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Construction methodのメーカー・企業ランキング

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  1. 三和グランド Tokyo//Building materials, supplies and fixtures
  2. アップコン 沈下修正の専門家【全国対応】【本社】神奈川県川崎市【事務所】札幌・仙台・名古屋・大阪・福岡 Kanagawa//others
  3. 第一カッター興業 本社 Kanagawa//others
  4. 4 シャープ化学工業 大阪本社 Osaka//Chemical
  5. 5 ラスコジャパン Hyogo//Building materials, supplies and fixtures
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Construction methodの製品ランキング

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  1. No paint leaks from the gaps in the protective covering! Edge painting protective method LCL method. シャープ化学工業 大阪本社
  2. Permeable blast furnace slag paving material "Color Sand" 三和グランド
  3. TerraTech method for correcting tilts, subsidence, and level differences in floors and buildings: Case study collection giveaway. メインマーク 【全国対応】/東京・大阪・札幌・仙台・新潟・金沢・名古屋・福岡
  4. SC pile stud method 武蔵野
  5. 4 Foundation construction method without using concrete: "Screw Pile Foundation Method" フクユー緑地

Construction methodの製品一覧

181~210 件を表示 / 全 347 件

表示件数
[Construction Case] Slab Foundation House: Settlement Correction Work (Gifu Prefecture)

[Construction Case] Slab Foundation House: Settlement Correction Work (Gifu Prefecture)

A maximum subsidence of 48mm occurred due to ground subsidence! Here we present a case of correcting subsidence within a short construction period of two days.

We would like to introduce a case of "settlement correction work" carried out at a certain house with a flat foundation in Gifu Prefecture. There was a request to perform settlement correction before the exterior wall work, and we were contacted by the client. We injected resin under the flat foundation to correct the settlement, completing the work in two days. 【Case Overview】 ■ Construction Area: Approximately 36m² ■ Maximum Settlement Amount: 48mm ■ Area: Gifu Prefecture ■ Construction Period: 2 days *For more details, please refer to the PDF document or feel free to contact us.

  • Other contract services
  • Exhibition planning/construction
  • Calibration and repair
  • Construction method

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[Construction Example] Elementary School (Classroom): Floor Sunken Correction Work and Deflection Correction Work

[Construction Example] Elementary School (Classroom): Floor Sunken Correction Work and Deflection Correction Work

Due to ground subsidence, the classroom floor has sagged! The floor subsidence was corrected in a short work period of one day.

We would like to introduce a case of "sunken floor correction work and deflection correction work" carried out in a classroom of an elementary school in Tokyo. Due to ground subsidence, a maximum of 80mm of sinking occurred in the center of the floor, causing deflection. Concerns for safety and health rendered the classroom unusable. We corrected the sunken areas of the classroom floor from the outer edges towards the center, reducing the sinking to -10mm. The deflection of the classroom floor was resolved, and the work was completed. 【Case Overview】 ■ Construction Area: 63m2 ■ Maximum Subsidence: 80mm ■ Construction Period: 1 day ■ Area: Tokyo *For more detailed information about the case, please refer to the related links. For further details, please check the PDF materials or feel free to contact us.

  • Other contract services
  • Construction method

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[Construction Process Video] Elementary School (Gym Floor): Settlement Correction Work

[Construction Process Video] Elementary School (Gym Floor): Settlement Correction Work

The gymnasium floor that has sunk and warped due to an earthquake and ground subsidence! Short construction period correction using the Upcon method.

We would like to introduce a video of the correction of the sinking floor in the gymnasium of an elementary school located in Miyagi Prefecture. The floor of the gymnasium has significantly sunk due to earthquakes and ground subsidence. This video explains the construction process of the Upcon method used in the gymnasium. The construction area is 665m2, and the construction period is 6 days. Please take a look. 【Site Information】 ■ Construction Area: 665m2 ■ Construction Period: 6 days ■ Maximum Sinking Amount: 133 ■ Maximum Void Amount: 90mm ■ Area: Miyagi Prefecture *For more detailed information, please refer to the related links. For more details, please check the PDF materials or feel free to contact us.

  • Other contract services
  • Construction method

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[Construction Case] Elementary School (Classroom): Settlement Correction Work

[Construction Case] Elementary School (Classroom): Settlement Correction Work

Concerns about children's safety and health! A case of correcting floor sagging in the classroom within a short construction period.

We would like to introduce a case where we performed "subsidence correction work" in an elementary school classroom in Miyagi Prefecture. In this classroom, floor sagging occurred due to ground subsidence, raising concerns about the safety and health of the children. We raised the floor using the foaming pressure of polyurethane resin, correcting the maximum subsidence from -112mm to the planned value of -22mm. [Case Overview] ■ Construction Area: 1406m2 ■ Maximum Subsidence: 112mm ■ Construction Period: 6 days ■ Area: Miyagi Prefecture *For more details about the case, you can view it through the related links. For more information, please refer to the PDF materials or feel free to contact us.

  • Other contract services
  • Construction method

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[Construction Case] Elementary School: Filling Work for Gaps Under the Concrete Floor + Correction Work for Concrete Floor Settlement

[Construction Case] Elementary School: Filling Work for Gaps Under the Concrete Floor + Correction Work for Concrete Floor Settlement

Our company can offer construction proposals tailored to your needs, such as work scheduled to align with school events!

We would like to introduce a case of "subfloor void filling work + subfloor settlement correction work" carried out at an elementary school in Miyagi Prefecture. Due to the impact of the Great East Japan Earthquake, settlement occurred in various areas within the school, including classrooms, the health room, the principal's office, and the gymnasium. The construction area was approximately 530m2, with a maximum settlement of 71mm and a maximum void volume of 250mm. 【Case Overview】 ■ Construction Area: Approximately 530m2 ■ Maximum Settlement: 71mm ■ Maximum Void Volume: 250mm ■ Area: Aijima Elementary School in Natori City, Miyagi Prefecture ■ Construction Period: August 2013 *For more detailed information about the case, please refer to the related links. For further details, please check the PDF materials or feel free to contact us.

  • Other contract services
  • Construction method

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[Construction Case] Middle School (Gymnasium): Floor Settlement Correction Work

[Construction Case] Middle School (Gymnasium): Floor Settlement Correction Work

Short-term repairs to the middle school gymnasium! Injecting urethane resin to ensure there is no strain on the concrete floor.

We would like to introduce a case of "floor sinking correction work" that we conducted. Due to the Kumamoto earthquake, a gymnasium at a junior high school in Kumamoto Prefecture sank. Because it could be corrected in a short time, we received a request for construction. The area of the sinking correction was approximately 897m2. The maximum sinking amount was 53mm, and the planned correction value was within -10mm. The construction period was 7 days. 【Case Overview】 ■ Area of sinking correction: Approximately 897m2 ■ Maximum sinking amount: 53mm ■ Planned correction value: Within -10mm ■ Area: Junior high school gymnasium, Kikuchi District, Kumamoto Prefecture ■ Construction period: 7 days *For more details about the case, you can view them through the related links. For more information, please refer to the PDF document or feel free to contact us.

  • Other contract services
  • Construction method

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[Construction Case] Elementary School: Floor Settlement Correction Work and Underfloor Void Filling Work

[Construction Case] Elementary School: Floor Settlement Correction Work and Underfloor Void Filling Work

The floor has sunk due to consolidation settlement! Voids (cavities) can be seen under the floor, and construction will be carried out by our company.

We would like to introduce a case where we performed "floor sinking correction work" and "underfloor void filling work." The construction site was an elementary school located in Gifu Prefecture. Due to consolidation settlement, the floors of the classrooms and art rooms in the school had sunk, and voids (cavities) were also observed under the floor. The area of the sinking correction was approximately 83m², with a maximum sinking amount of 64mm. Additionally, the maximum void amount was 40mm, and the construction period was 2 days. 【Case Overview】 ■ Area of sinking correction: Approximately 83m² ■ Maximum sinking amount: 64mm ■ Area of void filling: Approximately 165m² ■ Maximum void amount: 40mm ■ Area: Elementary school in Gifu Prefecture ■ Construction period: 2 days *For more detailed information about the case, please refer to the related links. For more details, please check the PDF materials or feel free to contact us.

  • Other contract services
  • Construction method

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[Construction Case] Nursing Facility: Sunken Floor Correction Work

[Construction Case] Nursing Facility: Sunken Floor Correction Work

Up to 60mm of subsidence in the central Slavic region! Ground compaction reinforcement with the foaming pressure of polyurethane resin.

Here is an example of "floor sinking correction work" carried out at a nursing care facility located in Shizuoka Prefecture. Due to weak ground, ground subsidence occurred, resulting in sinking floors within the facility. During a preliminary survey, a maximum subsidence of 60mm was observed at the center of the slab, and a gap of 50mm was confirmed near the beams. Using the foaming pressure of polyurethane resin, the ground was compacted and reinforced, filling the gaps between the slab and the ground, while simultaneously correcting the floor sinking. 【Case Overview】 ■ Construction Area: Approximately 60m2 ■ Location: Nursing care facility in Shizuoka Prefecture ■ Construction Period: 1 day *For more detailed information about the case, please refer to the related links. For further details, please check the PDF materials or feel free to contact us.

  • Other contract services
  • Construction method

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【Warehouse/Factory】Correcting floor tilt, unevenness, and voids under the floor in as little as one day.

【Warehouse/Factory】Correcting floor tilt, unevenness, and voids under the floor in as little as one day.

[Factory/Warehouse] Correcting the tilt of concrete floors and voids beneath the floor caused by ground subsidence in as little as one day without stopping operations! Patented unique method!

■The cargo in the warehouse is not stacked straight. ■There are uneven surfaces that hinder the movement of forklifts. ■The equipment, such as racks, is tilted. ■Abnormal operation is observed in the automatic racks. ■The transport robot has stopped. ■The level of the machinery cannot be secured. The patented unique method called [Upcon Method] uses polyurethane resin to resolve issues caused by floor tilting, unevenness, and sagging due to earthquakes or ground subsidence, as well as voids formed under the floor, with corrections possible in as little as one day. [What is the Upcon Method?] By injecting polyurethane resin into existing concrete floors that have subsided, it compresses and strengthens the ground with pressure that expands in a short time while pushing up the concrete floor for correction. Since it corrects without demolishing the existing concrete floor, it significantly reduces construction time. The polyurethane can lift the floor with an expansion pressure of up to 10 tons per square meter, eliminating the need to move heavy equipment or products. Therefore, corrections can be made without stopping the operations of factories or warehouses. ▼We will exhibit at the [International Logistics Comprehensive Exhibition 2024]. Date: September 10 (Tuesday) to 13 (Friday), 2024 Venue: Tokyo Big Sight, East Exhibition Hall Booth Number: 7-808

  • Calibration and repair
  • Construction method

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i.MX 8X-based SoM "ConnectCore 8X"

i.MX 8X-based SoM "ConnectCore 8X"

Connected embedded system on module for industrial IoT applications based on NXP i.MX 8X.

The ConnectCore 8X is an intelligent connected embedded system on module based on the NXP i.MX 8X, featuring scalable dual/quad-core performance for industrial IoT applications. Built on the NXP i.MX 8X application processor, this module serves as an intelligent communication engine for the latest secure connected devices. The ConnectCore 8X supports immediate development of streaming video/audio devices, voice control, and general human-machine interface solutions. With numerous high-performance connectivity options, including 1 x USB 3.0 port, dual gigabit Ethernet, PCIe 3.0, and certified dual-band 2x2 MU-MIMO WLAN, the ConnectCore 8X is ideal for the development of diverse embedded and IoT applications.

  • Communications
  • Construction method

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NF base "S-22 (for DIN rail mounting)"

NF base "S-22 (for DIN rail mounting)"

Devices with a 4-point stop can also be installed! With springs, installation on DIN rails has become easier.

The S-22 is a base for mounting noise filters, capacitors, stabilized power supplies, resistors, sequencers, etc., on a DIN 35mm rail. Equipment can be freely screwed in with a mounting pitch of 25mm to 85mm (S-22-3 is 39mm to 73mm) using the included slide nuts. Mounting to the DIN rail is securely fixed with just one screw. 【Lineup】 ■ S-22-3-3C ■ S-22-4-3C ■ S-22-5-3C *For more details, please refer to the PDF document or feel free to contact us.

  • Assembly Jig
  • Construction method

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Purification of soil and groundwater contamination using the Sukkara-Kan method.

Purification of soil and groundwater contamination using the Sukkara-Kan method.

Purification of soil and groundwater contamination using the Sukkarakan method.

The Sukkarakan Method (hereinafter referred to as the SKK Method) is a technology that applies the Super Well Point Method (hereinafter referred to as the SWP Method), which is a groundwater lowering technique. It is utilized for "ground improvement" and "purification of soil and groundwater contamination" as a technology for recovering groundwater and underground air. In the purification of soil and groundwater contamination, it is positioned as an in-situ purification technology that recovers and treats harmful volatile substances such as benzene (including oil components) and VOCs from the ground. ◎ For more details, please download and view the catalog.

  • Food environmental hygiene/contamination prevention equipment
  • Construction method

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Paper on the SKK Method

Paper on the SKK Method

Improvement of soil quality in soft excavation soil using the gap water suction method (SKK method).

The "Tajiri District Drainage Channel No. 3 Construction" is a project to construct a road tunnel with an excavation length of 134 meters, located in the Tajiri Takaya area of Ichikawa City, Chiba Prefecture, near the Tokyo Metro Tozai Line. The tunnel will be built using an open-cut method with an excavation width of approximately 30 meters and a depth of about 15 meters. Due to concerns about insufficient trafficability and worsening construction conditions during soil removal, the project employs the SKK method, which combines the Super Well Point (SWP) method with suction pipes to improve soil quality by extracting pore water and underground air from the soft ground, thereby addressing these issues. The "Paper on the SKK Method" reports the results of confirming the applicability of the SKK method for soil improvement through trial construction and actual construction. [Contents] - Overview of the SKK Method - Confirmation of soil improvement effects through on-site trial construction - Application results of the SKK Method (verification in actual construction) For more details, please contact us or download the catalog.

  • others
  • Construction method

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Comparison of Groundwater Lowering Methods

Comparison of Groundwater Lowering Methods

High pumping capacity! A comparison of the Super Wellpoint method and other groundwater lowering methods.

This document compares three groundwater lowering methods: the "Super Well Point Method," the "Deep Well Method," and the "Well Point Method." It provides detailed information on each method, including an "Overview Diagram," "Principles (Pumping Methods)," and "Advantages and Disadvantages." The Super Well Point Method is effective not only for lowering groundwater levels but also for countermeasures against bulging, promoting consolidation, and landslide prevention. It is often adopted as a widespread groundwater lowering method for facilities such as adjustment ponds. We encourage you to read it. [Contents] ■ Methods (Function Distribution) ■ Overview Diagram ■ Principles (Pumping Methods) ■ Supplementary Principles ■ Advantages and Disadvantages *For more details, please refer to the PDF document or feel free to contact us.

  • Vacuum pump
  • Water treatment equipment
  • Other water treatment equipment
  • Construction method

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Overview of the A&S Method

Overview of the A&S Method

Low cost, shortened construction period! Apply compressive force to weak ground to increase strength.

The "A&S Method" is a consolidation dewatering method that adds embankment to the ground improvement method "SKK Method," which enhances the groundwater recovery capacity. Since the ground that has been vaporized under vacuum has minimal subsidence as it is, compressed air is sent to the sand layer surface using a large compressor, generating uplift pressure from the air pressure. The step-type Qin-TAKO compresses the cohesive soil directly and uniformly. By reducing the water content ratio through air blowing and then vaporizing the entire area under vacuum, compression subsidence is achieved due to atmospheric pressure and embankment weight. The reduction in water content ratio and compression subsidence can increase the strength of the ground. 【Features】 ■ Low cost ■ Short construction period (approximately 3 months) ■ No restrictions on construction speed during embankment *For more details, please refer to the PDF materials or feel free to contact us.

  • others
  • Construction method

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A&S Method Case Studies

A&S Method Case Studies

A detailed explanation of Asahi Techno's ground improvement technology with examples!

This document provides a detailed explanation of the ground improvement technology developed as one of the methods of consolidation dewatering, known as the "SKK Method." It includes examples of consolidation dewatering using the SKK Method in residential areas in the Kanto region where foundation work has been carried out. [Contents] ■ Ground improvement technology using the SKK Method ■ Overview of consolidation dewatering methods ■ Overview of the SKK Method ■ Examples of consolidation dewatering using the SKK Method ■ Issues *For more details, please refer to the PDF document or feel free to contact us.

  • others
  • Construction method

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Application technology of SWP method: Screen for boiled drainage and suction-type small well.

Application technology of SWP method: Screen for boiled drainage and suction-type small well.

Introduction to the application technology of the Super Well Point Method.

This document features the "Kamaage Drainage Screen" and "Suction Small Well," which apply the technology of the SWP method. It introduces screens effective in preventing clogging, such as "Light-KAMA (fine sand compatible)," as well as wells like "Qin-KAMA (self-priming shallow well type)" that utilize vacuum suction through negative pressure propagation based on SWP method technology. [Contents] ■ Light-KAMA (fine sand compatible) ■ Heavy-KAMA (wire-wound screen) ■ Qin-KAMA (self-priming shallow well type) ■ Qin-KAMA-T (wide-range self-priming shallow well type) *For more details, please refer to the PDF document or feel free to contact us.

  • others
  • Construction method

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Soil remediation methods (washing, classification, magnetic separation, froth flotation, extraction, etc.)

Soil remediation methods (washing, classification, magnetic separation, froth flotation, extraction, etc.)

Rich track record! Addressing soil and underground contamination with a variety of combinations!

Responding to soil and underground contamination with a variety of combinations! DOWA Ecosystem's soil purification business conducts a comprehensive process from investigation to purification treatment and monitoring. We assess all conditions comprehensively to select the optimal treatment methods such as soil washing, chemical/thermal decomposition, and biodegradation. We address not only heavy metals but also VOCs (volatile organic compounds), oil contamination, as well as buried waste and complex contamination. ■□■Features■□■ ■ A reliable and reassuring support system due to the ability to handle everything from investigation to purification consistently ■ Conducting investigations with a focus on purification design ■ Advanced simulation analysis by geological specialists ■ Support for risk management ■ In addition to nationwide operations, we also widely respond to overseas investigations ■ For more details, please download the catalog or contact us.

  • Hazardous material processing
  • Other services
  • Construction method

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EMC woodworking sunken bed unit construction method

EMC woodworking sunken bed unit construction method

Use of domestically sourced thinning wood (legal timber)! A woodworking sunken floor unit method that can be assembled by ordinary workers.

The "EMC Woodworking Sunken Floor Unit Method" is a construction method that involves transporting and installing a frame structure that does not require on-site assembly. It can be assembled by ordinary workers without the need for skilled craftsmen such as formwork workers. It achieves the continuity required between adjacent frame structures and ensures that the filling stones placed in the frame do not spill out. It addresses issues to keep transportation costs, manufacturing costs, and assembly costs low. 【Features】 ■ Uses domestically sourced thinned wood (legally sourced timber) ■ A type that transports and installs frame structures that do not require on-site assembly ■ Can be assembled by ordinary workers without the need for skilled craftsmen such as formwork workers ■ Addresses issues to keep transportation costs, manufacturing costs, and assembly costs low *For more details, please refer to the PDF document or feel free to contact us.

  • others
  • Construction method

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Weed Control Method "Tsuru Guard Method" / NETIS Registration

Weed Control Method "Tsuru Guard Method" / NETIS Registration

A weed control method to prevent the invasion of climbing weeds and their entanglement with fall prevention fences for an extended period.

This is a weed control method that combines a weed prevention sheet and net, specifically designed to tackle the difficult-to-remove vine weed "Kuzu." It prevents the invasion of "Kuzu" onto sidewalks and entanglement with fall prevention fences for an extended period. Achieves a cost of less than 10,000 yen per meter. <NETIS Registration> NETIS Registration Number: KT-170031-VR 【Features】 ■ Prevention of Overcoming Fences Even when "Kuzu" entangles with tall weeds like Miscanthus or Solidago altissima, it prevents overcoming the fence. ■ Prevention of Crawling Out from Under the Fence Even if "Kuzu" reaches under the net, it will not crawl out onto the sidewalk. ■ Prevention of Rooting and Clinging By laying down the weed prevention sheet, it prevents the rooting and clinging of the vine. Even if "Kuzu" accumulates on the sheet, it can be easily peeled off. * The vine guard method includes a "10-year durability vine guard method" and a "high-durability vine guard method" with 20 years of durability. * For more details, please download the PDF or feel free to contact us.

  • others
  • Construction method

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Weed Control Method "High Durability Climbing Guard Method" / NETIS Registered

Weed Control Method "High Durability Climbing Guard Method" / NETIS Registered

A weed control method that prevents the invasion of climbing weeds and entanglement with fall prevention fences for an extended period. Achieves a lifespan of 20 years!

This is a weed control method that combines a weed prevention sheet and net specifically designed to tackle the difficult-to-remove vine weed "Kuzu." It prevents the invasion of "Kuzu" onto sidewalks and entanglement with fall prevention fences for an extended period. Achieves a lifespan of 20 years! <NETIS Registration> NETIS Registration Number: KT-170031-VR 【Features】 ■ Prevention of climbing over fences Even when "Kuzu" entangles with tall weeds like Miscanthus or Solidago altissima, it prevents climbing over the fence. ■ Prevention of crawling out from under the fence Even if "Kuzu" reaches under the net, it will not crawl out onto the pedestrian or roadway side. ■ Prevention of rooting and clinging By laying down the weed prevention sheet, it prevents the rooting and clinging of the vine. Even if "Kuzu" accumulates on the sheet, it can be easily peeled off. * The vine guard method includes a 10-year durability "Vine Guard Method" and a 20-year durability "High Durability Vine Guard Method." * For more details, please download the PDF or feel free to contact us.

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Construction Material Product: Screw-Fixed Anchor for Concrete 'Tap Star'

Construction Material Product: Screw-Fixed Anchor for Concrete 'Tap Star'

Speedy and reliable construction with an impact driver!

The concrete screw anchor "Tap Star" allows anyone to perform quick and easy installation with an impact driver in a short amount of time. It is resistant to cracking at the ends and finishing materials, and height adjustments can be made after installation (unevenness adjustment function). Moreover, it is an environmentally friendly anchor that is free of hexavalent chromium and can be removed when no longer needed.

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[NETIS Registration] Simple Foundation Method 'Pin Foundation'

[NETIS Registration] Simple Foundation Method 'Pin Foundation'

For small-scale structures such as boardwalks and piers. It is an environmentally friendly foundation method. Registered in NETIS.

The pin foundation method is an environmentally friendly foundation technique for small structures (such as wooden paths and piers) that can be implemented in various locations. 【Ideal for such places!】 "Locations where heavy machinery cannot access," "Places where we want to protect the natural environment," "Areas inhabited by rare flora and fauna," "Steep slopes where conventional foundations are difficult to install," "Wetlands where conventional foundations are difficult to install," "Locations where water cannot drain," "Sandy areas where conventional foundations are difficult to install," "Places with important historical sites or valuable trees," "Locations with deep frost penetration," "Places where other foundation methods are challenging." Additionally, the pin foundation method is registered in the new technology information system "NETIS." *For more details, please download the catalog.

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Eco-friendly simple foundation method "Ecology Foundation"

Eco-friendly simple foundation method "Ecology Foundation"

All construction methods are environmentally friendly "Ecology Foundation."

Our pin foundation method has been well received as an environmentally friendly foundation technique from various sectors. We have received many suggestions from our customers about whether it can be used in certain locations or applied to specific structures, leading us to develop various methods. All of these methods can be constructed manually, require minimal ground excavation, and are characterized by their environmental friendliness. Each method we have developed has been given a name, but since all methods are environmentally friendly, we collectively refer to them as "Ecology Foundation." For more details, please download the catalog.

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Simple foundation method for fences, protective barriers, and signs: 'Sleeve Pile'

Simple foundation method for fences, protective barriers, and signs: 'Sleeve Pile'

Lightweight and easy to install, it is ideal for shortening construction time.

"SLEEVE PILE" is a foundation construction method for fences, protective barriers, and signboards. In traditional foundation methods, it was common to embed concrete blocks that had been hollowed out into the ground, but this sleeve pile has a special processing at the tip of the steel pipe, allowing for installation simply by driving it in with a handheld electric tool. There are two types of sleeve piles: the SP-60 type, suitable for foundations of posts with a diameter of 60 mm or less, and the SP-90 type, suitable for posts with a diameter of 90 mm or less. For more details, please download the catalog.

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Simple Foundation Method for Protecting the Natural Environment: 'Pin Foundation'

Simple Foundation Method for Protecting the Natural Environment: 'Pin Foundation'

A new simple foundation construction method that protects the natural environment and is adaptable to soft ground and steep slopes.

The "Pin Foundation" is a foundation method designed for small structures such as wooden paths, Yatsuhashi bridges, and pavilions. In traditional concrete foundation methods, it is common to excavate a large area of ground and transport foundation blocks using heavy machinery. However, this pin foundation method does not use heavy machinery and does not require significant excavation of the ground surface. It is ideal for foundations in locations where heavy machinery cannot be brought in or where it is important to protect the natural environment. Additionally, it can accommodate soft ground (equivalent N value of 0.5 to 2.0) and steep slopes where conventional methods cannot be applied. For more details, please download the catalog.

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Composite of Wood and New Materials" "TIMBER STRUCTURE

Composite of Wood and New Materials" "TIMBER STRUCTURE

Aiming for landscape facilities that are gentle on people and nature, and durable.

Our company has introduced environmentally friendly simplified foundation methods from overseas, which are being adopted nationwide in Japan. The types of simplified foundation methods include the "Pin Foundation Method" for small structures such as wooden paths, Yatsuhashi bridges, and pavilions, and the "Sleeve Pile" foundation method for fences and protective barriers. We have top-class achievements in wooden suspension bridges and wooden bridges, and our number of construction achievements in simplified foundation methods boasts the highest in the industry. Because we have accumulated numerous achievements, we possess know-how that is unmatched by other companies in the same field. For more details, please download the catalog.

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Simple foundation construction method "Pin Foundation"

Simple foundation construction method "Pin Foundation"

This is a simple foundation method to protect important natural environments that are already registered with NETIS.

The pin foundation is a foundation method designed for small structures such as boardwalks, Yatsuhashi bridges, and pavilions. In traditional concrete foundation methods, it is common to excavate a large area of ground and transport foundation blocks using heavy machinery. However, the pin foundation method does not use heavy machinery and does not require significant excavation of the ground surface. It is ideal for foundations in locations where heavy machinery cannot be brought in or where it is important to protect valuable natural environments. Additionally, it can accommodate soft ground conditions (equivalent N values of 0.5 to 2.0) where conventional methods cannot be applied.

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Withstood the typhoon! Ideal for slopes and inclined land! Foundation method for solar power generation.

Withstood the typhoon! Ideal for slopes and inclined land! Foundation method for solar power generation.

Easy installation by simply driving pins into soft ground or slopes with electric tools!

Rasco Japan's "Solar Foundation" is a foundation construction method for solar power generation that can be installed simply by placing fixed blocks at survey points and driving in pins with power tools. Typically, concrete foundations or steel rotary driven piles are used for solar power system foundations, which require ground improvement and securing installation space. However, the "Solar Foundation" eliminates these processes, leading to shorter delivery times and cost reductions. 【Features】 ■ Short delivery time ■ Easy installation ■ Cost reduction ■ No need for ground improvement or land development processes ■ Numerous achievements in public works

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New foundation construction method "Spike Frame Method"

New foundation construction method "Spike Frame Method"

A new foundation method for agricultural greenhouses and simple warehouses using the BGF method, which has obtained a building technology performance certification for soft ground response! Manual construction allows for a shortened construction period.

The "Spike Frame Method" is a simple cloth foundation method suitable for small structures where all foundation installation processes can be performed manually. It uses the Base Ground Foundation (BGF) method, which has obtained GBR performance evaluation, for the main foundation. With unique BGF foundation brackets and four pins, the foundation can be completed in just a few hours. It can quickly adapt to soft ground, and the width of the frame can be easily adjusted to match the columns of the structure. Since there is no need for excavation work with heavy machinery or concrete pouring, it significantly contributes to shortening construction time and reducing costs. [Examples of Use] Vegetable cultivation rooms / Hobby sheds / Greenhouse garden houses / Simple storage, etc. *For more details, please refer to the materials. Feel free to contact us with any inquiries. ★★★ The Base Ground Foundation used in the Spike Frame Method has won the Good Design Award 2019! ★★★

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