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Construction method - メーカー・企業39社の製品一覧とランキング

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Construction methodのメーカー・企業ランキング

更新日: 集計期間:Jul 23, 2025~Aug 19, 2025
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  1. フルサト工業 Osaka//Building materials, supplies and fixtures 建材開発部
  2. スワロー工業 Niigata//Building materials, supplies and fixtures
  3. null/null
  4. 4 null/null
  5. 5 null/null
企業ランキングへ

Construction methodの製品ランキング

更新日: 集計期間:Jul 23, 2025~Aug 19, 2025
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  1. Solar Mounting System D-SWAT SAMURAI Replacement Method スワロー工業
  2. Dye Q reinforcement method *Repairs for missing areas and anti-corrosion processing are also available!
  3. Corner steel pipe column on-site no-welding joint method 'Column Coupler' フルサト工業 建材開発部
  4. 4 Rapid-curing polyurethane spray waterproofing method "Rim Spray"
  5. 5 Heat Exchange Tube Sealing Method "Mechanical Plug - Pop-A-Plug"

Construction methodの製品一覧

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[Construction Example] Logistics Center: Outdoor Concrete Floor Settlement Correction / Underfloor Void Filling Work

[Construction Example] Logistics Center: Outdoor Concrete Floor Settlement Correction / Underfloor Void Filling Work

Correction of the deflection in the slope section! A case where it was possible to adjust to a straight slope without any discomfort.

We would like to introduce a case of "outdoor floor subsidence correction" and "underfloor void filling work" carried out at a logistics center in Okayama Prefecture. The sloped area at the entrance of the building was sagging due to ground subsidence, so we adopted the Upcon method, which allows for quick correction of the sagging to avoid disrupting normal operations. After construction, we were able to almost eliminate the central sagging area and correct it to a straight slope without any discomfort. 【Case Overview】 ■ Construction Area: Approximately 410m2 ■ Maximum Subsidence: 93mm ■ Maximum Void: 150mm ■ Area: Logistics center located in Okayama Prefecture ■ Construction Period: 4 days *For more details, please refer to the PDF document or feel free to contact us.

  • Other contract services

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[Construction Example] Construction without moving the rack: Warehouse subsidence correction (Fukushima Prefecture)

[Construction Example] Construction without moving the rack: Warehouse subsidence correction (Fukushima Prefecture)

No need to remove heavy racks or machinery! Here’s an example of a case that was corrected in just 4 days.

We would like to introduce a case of settlement correction implemented at a warehouse located in Fukushima Prefecture. Due to the impact of the Great East Japan Earthquake that occurred in 2011, gradual settlement progressed over the years, leading to the onset of floor sagging and tilting inside the warehouse. Inclination also developed in the areas where racks were installed. This caused issues such as the forklift forks not fitting properly, resulting in "longer loading and unloading times," which disrupted operations and caused difficulties. For this construction project, we adopted the Upcon method, which allows for construction without moving heavy racks within a short construction period. We were able to correct an area of approximately 1250m2 in just 4 days (with a maximum settlement amount of approximately 78mm). 【Case Overview】 ■ Construction Area: Approximately 1250m2 ■ Maximum Settlement Amount: 78mm ■ Location: Warehouse in Fukushima Prefecture ■ Construction Period: 4 days *For more details, please refer to the PDF document or feel free to contact us.

  • others

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Groundwater lowering method associated with large-scale excavation work for the construction of sewage treatment facilities.

Groundwater lowering method associated with large-scale excavation work for the construction of sewage treatment facilities.

Adopting "SWP" for groundwater level lowering methods associated with excavation work! Contributing to dry work.

At the Hachioji Water Reclamation Center in the middle reaches of the Tama River, the "Super Well Point Method" was adopted for groundwater lowering techniques in conjunction with the construction of a new treatment facility (western water treatment facility). By selectively operating based on excavation depth and groundwater lowering conditions, the groundwater level remained relatively stable overall. At this time, the pumping volume was also stable, and while maintaining this state, the excavation of the lowest floor was carried out. It was confirmed that there was no spring water at the floor level and that it was in a dry state, indicating that the groundwater level at the excavation surface had been lowered to a significant depth. [Summary] ■ Test site: Hachioji Water Reclamation Center located on the right bank of the middle reaches of the Tama River ■ Adopted method: Super Well Point Method ■ Purpose: Groundwater lowering technique during excavation work *For more details, please refer to the PDF document or feel free to contact us.

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

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Measures against bulging and condensate related to the reconstruction work of the cleaning plant.

Measures against bulging and condensate related to the reconstruction work of the cleaning plant.

Introducing examples of adopting the "SWP method" and "VPRW method" for factory reconstruction work.

In the reconstruction work of the Nerima Cleaning Plant of the Tokyo 23 Wards Cleaning Administrative Union, the "Super Well Point Method" and the "Vacuum Press Type Recharge Well Method" were adopted as measures against heaving and dry work, as well as for the treatment of pumped groundwater. As a result of using these two methods, the water levels of confined groundwater and free water were lowered to the target level, preventing heaving and allowing excavation to proceed with dry work. Additionally, the pumped groundwater was able to be recharged through recharge wells. Furthermore, there was no decrease in the groundwater level in the shallow layer outside the retaining wall. [Overview] ■ Site: Reconstruction of the Nerima Cleaning Plant of the Tokyo 23 Wards Cleaning Administrative Union ■ Purpose and Methods - "Super Well Point Method" as a measure against heaving and dry work - "Vacuum Press Type Recharge Well Method" for the treatment of pumped groundwater *For more details, please refer to the PDF document or feel free to contact us.

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

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Groundwater Lowering Method in the Foundation Works of Flood Control Gate

Groundwater Lowering Method in the Foundation Works of Flood Control Gate

Lower the groundwater level using the SWP method! It is also possible to pump out deep groundwater to reduce pressure!

The "Super Well Point Method" has been adopted for the foundation construction of a water gate associated with the construction of a seawall along the Pacific coast of the Tohoku region. This method was selected due to the plan to temporarily close off the area around the water gate foundation and conduct water replacement work as a countermeasure against the occurrence of piping phenomena. With its high pumping capacity and structure that collects water from the bottom of the well, this method not only lowers the groundwater level by pumping out groundwater but also reduces the pressure of deep groundwater. 【Overview】 ■ Location: Pacific coast of the Tohoku region ■ Construction content: Seawall construction ■ Adopted method: Super Well Point Method *For more details, please refer to the PDF document or feel free to contact us.

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

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The mechanism of saponification sanitation method.

The mechanism of saponification sanitation method.

A technology that converts waste oil into soap and water for drainage! It allows for complete cleaning from the tank to the basket.

We would like to introduce the "Saponification Sanitation Method" that we are implementing. Using a portable pump, we suction the waste oil and water from the grease trap, mixing it with a dedicated saponification chemical to promote the "saponification reaction." As the oil is transformed into soapy water and continuously discharged back into the grease trap, eventually the interior of the grease trap will be filled solely with soapy water, allowing for the complete cleaning from the tank to the basket. [Features] ■ Technology that transforms waste oil into soapy water for drainage ■ Promotes the "saponification reaction" to convert oil into soapy water ■ Capable of cleaning completely from the tank to the basket *For more details, please refer to the related links or feel free to contact us.

  • Food environmental hygiene/contamination prevention equipment

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Reduction of hygiene management costs by changing from the vacuum method [Restaurant case study]

Reduction of hygiene management costs by changing from the vacuum method [Restaurant case study]

Increase profits through annual cost reduction! Introducing case studies from the restaurant industry.

To Restaurant T, we would like to introduce a case study of our saponification sanitation method "Gripika." Before implementation, due to the high volume of oil-based dishes served, grease accumulated inside the grease trap, leading to costly regular sanitation management using vacuum methods. After implementing our method, the cost per cleaning session decreased, and the frequency of cleaning reduced, resulting in a 30% reduction in sanitation management costs, and the area became cleaner. [Case Summary] ■ Before Implementation: Regular sanitation management using vacuum methods at a high cost ■ Implementation Effects - Decreased cost per cleaning session and reduced cleaning frequency - Approximately 30% reduction in sanitation management costs - Cleaner than before *For more details, please refer to the PDF document or feel free to contact us.

  • Other cleaning tools

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Let's cherish Japan's landscapes! How about creating a photogenic spot in a beautiful location?

Let's cherish Japan's landscapes! How about creating a photogenic spot in a beautiful location?

Install bridges such as decks, girder bridges, and suspension bridges, as well as wooden paths and stairs, to become part of the landscape! We can also fulfill requests to create observation decks on steep slopes in the mountains.

Japan has many breathtaking landscapes that leave you in awe. However, the ground on Earth is diverse, ranging from soft ground like wetlands to hard rock formations, and there are both flat surfaces and steep slopes. Additionally, due to the variety of flora and fauna, construction that places a burden on the natural environment can potentially destroy these landscapes. The environmentally conscious simple foundation method, "Ecology Foundation," offers various foundation shapes tailored to different ground types and uses, making it possible to install walkways and decks in areas that were previously difficult to construct. Bridges such as decks, beam bridges, and suspension bridges, as well as walkways and stairs, have been installed, becoming part of the landscape. 【Product Lineup】 ■ Doozer Wood Recycled wood that is resistant to UV rays and rainwater, and does not decay. ■ Luminous Wood Features a glow-in-the-dark line that gently shines at dusk. ■ GRP Glass Reinforced Plastic Excellent weather resistance/lightweight material/extends the lifespan of facilities. ■ Civic Art Furniture ★ Exhibiting at "Tourism EXPO Japan 2024"! Please check the basic information for details. *For more information, please contact us or download the PDF.

  • wood

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Innovative construction method! HDD method (Guided Horizontal Drilling) TerraJet

Innovative construction method! HDD method (Guided Horizontal Drilling) TerraJet

Piping and wiring burial system! Avoid obstacles with vertical and horizontal curves! Reduce total costs! "Challenging the creation of lifelines that run through the Earth and underground!"

With the acceleration and advancement of urban functions, the development of various lifelines such as water supply and drainage, electricity, gas, and communications is becoming increasingly important. The HDD method (Horizontal Directional Drilling) / TerraJet is a construction method for burying pipes and cables without excavation, which reduces traffic disruption and soil disposal issues. It allows for clean and safe construction by detecting the construction position from the ground while advancing in a curved direction both vertically and horizontally. Additionally, it eliminates the need for traditional shaft construction, allowing for simpler shafts, which shortens the construction period and reduces total costs. In recent years, as disasters have become more severe and lifelines have aged, the renewal and seismic retrofitting of aging pipes have been promoted from the perspective of improving disaster resilience. The HDD method (Horizontal Directional Drilling) / TerraJet is gaining attention as a method for burying water supply and drainage pipes, gas pipes, power cables, and communication lines underground. 【Features】 - Flexibility and adaptability - Shortened construction period - Economically low cost - Harmony with the natural environment - Safety For more details, please contact us or download the catalog.

  • others

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Innovative construction method! HDD method (Guided Horizontal Drilling) TerraJet

Innovative construction method! HDD method (Guided Horizontal Drilling) TerraJet

Piping and wiring burial system! Avoid obstacles with vertical and horizontal curves! Reduce total costs! "Challenging the creation of lifelines that run through the Earth and underground!"

With the acceleration and advancement of urban functions, the development of various lifelines such as water supply and drainage, electricity, gas, and communication is becoming increasingly important. The HDD method (Horizontal Directional Drilling) / TerraJet is a construction method that allows for the installation of pipes and cables without excavation, reducing traffic disruption and soil disposal issues. It enables clean and safe construction by detecting the installation position from the surface while advancing in a curved direction both vertically and horizontally. Additionally, since traditional shaft construction is not required and a "simple shaft" suffices, construction periods can be shortened, leading to reduced total costs. In recent years, as disasters have become more severe and lifelines have aged, the renewal and seismic retrofitting of aging pipes have been promoted from the perspective of improving disaster resilience. The HDD method / TerraJet is gaining attention as a technique for burying water supply and drainage pipes, gas pipes, electric cables, and communication lines underground. 【Features】 - Flexibility and adaptability - Shortened construction period - Economically low cost - Harmony with the natural environment - Safety For more details, please contact us or download the catalog.

  • others

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