Need assistance
Need assistance
Need assistance
Стать партнером
Заказать просчет
Advanced shore armouring, seawall and affordable marine construction
Boatlift
Boathouse
Stitch house
SeaPatio
Dock / Dry berth
Make you Dream come true with HYDRANTULA
Boatramp
Advanced shore armouring, seawall and affordable marine construction
Make you Dream come true with HYDRANTULA
Boatlift
Dock / Dry berth
SeaPatio
Stitch house
Boathouse
Boatramp
CALL NOW! AND GET DETAILED ANSWERS RIGHT AWAY
CALL NOW! AND GET DETAILED ANSWERS RIGHT AWAY
CALL NOW! AND GET DETAILED ANSWERS RIGHT AWAY
CALL NOW! AND GET DETAILED ANSWERS RIGHT AWAY
CALL NOW! AND GET DETAILED ANSWERS RIGHT AWAY
We are manufacturing
solutions for marine and shore concrete constructions
solutions for marine and shore concrete constructions
About HYDRANTULA
Original Hydrantula ptoducts are best solutions for stitch house, wet boat garages, seawalls, docks and dry berth. They are simple and flexible yet very affordable.
We offer proven technologies and materials that ensure the durability and reliability of Hydrantula systems.
We offer proven technologies and materials that ensure the durability and reliability of Hydrantula systems.
Offshore
...................
Detailed
HYDRANTULA is designed to be pumped in with concrete via concrete pipeline. It allows Hydrantula to be installed without specialized "marine" equipment (floating cranes, barges, floating shvings) at a distance of up to 70 meters from the shore.
Isotropy of loads
...................
Detailed
Unlike most land structures, HYDRANTULA is perfectly adapted to significant lateral and alternating loads and "ascent" forces. She holds a punch from any direction.
High-rise buildings
...................
Detailed
HYDRANTULA provides possibility of using several floors (tiers) in the structure. This increases the strength of the structure. Makes it suitable for significant depths (5...12m)
...................
Versatility
...................
Detailed
Most HYDRANTULA fittings have an excessive number of connection sockets for pipe beams and rods and can be used at different positions in the structure, performing different roles (corner, wall, bottom, center). This greatly reduce assortment and let us - save on logistics and inventory.
Modularity
...................
Detailed
HYDRANTULA designs consist of elementary 3D cells that can be added arbitrarily (like LEGO bricks). The finished structure can be easily adapted in size and strength to the needs of the customer and the conditions of aquatoria.
Scalability
...................
Detailed
Unlike most other formwork systems, HYDRANTULA allows you to change the size of the product in a wide range (300%) without changing the range of components. Exclusively due to the adjusted cutting of pipe beams.
Offshore
...................
Detailed
HYDRANTULA is designed to be pumped in with concrete via concrete pipeline. It allows Hydrantula to be installed without specialized "marine" equipment (floating cranes, barges, floating shvings) at a distance of up to 70 meters from the shore.
Isotropy of loads
...................
Detailed
Unlike most land structures, HYDRANTULA is perfectly adapted to significant lateral and alternating loads and "ascent" forces. She holds a punch from any direction.
High-rise buildings
...................
Detailed
HYDRANTULA provides possibility of using several floors (tiers) in the structure. This increases the strength of the structure. Makes it suitable for significant depths (5...12m)
...................
Versatility
...................
Detailed
Most HYDRANTULA fittings have an excessive number of connection sockets for pipe beams and rods and can be used at different positions in the structure, performing different roles (corner, wall, bottom, center). This greatly reduce assortment and let us - save on logistics and inventory.
Modularity
...................
Detailed
HYDRANTULA designs consist of elementary 3D cells that can be added arbitrarily (like LEGO bricks). The finished structure can be easily adapted in size and strength to the needs of the customer and the conditions of aquatoria.
Scalability
...................
Detailed
Unlike most other formwork systems, HYDRANTULA allows you to change the size of the product in a wide range (300%) without changing the range of components. Exclusively due to the adjusted cutting of pipe beams.
Бетонирование насосом под давлением
...................
Detailed
HYDRANTULA structures are designed for pumping in fresh concrete under moderate pressure, which reduces labor intensity and improves the quality of work.
70% off shelf материалы
...................
Detailed
70% of the HYDRANTULA structure is assembled from standard, widely available constructional materials.
Amphibious
...................
Detailed
HYDRANTULA is equally good in seasonally flooded lowlands, in the tide zone or at depth.
...................
Совместимость с винтовыми сваями
...................
Detailed
HYDRANTULA can be installed both on a field of screw piles or without a strong connection to the seabed [FreeStand mode]. In the latter case, HYDRANTULA structures can be dismantled or relocated.
Без прочной связи с дном
...................
Detailed
HYDRANTULA can be installed both on a field of screw piles or without a strong connection to the seabed [FreeStand mode]. In the latter case, HYDRANTULA structures can be dismantled or relocated.
Corrosion resistance
...................
Detailed
The materials used in HYDRANTULA are not subject to corrosion (even in saltwater).
Dry assembly
...................
Detailed
90% of all work related to the installation of HYDRANTULA is carried out on shore. This ensures the safety of work, speed and high quality. And dramatically reduce budget and workforce essential skills.
Duker
...................
Detailed
HYDRANTULA designed to allow you connect to main electricity,
Internet, fresh water and sewage from the shore.
Internet, fresh water and sewage from the shore.
Reasonable price
...................
Detailed
The cost of a "marine" foundation is comparable to its land-based counterparts.
...................
High transparency for waves
...................
Detailed
HYDRANTULA structures freely pass waves through themselves, they are not an obstacle to coastal currents. They do not cause erosion of the bottom or sediments. They do not contribute to waterlogging.
Durability/Longevity
...................
Detailed
HYDRANTULA can be used for up to 60 years.
Frost resistance
...................
Detailed
Even a 100cm layer of sea ice will not damage the HYDRANTULA structure.
Ease of assembly
...................
Detailed
Thoughtful engineering solutions allow you to confidently assemble 3D farms, guided by an understandable manual. Its LEGO for adult.
Rich color palette
...................
Detailed
For a consistently good mood.
...................
Composite rebar rods
...................
Detailed
Improve the volumetric rigidity of the 3D truss.
Sealed concrete supply.
...................
Detailed
Radically reduces aquatoria pollution. Increases the quality and speed of work.
Искусственный риф
...................
Detailed
HYDRANTULA eventually overgrows with sessile aquatic organisms and mollusks and becomes an artificial reef.
HYDRANTULA designed to provide flexible, modular and scallable solutions. You are limited just by yours imagination. We can make most out of yours $ and fulfill yours bold expectation
Все
Hydrantula H1
Hydrantula H2
Hydrantula H3
Hydrantula H4
Hydrantula H5
Hydrantula products catalogue
HYDRANTULA H1 LITE
System for Marine Terraces; SeaPatio; Lite Docks and Pedestrial constructions.
Hot sale!
HYDRANTULA H2 BOAT
System for dry berth and recreational watercraft storage - ramps, slips, keelblock
HYDRANTULA H5 DEEPWATER
System for depth up to 8 m.
HYDRANTILA H4 AMPHIBIA
A system for construction at shallow waters and in tide zone; stitchhouses
HYDRANTULA H3 DUNE
System for aesthetic shore armoring, retention wall and artificial dunes
Compare traditional marine construction with hydrantula
System Installation
Make a sketch of what you want to get.
1
Determine the size of the 3D cell.
Calculate the length of all types of tube-beams and reinforcement rods. As well as the approximate consumption of rebar for beams.
When calculating, keep in mind:
* Some of the beams will pass through the fitting - the whole whip can form 2 or 3 girder spans.
* Some of the beams is attached with fixtures or soldered with a manual extruder [the tube ends enters into the bells or binary sockets of the fitting by 8...15cm].
* Some of the beams are welded by butt welding [an allowance is needed 15...25mm on the ends of the tube].
* Some beams are attached to the bell.
* A number of fittings [Y4, S3, U45] are designed so that some beams will be butt welded with one end and inserted into the bell with the other end of tube.
Calculate the length of all types of tube-beams and reinforcement rods. As well as the approximate consumption of rebar for beams.
When calculating, keep in mind:
* Some of the beams will pass through the fitting - the whole whip can form 2 or 3 girder spans.
* Some of the beams is attached with fixtures or soldered with a manual extruder [the tube ends enters into the bells or binary sockets of the fitting by 8...15cm].
* Some of the beams are welded by butt welding [an allowance is needed 15...25mm on the ends of the tube].
* Some beams are attached to the bell.
* A number of fittings [Y4, S3, U45] are designed so that some beams will be butt welded with one end and inserted into the bell with the other end of tube.
2
Calculate by yourself or with the help of our employee quantity of materials you need [fittings, fibers, tubes of various diameters, rebar, fasteners or welding rods].
3
Decide on the color scheme of the HYDRANTULA fittings.
7
Place an order. There is no need to order concrete in advance!
8
After the arrival of materials, lay out and number the HYDRANTULA fittings according to their positions in the future design. When checking the sketch or drawing, mark which binary sockets are to be drilled on every nod.
If in doubt, delay drilling. It's never too late to do that. But it's quite painful to close an extra hole.
If in doubt, delay drilling. It's never too late to do that. But it's quite painful to close an extra hole.
6
Decide on the color scheme of the HYDRANTULA fittings.
4
Place an order. There is no need to order concrete in advance!
5
After the arrival of materials, lay out and number the HYDRANTULA fittings according to their positions in the future design. When checking the sketch or drawing, mark which binary sockets are to be drilled on every nod.
If in doubt, delay drilling. It's never too late to do that. But it's quite painful to close an extra hole.
If in doubt, delay drilling. It's never too late to do that. But it's quite painful to close an extra hole.
6
It is better to drill pipes for rods on an already assembled structure.
7
Cut in size large diameter tubes [280... 225mm].
8
Butt weld the load bearing columns.
9
Add an external reinforcement made of lumber, if necessary.
19
Select and drill holes in one or more flanges for the concrete duct.
20
Optional: Weld a concrete ductwork.
21
Cut in size the rest of the pipes. Including windows for monolithic concreting of through whips.
10
Prepare the reinforcing frames for the tubes. Insert them inside the beams.
11
Assemble the future vertical planes of the structure without fixation and in a supine position.
12
After you have made sure that the plane has successfully assembled - level up it "to size" and fix all its beams with an extruder and permanent fasteners [rivets, anchors].
13
Place the planes in the working [vertical] position. In the order they will stand in the final structure.
Make sure that all the planes are assembled into a level!
Make sure that all the planes are assembled into a level!
14
Add the armpacks of the load bearing columns.
15
Insert all remaining pipe beams. Preferably first on temporaly fasteners (self-tapping screws).
16
Make sure that everything is assembled to the level and size. Finally fix all beams with an extruder and/or with permanent fasteners.
17
Drill out the binary sockets for composite rods. Place the brace rods. Secure the rods with hot-melt adhesive or preferably with aluminum press sleeve.
18
Make a sketch of what you want to get.
Sometimes it is easier to make "floor plans" or order a realistic 3D model from a dealer.
Sometimes it is easier to make "floor plans" or order a realistic 3D model from a dealer.
1
Determine the size of the 3D cell. Calculate the length of all types of tube-beams and reinforcement rods. As well as the approximate consumption of rebar for beams.
When calculating, keep in mind:
* Some of the beams will pass through the fitting - the whole whip can form 2 or 3 girder spans.
* Some of the beams is attached with fixtures or soldered with a manual extruder [the tube ends enters into the bells or binary sockets of the fitting by 8...15cm].
* Some of the beams are welded by butt welding [an allowance is needed 15...25mm on the ends of the tube].
* Some beams are attached to the bell.
* A number of fittings [Y4, S3, U45] are designed so that some beams will be butt welded with one end and inserted into the bell with the other end of tube.
When calculating, keep in mind:
* Some of the beams will pass through the fitting - the whole whip can form 2 or 3 girder spans.
* Some of the beams is attached with fixtures or soldered with a manual extruder [the tube ends enters into the bells or binary sockets of the fitting by 8...15cm].
* Some of the beams are welded by butt welding [an allowance is needed 15...25mm on the ends of the tube].
* Some beams are attached to the bell.
* A number of fittings [Y4, S3, U45] are designed so that some beams will be butt welded with one end and inserted into the bell with the other end of tube.
2
Calculate by yourself or with the help of our employee quantity of materials you need [fittings, fibers, tubes of various diameters, rebar, fasteners or welding rods]. Add an allowance for trimming and scrap [for running materials].
3
Decide on the color scheme of the HYDRANTULA fittings.
4
Place an order. There is no need to order concrete in advance!
5
After the arrival of materials, lay out and number the HYDRANTULA fittings according to their positions in the future design. When checking the sketch or drawing, mark which binary sockets are to be drilled on every nod.
If in doubt, delay drilling. It's never too late to do that. But it's quite painful to close an extra hole.
If in doubt, delay drilling. It's never too late to do that. But it's quite painful to close an extra hole.
6
It is better to drill pipes for rods on an already assembled structure.
7
Cut in size large diameter tubes [280... 225mm].
8
Butt weld the load bearing columns.
9
Cut in size the rest of the pipes. Including windows for monolithic concreting of through whips.
10
Prepare the reinforcing frames for the tubes. Insert them inside the beams.
11
Assemble the future vertical planes of the structure without fixation and in a supine position.
12
After you have made sure that the plane has successfully assembled - level up it "to size" and fix all its beams with an extruder and permanent fasteners [rivets, anchors].
13
Place the planes in the working [vertical] position. In the order they will stand in the final structure.
Make sure that all the planes are assembled into a level!
Make sure that all the planes are assembled into a level!
14
Add the armpacks of the load bearing columns.
15
Insert all remaining pipe beams. Preferably first on temporaly fasteners (self-tapping screws).
16
Make sure that everything is assembled to the level and size. Finally fix all beams with an extruder and/or with permanent fasteners.
17
Drill out the binary sockets for composite rods. Place the brace rods. Secure the rods with hot-melt adhesive or preferably with aluminum press sleeve.
18
Add an external reinforcement made of lumber, if necessary.
19
Select and drill holes in one or more flanges for the concrete duct.
20
Optional: Weld a concrete ductwork.
21
Frequently asked questions
Its reinforced concrete 3D truss casted under presdure into a disposable PE formwork under water.
Consist of original nodes [fittings] and beams [PE tubes].
Consist of original nodes [fittings] and beams [PE tubes].
We sell technology. In a narrow sense, we only sell fittings = connecting nodes of the 3D truss. Beams are made from standard plumbing pipes and fittings; concrete, rebar and microfiber are also common products and purchased separately.
An empty formwork is assembled on the shore, and later is moved to site [into aquatoria] by a crane or barge. A concrete pipe [or a trunk] must be connected to one of the flanges [5½" groovelock] in advance. Concreting is carried out under water.
Concrete has a density of about 1800 kg/m3 and can displace water from the formwork if concreting is carried out "from bottom to top" and with some overflow. Accordingly, the concrete pipeline must be connected to the bottom point of the structure.
Floats for a while if composite reinforcement is used. Sinks immediately if steel reinforcement is used. Steel rebar has better load performance, but greatly reduce lifespan of 3D truss.
Beams reinforced by rebar assemblies in advance. Rebar placed inside pipes during formwork assembly. An empty formwork with rebar inside the pipes is concreted on site.
All HYDRANTULA designs are scalable. They don't have a fixed 3D cell size, is there only a constant aspect ratio.
The final dimensions are chosen by the customer, according to their needs and the characteristics of the site.
The final dimensions are chosen by the customer, according to their needs and the characteristics of the site.
We are seriouse about yours privacy. And do not trade any personal data.
Feedback
Get in touch with our team
Сообщение об успешной отправке!
Our blog
Products
Hydrantula
whatsup
Email
Advanced shore armouring, seawall and affordable marine construction
Sales@hydrantula.com