Construction method Product List and Ranking from 1586 Manufacturers, Suppliers and Companies | IPROS

Last Updated: Aggregation Period:Mar 11, 2026~Apr 07, 2026
This ranking is based on the number of page views on our site.

Construction method Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Mar 11, 2026~Apr 07, 2026
This ranking is based on the number of page views on our site.

  1. TRAWE main office Saitama//Other construction industries
  2. Taiyo Kisokogyo Co.,Ltd. Aichi//General contractors and subcontractors
  3. null/null
  4. 4 シーカ・ジャパン Tokyo//Building materials, supplies and fixtures manufacturers
  5. 5 エルニード協会 Kagawa//Other construction industries
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Construction method Product ranking

Last Updated: Aggregation Period:Mar 11, 2026~Apr 07, 2026
This ranking is based on the number of page views on our site.

  1. 建物外壁工事 ロープアクセス工法 TRAWE main office
  2. Hybrid Concrete Reinforcement Method "Solid Remain Alpha"
  3. Install the valve without stopping the water! 'EM Continuous Water Valve Method' 水研
  4. 4 Reinforcement of existing beam after hole cutting: "Redouble Method" コンステック
  5. 5 Lining Method for Sewer Facilities "Plascoat E/L" 中外商工

Construction method Product List

151~180 item / All 4272 items

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PC Intermediate Fixing Method "I-Fix"

PC Intermediate Fixing Method "I-Fix"

This is an introduction to the PC intermediate anchoring method that allows for truss replacement work without stopping bridge traffic!

"I Fix" is a construction method developed for the intermediate anchoring of PC steel wire with a diameter of 12φ5mm. By using wedges to anchor the horizontally prestressed PC steel material, the anchoring is completed before cutting the steel material, maintaining the prestress. Additionally, the anchoring device is compact and easy to work with, making construction management simple. It allows for control of the steel tension according to construction specifications. 【Features】 ■ Patent No. 6316864 ■ Anchoring is completed before cutting the horizontally prestressed PC steel material, maintaining prestress ■ The anchoring device is compact and easy to work with, simplifying construction management ■ Steel tension can be controlled according to construction specifications ■ A version compatible with multi-wire 12φ7mm has been introduced ■ Applicable to various types of steel materials *For more details, please refer to the PDF document or feel free to contact us.

  • Bridge Construction
  • Bridge Materials
  • Construction method

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KK grout injection method

KK grout injection method

By injecting KK grout mixed with rust inhibitor, macrocell corrosion is suppressed!

We would like to introduce our "KK Grout Injection Method." In post-tensioned PC structures, when there is a cavity within the sheath through which PC steel materials are inserted, a powdered KK rust inhibitor is pressed into the cavity inside the sheath. Next, grout (KK grout if necessary) is injected into the cavity. This method suppresses the corrosion of PC steel materials through injection. 【Features】 ■ By pressing powdered KK rust inhibitor into the cavity, PC steel materials are protected from rust. ■ By injecting KK grout mixed with the rust inhibitor, macrocell corrosion is suppressed. *For more details, please refer to the PDF materials or feel free to contact us.

  • grout
  • Civil Engineering Method
  • Construction method

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Eco Hammer Random Cycle Hammer

Eco Hammer Random Cycle Hammer

Ultra-low vibration and low noise urban pollution control machine. It is a random cycle hammer.

The random cycle hammer divides the tip bit into 4 to 8 small bits, each activated independently in sequence (with a vertical amplitude of 5mm micro-vibrations), achieving a maximum of approximately 7000 RPM of random ultra-high frequency vertical motion. This micro-vibration impact crushes the material, reducing the drilling area to 1/15 to 1/20 of the entire hammer, significantly lowering vibrations and noise levels. Compared to large-diameter boring machine (B・H) methods, it allows for substantial process shortening and cost reduction. 【Features】 ○ Ultra-low vibration and low noise ○ Urban pollution control machine ○ Uses vegetable oils ○ Environmentally friendly eco-friendly machine ○ NETIS registration number QS-050019-V For more details, please contact us or download the catalog.

  • Bentonite
  • Drilling Machine
  • Rock drills, demolition machines, and excavators
  • Construction method

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Eco-Unit Method for Restoration and Transplantation of Natural Environments

Eco-Unit Method for Restoration and Transplantation of Natural Environments

Eco-Unit Method for Restoration and Transplantation of Natural Environments

☆NETIS Registration☆ This is a groundbreaking method that involves cutting trees, as well as soil microorganisms, soil animals, buried seeds, and seedlings that inhabit and grow in the topsoil, into block shapes for comprehensive transplantation. 【Features】 ○ Significant reduction in forest formation time ○ Possibility of area-wide restoration ○ No restrictions on greening target areas ○ Adaptable to a wide range of vegetation environments from natural forests to grasslands ○ Labor-saving maintenance management such as mulching ● For other functions and details, please download the catalog.

  • Special Construction Method
  • Construction method

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Tosuto Construction Method Series - Tosuto Stone Method

Tosuto Construction Method Series - Tosuto Stone Method

Crushed stone version of permeable water-retaining soil-based pavement, with a hard surface that minimizes the appearance of loose sand.

The "Toastone Method" is a crushed stone version of the Toast Soil Method, which involves mixing additives into the soil to transform it into a granular structure, thereby improving its permeability and water retention. Instead of sandy soil, crushed stone (0-40mm) is used. This method can be utilized in areas where higher strength is required compared to soil-based Toast Soil methods, making it ideal for weed control in mega-solar installations and for suppressing temperature increases due to evaporative heat. 【Features】 ■ The surface is hard, making it difficult for loose sand to emerge. ■ The larger aggregate compared to soil allows for expected strength and good drainage. ■ It is resistant to becoming muddy even when wet and is durable. For more details, please contact us or download the catalog.

  • Special Construction Method
  • Construction method

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Reinforcement of seismic-resistant components: SR-CF method

Reinforcement of seismic-resistant components: SR-CF method

Excellent workability and improved productivity! High reinforcement effect for wall-mounted columns, slab beams, and seismic walls, just like independent columns.

The SR-CF method (Seismic Retrofit by Carbon Fiber Sheet) is a technique that allows for the reinforcement of all seismic components using carbon fiber sheets. By using CF anchors in conjunction, the advantages of carbon fiber sheet reinforcement—such as workability, safety, and quietness—are maintained, while achieving high reinforcement effects for wall-attached columns, beams with slabs, and seismic walls, similar to independent columns. The design and construction guidelines for this method are based on numerous experimental data and have received technical evaluation from the Japan Architectural Disaster Prevention Association. 【Features】 ■ Unlike conventional CF anchors made on-site, this is a factory-manufactured product, ensuring stable quality and eliminating the need to count strands when bundling CF strands. ■ Excellent workability and improved efficiency. ■ Easy to spread CF anchors in a fan shape. ■ Because it is a specially processed CF strand, it is less likely to swell even when resin is impregnated, allowing for construction with smaller hole diameters than conventional methods in through-type installations. *For more details, please refer to the PDF materials or feel free to contact us.

  • Earthquake-resistant construction method
  • Construction method

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Reinforcement of Existing Concrete Structures: Outplate Method

Reinforcement of Existing Concrete Structures: Outplate Method

High bending reinforcement effect and high crack control effect! Suitable for the construction of RC and PC hollow slab bridges.

The Outplate method is a reinforcement technique that involves tensioning a prefabricated CFRP plate (Outplate) with anchoring bodies at both ends, fixing and bonding it to an existing concrete structure. Compared to conventional continuous fiber sheet bonding methods, tensioning the Outplate allows for the introduction of prestress into the concrete. This method achieves significant reinforcement effects with a minimal amount of reinforcement material. Since thin CFRP plates are used as tensioning materials, there is almost no change in the appearance or cross-section after reinforcement, making it particularly suitable for the construction of RC and PC hollow slab bridges. 【Features】 ■ High bending reinforcement effect ■ High crack control effect ■ Recovery of deflection ■ Improved durability ■ Minimal maintenance ■ Reinforcement above the supports of continuous girders is possible from the underside *For more details, please refer to the PDF document or feel free to contact us.

  • Renovation and repair methods
  • Construction method

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Repair and reinforcement method for structures: "Strand Sheet Method"

Repair and reinforcement method for structures: "Strand Sheet Method"

Introducing a groundbreaking method that fundamentally solves the problems associated with traditional continuous fiber sheet bonding techniques!

The "Strand Sheet Method" is a repair and reinforcement technique that processes FRP strands, which are impregnated and cured with resin, into sheet form and adheres them to the surfaces of concrete and steel structures using a specialized adhesive. The specialized adhesive also serves as a primer and leveling material. Since resin impregnation and degassing work are not required, sheets can be applied immediately after surface preparation, resulting in reduced construction time and lower costs. Strand sheets are available in a high-elasticity type with a lineup up to 900g/m2, providing greater reinforcement effects with a single layer compared to the toe sheet method. 【Features】 ■ Short construction time and low cost ■ Significant reinforcement effect ■ Simple and high quality ■ Good construction environment ■ The specialized adhesive is grease-like, preventing resin splatter and other issues *For more details, please refer to the PDF materials or feel free to contact us.

  • Renovation and repair methods
  • Construction method

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Strand Sheet JCM Embedded Method for Floor Slab Reinforcement

Strand Sheet JCM Embedded Method for Floor Slab Reinforcement

We will introduce a reinforcement method for the upper surface of floor slabs using continuous fiber FRP sheets and ultra-rapid hardening mortar!

The "Strand Sheet JCM Buried Method" is a groundbreaking technique that evolves the conventional bonding reinforcement method using continuous fiber sheets on the top surface of slabs. By combining a joint epoxy resin adhesive with a super-fast hardening fiber-reinforced polymer cement mortar and strand sheets, it enables an overwhelming reduction in construction time. Furthermore, since strength is achieved approximately 3 hours after construction, it also allows for a reduction in traffic regulation time. 【Features】 ■ Realizes rapid construction ■ Short curing time ■ Significant reinforcement effect ■ High durability *For more details, please refer to the PDF materials or feel free to contact us.

  • Renovation and repair methods
  • Construction method

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Repair and reinforcement method for structures: "FORCA Tow Sheet Method"

Repair and reinforcement method for structures: "FORCA Tow Sheet Method"

Applicable for the repair of corrosion in steel components! We provide excellent workability, significant repair and reinforcement effects, and high quality.

The "Toshit Method" is a repair and reinforcement technique for steel and concrete structures using continuous fiber sheets. Reinforcement with only resin and carbon fibers prevents rust and is highly effective against salt damage. It offers a high reinforcement effect with high-strength, high-elasticity continuous fibers arranged in one direction. In addition, we also offer repair and reinforcement methods such as the "Strand Sheet Method," which involves attaching sheet-like FRP strands with a special adhesive, and "Toe Anchors." 【Features】 ■ Strong and lightweight continuous fibers ■ High waterproofing properties ■ Simple construction ■ No rust formation ■ Compliant with RC design methods ■ Applicable for repairing corroded steel members *For more details, please refer to the PDF document or feel free to contact us.

  • Renovation and repair methods
  • Construction method

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Repair and reinforcement method for steel structures: "FORCA PL-CF Method"

Repair and reinforcement method for steel structures: "FORCA PL-CF Method"

It is very lightweight and can be easily carried by hand to the site! Carbon fiber does not corrode, making it effective for maintenance management.

The "FORCA PL-CF Method" is a technique for restoring the load-bearing capacity of steel members that have experienced rust progression and a reduction in thickness. By applying a low-elasticity, high-ductility putty material between the steel member and the carbon fiber sheet, the system is designed so that the carbon fiber sheet does not delaminate even when the steel member deforms. This method allows for the application of carbon fiber sheets and strand sheets even on members subjected to compressive and shear forces. 【Features】 ■ Lightweight materials ■ No large tools required for construction ■ Corrosion-resistant ■ Can be processed on-site ■ Does not damage the member *For more details, please refer to the PDF document or feel free to contact us.

  • Renovation and repair methods
  • Construction method

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構造物の補修・補強工法『FORCA(フォルカ)トウプレート工法』

構造物の補修・補強工法『FORCA(フォルカ)トウプレート工法』

簡単施工で大きな補強効果!FRPプレートによるコンクリート構造物の補修・補強工法

『FORCA(フォルカ)トウプレート工法』は、一方向配列の炭素繊維を 熱硬化性樹脂に含浸させ、板状に成型硬化させたCFRPプレートを接着剤で コンクリート表面に貼り付ける補強工法です。 CFRPプレートは炭素繊維シートと比べて単位幅あたりの強度と剛性が 高いので、補修箇所の全面に貼り付ける必要もなく、間隔を空けての 施工も可能。 施工現場で含浸用の含浸・接着剤を使用しないため、上向き施工での 作業者の負担や養生も軽減できます。 【特長】 ■高強度・高剛性 ■1枚でも大きな補強効果 ■上向き作業での「ダレ」から解放 ※詳しくはPDF資料をご覧いただくか、お気軽にお問い合わせ下さい。

  • Renovation and repair methods
  • Construction method

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Repair and reinforcement method for concrete structures: "FORCA Tow Sheet Method"

Repair and reinforcement method for concrete structures: "FORCA Tow Sheet Method"

Introducing repair and reinforcement methods for concrete structures using carbon fiber sheets and aramid fiber sheets!

The "FORCA Tow Sheet Method" is a reinforcement technique that involves simply adhering a unidirectionally arranged continuous fiber sheet, called "Tow Sheet," to the surface of concrete using a room-temperature curing epoxy resin, making it highly effective in terms of workability. It demonstrates a high reinforcement effect without increasing weight, allowing for quick responses to concerns in bridge construction such as seismic reinforcement of bridge piers, accommodating live loads on deck slabs, and reinforcing or preventing spalling in tunnels, chimneys, and other concrete structures, as well as preventing crack progression. 【Features】 ■ Excellent workability in reinforcement methods ■ High reinforcement effect without increasing weight ■ Quick response to reinforcement, spalling prevention, and crack progression prevention in structures *For more details, please refer to the PDF document or feel free to contact us.

  • Renovation and repair methods
  • Construction method

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Case study of the environmentally friendly soil solidification material "Harden M" (4)

Case study of the environmentally friendly soil solidification material "Harden M" (4)

We will introduce a case where surplus sludge generated from bridge pier foundation pile driving work was improved and used for embankment.

We would like to introduce a case study of the soil solidification material "Harden M," which effectively utilizes recycled resources to reduce environmental impact. Excess sludge generated during the construction of bridge pier foundation piles was improved and used for embankment. 【Case Study】 ■ Project Name: Ministry of Land, Infrastructure, Transport and Tourism Chubu Regional Development Bureau Tokai Ring Expressway ■ Delivery Date: From June 2009 ■ Location: Yoro Town, Yoro District, Gifu Prefecture, and others ■ Soil Improvement Material Used: Harden M 3,658 tons ■ Land Condition: High moisture content soft soil *For more details, please refer to the PDF document or feel free to contact us.

  • Other civil engineering services
  • Civil Engineering Method
  • Construction method

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Case study of the environmentally friendly soil solidification material "Harden M" (1)

Case study of the environmentally friendly soil solidification material "Harden M" (1)

Applicable to a wide range of soil types and uses, including the improvement of dredged soil! Here are examples of construction for river dredged soil improvement recycling.

We would like to introduce a case study of the soil solidification material "Harden M," which effectively utilizes recycled resources to reduce environmental impact. This product can be applied to general surface improvement, as well as the improvement and stabilization treatment of soft soil, clayey soil, and muddy soil. It is suitable for a wide range of soil types and applications, including the improvement of dredged soil, and is particularly effective for clayey soil. 【Case Study】 ■ Project Name: Aichi Prefecture Kaifu Construction Office Kanie River Improvement Project ■ Delivery Date: January 2005 ■ Location: Kanie New Town, Kanie, Kaifu District, Aichi Prefecture ■ Soil Improvement Material Used: Harden M, 414 tons ■ Land Condition: Accumulated soil within the river *For more details, please refer to the PDF document or feel free to contact us.

  • Other civil engineering services
  • Civil Engineering Method
  • Soil improvement material
  • Construction method

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Case study of the environmentally friendly soil solidification material "Harden S".

Case study of the environmentally friendly soil solidification material "Harden S".

Restoring the farmland and returning it to rice paddies! Introducing examples of coastal disaster recovery construction projects.

We would like to introduce a construction case of the environmentally friendly soil solidification material "Harden S," which effectively utilizes recycled resources. Due to the earthquake, dredging was carried out in the coastal areas around the island that had become shallower. Because there was no place for the dredged soil, it was unloaded onto the island. After temporary storage, it was improved and used for raising the ground level. The entire island's ground sank by about 30 cm due to the earthquake, resulting in poor drainage in the area where the dredged soil was temporarily stored. The topsoil was removed to a depth of 30 cm, and the foundation was raised by 30 cm with improved soil, after which the topsoil was returned to restore it as rice paddies. 【Construction Case】 ■ Project Name: Miyagi Prefecture Sendai Regional Promotion Office Coastal Disaster Recovery Project ■ Delivery Date: From February 2015 ■ Location: Kankazawa Island, Shiogama City, Miyagi Prefecture ■ Soil Improvement Material Used: Harden S, 5,760 tons ■ Land Condition: Sludge and muddy soil with high water content *For more details, please refer to the PDF document or feel free to contact us.

  • Other civil engineering services
  • Civil Engineering Method
  • Soil improvement material
  • Construction method

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【Shortening Construction Period and Reducing Costs】Residual Formwork Method

【Shortening Construction Period and Reducing Costs】Residual Formwork Method

Shortened construction period! A method using thin-walled concrete formwork that eliminates the need for formwork removal.

The "Residual Formwork Method" is a construction method that eliminates the need for formwork removal and utilizes formwork that has aesthetic or functional qualities. With the increasing awareness of environmental issues such as global warming and the reduction of construction waste, as well as the challenges of labor shortages (lack of skilled workers) and cost reduction measures, the residual decorative formwork has been developed to address these issues. By reducing the use of wooden formwork and decreasing the generation of construction waste such as formwork debris, this method not only eliminates the need for formwork removal, thereby shortening construction periods, but also contributes to the improvement of the landscape. 【Benefits】 ■ Shortened construction periods and reduced work types ■ Improved safety in high-altitude work ■ Decreased construction waste ■ Reduced total costs *For more details, please refer to the related links or feel free to contact us.

  • Civil Engineering Method
  • Construction method

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[Civil Engineering Materials] EDO-EPS Method

[Civil Engineering Materials] EDO-EPS Method

A construction method that effectively utilizes the characteristics of the material, such as lightweight, compressive strength, water resistance, and stability when stacked.

The "EDO-EPS Method" integrates large EPS blocks (product names: Kanepal Soil Block, Kanelight Soil Block) with dedicated fastening hardware to create embankment materials, effectively utilizing characteristics such as lightweight, compressive strength, water resistance, and self-supporting ability when stacked. This method simplifies ground treatment and temporary construction, allowing for a reduction in the overall construction period. Additionally, it offers numerous advantages, including a reduction in total construction costs, including maintenance and management after completion. 【Features】 ■ Lightweight ■ Self-supporting ■ Compressibility ■ Water resistance ■ Workability ■ Cost-effectiveness *For more details, please refer to the PDF materials or feel free to contact us.

  • Temporary Construction
  • Civil Engineering Method
  • Wood processing
  • Construction method

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U-Poly Pipe for Geothermal Exchange Systems

U-Poly Pipe for Geothermal Exchange Systems

Using materials with excellent durability, impact resistance, and chemical resistance (PE100)!

The "U-Poly Pipe" for geothermal exchange systems uses high-density polyethylene certified as "PE100" according to the testing method specified in ISO/TR9080. It is a material with the world's highest level of long-term hydrostatic strength among polyethylene materials. It has high performance and excellent durability, impact resistance, and chemical resistance. Additionally, one side is smooth, making it easier to insert in pairs. The U-shaped section, designed specifically for geothermal use, features a compact design that facilitates easy insertion into heat extraction holes. For more details, please contact us or refer to the catalog.

  • Water and sewerage pipe fittings
  • Construction method

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Polyethylene Pipe Series Catalog

Polyethylene Pipe Series Catalog

We have a wide variety of pipes for water supply, as well as for civil engineering, agriculture, fisheries, and industrial use!

This catalog introduces the "Polyethylene Pipe Series" handled by Inoac Corporation. It features a variety of products, including "High-Pressure 7K and 10K Pipes" designed for high-pressure applications, as well as "Water Supply Polyethylene Scratch-Resistant Coating Pipes" that prevent scratches on the pipe body. Please use this for selecting products. [Contents (Excerpt)] ■ Polyethylene Pipe Series ■ Anti-Freeze Composite Pipes for Water Supply ■ EF Fittings for Polyethylene Two-Phase Pipes for Water Supply ■ Metal Fittings for Polyethylene Pipes ■ Various Technical Data *For more details, please refer to the PDF document or feel free to contact us.

  • Water and sewerage pipe fittings
  • Erosion control works
  • Construction method

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On-site foamed polyurethane method "Form Light W Maintenance Repair & Reinforcement Method"

On-site foamed polyurethane method "Form Light W Maintenance Repair & Reinforcement Method"

Non-fluorocarbon materials! A low-cost construction method using ultra-lightweight rigid urethane resin.

The maintenance and repair & reinforcement method using on-site foamed polyurethane involves foaming and injecting rigid polyurethane resin "Formlight W" into shapes tailored to the terrain and structures, according to the necessary amount on-site. This method aims to achieve longer lifespan at a lower cost, thereby reducing lifecycle costs. Polyurethane (urethane foam) is a plastic produced by mixing and stirring two types of raw materials. It is processed into cushioning materials, insulation materials, and is widely used. 【Features】 - Extremely lightweight, allowing for significant load reduction - Highly adaptable material supply, enabling economical construction - Creates a unified foam body without joints or seams - High stability with flexibility to follow deformations of surrounding structures - Possesses self-adhesive properties, allowing for the creation of foam that adheres to the target object For more details, please contact us or download the catalog.

  • Renovation and repair methods
  • Construction method

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Nighttime construction work - construction sign light "sign light"

Nighttime construction work - construction sign light "sign light"

IP65 waterproof and dustproof design! Automatic on/off based on brightness with a light sensor!

The "Signboard Light" is a solar-powered warning light. It can be attached to signboards equipped with the KY Smart Frame or to single pipes, and it uses a large-capacity, long-life lithium-ion battery, making it economical. It can illuminate for 6 days without sunlight (48 hours total, 8 hours per day), and the battery level can be checked with an indicator. It also features a locking knob that allows for angle adjustment of the light. 【Features】 ■ Automatically turns on and off based on brightness with a light sensor ■ Can be attached to signboards equipped with the KY Smart Frame or to single pipes ■ Comes with a locking knob for adjusting the angle of the light ■ Uses a large-capacity, long-life lithium-ion battery, making it economical ■ Easy charge and discharge management with the lithium-ion battery *For more details, please refer to the PDF document or feel free to contact us.

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  • Signs, banners, lanterns, and curtains
  • Emergency/display lighting equipment
  • Other lighting fixtures
  • Construction method

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Construction example of MLT method: "Narrow Site"

Construction example of MLT method: "Narrow Site"

For narrow spaces such as narrow roads and overhead lines! Introducing actual construction sites.

This is an introduction to construction examples in narrow sites with obstacles such as narrow land and overhead lines using the "MLT method." In the widening project of National Route 402, the work became impossible due to the difficult operation of a small crane in a narrow construction yard, leading to a change to the "MLT method." Despite the highly unstable cliff strata, perfect hole walls were maintained, and the construction was completed smoothly. Additionally, it was adopted for the foundation work of the observation tower at the Chubu Electric Power Northern Substation. 【Construction Example 1】 ■ Client: Niigata Prefecture Maki Civil Engineering Office ■ Project Name: Disaster Prevention Work on National Route 402 ■ Details: Narrow construction yard, unstable cliff strata ■ Result: Perfect hole walls were maintained, and construction was completed smoothly. *For more details, please visit our website or feel free to contact us.

  • Ground foundation construction method
  • Construction method

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Aging Slope Protection Measures - Slope Protection Method "Cross Cover Net Method"

Aging Slope Protection Measures - Slope Protection Method "Cross Cover Net Method"

Mitigating dangers to workers from unexpected collapses! This leads to a reduction in industrial waste.

The slope protection method [Cross Cover Net Method] is a countermeasure for aging sprayed slopes that maintains the existing spray while improving safety and workability. The flat wire mesh is lightweight at 1.9 kg/m², and the wire rope is also lightweight at 0.3 kg/m, made of flexible materials with a simple component structure. The covering structure on the surface prevents mortar peeling for a semi-permanent period, thereby enhancing safety for third parties. Additionally, by adding admixtures to the sprayed material, the separation resistance and self-supporting ability of the sprayed material are improved, reducing the occurrence of rebound loss. [Features] ■ Improved safety ■ Excellent workability ■ Reduced waste *For more details, please refer to the PDF document or feel free to contact us.

  • Special Construction Method
  • Construction method

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Slope Safety Excavation Method (SSD Method)

Slope Safety Excavation Method (SSD Method)

Excavation is possible even at slopes that are impossible with conventional construction machinery!

● The special excavation machine is designed as a "remote-controlled vehicle" for safety reasons! ● Since the wire is connected to the machine with a wire clamp device, the machine will not fall even if the wire breaks. ● Compared to manual labor, the construction period can be shortened to about one-third.

  • Earthworks
  • Pile and foundation work
  • Special Construction Method
  • Construction method

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Inclined Surface Safe Excavation Method (SSD Method)

Inclined Surface Safe Excavation Method (SSD Method)

Are you having trouble with cutting or excavating slopes? The SSD method will solve your problems!

The Sloped Surface Safety Excavation Method (SSD Method) utilizes the slope excavator "Spring Challenger," which excels in safety and workability, allowing for safe excavation even in unstable and dangerous steep slopes. It significantly shortens the often lengthy construction period. 【Patent Obtained】 Patent No. 4121038, Patent No. 4624441 【Features】 ■ Capable of excavation at slopes that are impossible with conventional construction machinery ■ The specialized excavator is equipped with a remote control system for safety (onboard operation is also possible) ■ The wire clamp device connects the wire to the machine, ensuring that the machine does not fall even if the wire breaks ■ Reduces construction time to about one-third compared to manual labor (according to association research) *For more details, please contact us or download the catalog.

  • Renovation and repair methods
  • Special Construction Method
  • Construction method

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Hybrid cell construction method

Hybrid cell construction method

It is a hybrid cell construction method.

The "3D geocell," which is a three-dimensional shape formed by high-frequency pressure bonding of high-density polyethylene (HDPE) sheets, becomes a new concept structure by "confining" the soil within the cells. The embossed surface of the hybrid cell is the source of the confining force. The hybrid cell structure remains stable for a long time using the same mechanism that stabilizes natural terrain, where plant roots intertwine with the "holes" on the surface.

  • Other construction services
  • Construction method

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Reduce secondary water leakage! High-pressure injection water stop method 'TAP Grout Method'

Reduce secondary water leakage! High-pressure injection water stop method 'TAP Grout Method'

[Catalog Present] Demonstrates high water stop effectiveness! A revolutionary water stop method that reduces the causes of structural deterioration.

The "TAP Grout Method" is a high-pressure injection waterproofing technique that replaces the pathways of water within concrete structures with resin. By using a TAP injection machine to continuously inject TAP grout solution under high pressure, it reduces the re-leakage that causes deterioration of the structure. In addition to its waterproofing effect, it is a groundbreaking method that improves density and durability, workability and cost-effectiveness, as well as aesthetics. 【Features】 ■ Replaces water pathways in structures with resin ■ Injects TAP grout solution using a high-pressure TAP injection machine ■ Uses O-plugs (stainless steel) *For more details, please download the catalog or contact us.

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  • grout
  • Construction method

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Road bridge pavement reinforcement and deck waterproofing GGRW method

Road bridge pavement reinforcement and deck waterproofing GGRW method

Integration of road bridge pavement reinforcement and deck waterproofing work NETIS No. KK-220072-A NEXCO Grade 1 compliant

The reduction in durability of RC road bridges is influenced by the durability of RC slabs and asphalt pavements, which are interrelated factors. Fatigue caused by wheel loads accumulates fatigue in the RC slabs and asphalt pavement surfaces, leading to cracking. The intrusion of rainwater and de-icing agents from these cracks is believed to accelerate the deterioration of the RC road bridge structure. Therefore, the waterproofing effect and durability of slab waterproofing are emphasized. Additionally, the quick release from the public facility of road bridges during renovation work is also an important perspective. The road bridge pavement reinforcement waterproofing system "GGRW Method" developed this time suppresses cracking in the pavement, minimizes damage to the waterproof layer, and allows for quick release. It significantly improves the film strength of conventional asphalt coating waterproof materials and addresses the adhesion issues between resin-based coating waterproof materials and asphalt pavements. A sheet membrane with continuity that integrates waterproofing and reinforcement is created on-site, effectively bonding the pavement and slab with good adhesion to demonstrate its effectiveness in slab waterproofing methods.

  • Bridge Materials
  • Construction method

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