support arm assembly 7000 for mounting an accessory unit (not shown), such as a GPS antenna, meteorological sensor, air quality sensor, camera, or any other suitable accessory, or any other suitable accessory, to any of lightning protection systems 100, 1100 A, and/or 1100B.
- an accessory unit such as a GPS antenna, meteorological sensor, air quality sensor, camera, or any other suitable accessory, or any other suitable accessory, to any of lightning protection systems 100, 1100 A, and/or 1100B.
- the support arm assembly 6000 further provides added lightning deterrence inductance.
- Support arm assembly 7000 may include a mast adaptor base 7050 and one or more support arms 7100.
- the mast adaptor base 7050 and the one or more support arms 7100 may be made of the same material as that of mast sections 132 (or mast 1140), for example, of lightweight, rugged, aluminum alloy, or other suitable material.
- the mast adaptor base 7050 and the one or more support arms 7100 are made of hollow aluminum piping, for example 6061-T6 aluminum piping.
- mast adaptor base 7050 and support arms 7100 may be made as a unitary piece.
- Mast adaptor base 7050 and support arms 7100 may be about one (1) inch in diameter, or other suitable size depending on application and/or location of installation on mast assembly 130.
- Support arm assembly 7000 may be installed, for example, between an uppermost mast section 7025 of mast assembly 130 (or mast 1140) and an adjacent lower mast section 7075 of mast assembly 130 (or mast 1140), and may be attached thereto via threaded couplers 7060 and 7070.
- Threaded coupler 7060 may be disposed at a lower portion of mast section 7025, and mast section 7026 may further include a mast insert portion 7080 extending below threaded coupler 7060.
- Threaded coupler 7070 may be disposed at a lower portion of mast adaptor base 7050, and mast adaptor base 7050 further may include an adapter insert portion 7090 extending below threaded coupler 7070.
- Mast insert portion 7080 may be sized and configured to fit into a top opening of mast adapter base 7050, and adapter insert portion 7090 may be sized and configured to fit into a top opening of mast section 7075.
- mast section 7025 is about one (1) inch in diameter and mast section 7075 is about one and quarter (1 1 ⁇ 4) inches in diameter.
- support arm assembly 7000 may be attached to mast assembly by inserting the mast insert portion 7080 into the top opening of mast adaptor base 7050 and engaging threaded coupler 7060 with corresponding threads formed about the top portion of the mast adaptor base 7050, and inserting the adapter insert portion 7090 into the top end of the mast section 7075 and engaging threaded coupler 7070 with corresponding threads formed about the top portion of mast section 7075.
- support arm assembly 7000 may be attached to mast assembly 130 (or mast 1140) via any other suitable mechanism and/or technique.
- the support arm assembly 7000 may alternatively be attached between any other two sections of mast assembly 130 (or mast 1140), or attached directly to any section of mast assembly 130 (or mast 1140).
- Support arm 7100 may include an accessory unit attachment point 7200, which may be at an upper most point of support arm 7100.
- Support arms 7100 may further include a wire/cable port 7150 formed in an upper portion of support arm 7100.
- wire/cable port 7150 may be formed in a sidewall of support arms 7100 just below the accessory unit attachment point 7200.
- Wire/cable port 7150 may be about 3 ⁇ 4 of an inch in diameter.
- Support arms 7100 may further include a wire/cable groove 7250 formed along a portion thereof. Wire/cable groove 7250 may extend along a portion of a section of support arms 7100 between where the support arms 7100 attaches to the mast base adapter 7050 and the wire/cable port 7150.
- One or more support arms 7100 are preferably welded directly to the mast adaptor base 7050 at a mating hole (not shown) formed in a side wall of the mast adaptor base 7050, such that an opening of an end of the support arms 7100 pipe mates with the mating hole formed in the mast adaptor base 7050, thus forming an internal passage for allowing wiring/cabling of a mounted accessory unit to pass, for example, from wire/cable port 7150, down internally through the hollow portion of the support arms 7100 and into the mast adaptor base 7050 and internally into a hollow portion of the mast assembly 130 (or mast 1140), and exit, for example, at a lower section or bottom of mast assembly 130 (or mast 1140).
- Support arms 7100 may alternatively be attached to the mast adaptor base 7050 by, for example, but not limited to, clamping, coupling, threading/screwing, locking pin, friction fit, and/or any other suitable mechanism and/or technique.
- the support arms 7100 may be attached on opposing side walls of mast adaptor base 7050.
- support arms 7100 may extend out a distance horizontally from mast adaptor base 7050 and then curve upward in a generally vertical direction.
- the vertical portion of support arms 7100 may form a generally coil shape.
- the vertical portion of support arms 7100 may have a single coil turn.
- alternate embodiments may include support arms 7100 having multiple coil turns. Each additional coil turn of the vertical portion of support arms 7100 provides more lightning deterrence inductance, thus further protecting the mounted accessory unit by making it less attractive as a terminal point for a lightning strike.
- support arms 7100 may extend out about two (2) feet horizontally from a center line of the mast section its attached to and then curve upward in a generally vertical direction about two (2) feet, and in one example, may extend upward about three (3) feet nine (9) inches.
- Mast adaptor base 7050 may be about one and half (1 1/2) feet in height.
- Support arm assembly 7000 may be about four (4) feet in overall height from a bottom most point of the mast adaptor base 7050 to an upper most point of the support arms 7100.
- other dimensions are contemplated and may be any other suitable size depending on application.
- a desired accessory unit such as a GPS antenna, meteorological sensor, air quality sensor, camera, or any other suitable accessory, may be attached to one (or both) of support arms 7100 at the accessory unit attachment point 7200 via, for example, but not limited to, clamping, coupling, welding, threading/screwing, locking pin, friction fit, and/or any other suitable mechanism and/or technique.
- Wiring/cabling for the mounted accessory unit may be fed through the hollow internal portion of support arms 7100 and/or wire/cable groove 7250, and through the wire/cable port 7150 just below the accessory unit attachment point 7200.
- the terms“comprise,”“comprises,” and“comprising” are used in a non-exclusive sense, except where the context requires otherwise.
- the term“include” and its grammatical variants are intended to be non-limiting, such that recitation of items in a list is not to the exclusion of other like items that can be substituted or added to the listed items.
- the term “about,” when referring to a value can be meant to encompass variations of, in some embodiments, ⁇ 100% in some embodiments ⁇ 50%, in some embodiments ⁇ 20%, in some embodiments ⁇ 10%, in some embodiments ⁇ 5%, in some embodiments ⁇ 1%, in some embodiments ⁇ 0.5%, and in some embodiments ⁇ 0.1% from the specified amount, as such variations are appropriate to perform the disclosed methods or employ the disclosed compositions.
- the term“about” when used in connection with one or more numbers or numerical ranges should be understood to refer to all such numbers, including all numbers in a range and modifies that range by extending the boundaries above and below the numerical values set forth.
- the recitation of numerical ranges by endpoints includes all numbers, e.g., whole integers, including fractions thereof, subsumed within that range (for example, the recitation of 1 to 5 includes 1, 2, 3, 4, and 5, as well as fractions thereof, e.g., 1.5, 2.25, 3.75, 4.1, and the like) and any range within that range.
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Abstract
L'invention concerne un ensemble bras de support d'isolation contre la foudre permettant de monter une unité accessoire, telle qu'une antenne, un capteur, une caméra ou tout autre accessoire/dispositif approprié, sur un ensemble mât d'un système de protection contre la foudre. L'ensemble bras de support peut comprendre un adaptateur de base de mât et un ou plusieurs bras de support fixés à l'adaptateur de base de mât. L'invention concerne un système portatif de protection contre la foudre comprenant un ensemble mât conducteur à plusieurs sections comprenant au moins une section de mât de base et une section de mât supérieure; un terminal hertzien pouvant être fixé à la section de mât supérieure; et un ensemble de base pouvant être fixé à la section de mât de base par le biais d'un ensemble charnière, l'ensemble charnière pouvant être conçu pour permettre à la section de mât de base de s'articuler par rapport à l'ensemble de base; et un ensemble bras de support fixé à l'ensemble mât.
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PCT/US2018/024331 WO2019190458A1 (fr) | 2018-03-26 | 2018-03-26 | Systèmes et procédés de protection contre la foudre |
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PCT/US2018/024331 WO2019190458A1 (fr) | 2018-03-26 | 2018-03-26 | Systèmes et procédés de protection contre la foudre |
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US10847961B2 (en) | 2016-02-19 | 2020-11-24 | Lba Group, Inc. | Lightning protection systems and methods |
US10916928B2 (en) | 2016-02-19 | 2021-02-09 | Lba Group, Inc. | Lightning protection systems and methods |
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US10847961B2 (en) | 2016-02-19 | 2020-11-24 | Lba Group, Inc. | Lightning protection systems and methods |
US10916928B2 (en) | 2016-02-19 | 2021-02-09 | Lba Group, Inc. | Lightning protection systems and methods |
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