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  1. 三和グランド Tokyo//Building materials, supplies and fixtures
  2. 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 Tokyo//Building materials, supplies and fixtures
  3. 朝日護謨工業所 Osaka//Rubber products
  4. 4 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
  5. 5 武蔵野 Tokyo//Manufacturing and processing contract
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  1. Mangle roll for textile machinery (steam-resistant) 朝日護謨工業所
  2. 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
  3. Flare welding 北陸ガス圧接
  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

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Construction method "ECOKE"

Construction method "ECOKE"

Moss will become a new insulation material for buildings! There’s still time for green energy-saving measures!

"ECOKE" is a moss greening and insulation system method that allows for the greening of various buildings such as factories, apartments, and public facilities at a low cost. It exhibits numerous excellent features, including high heat resistance and ultra-lightweight properties. It can be easily installed in various locations such as roofs and rooftops, and maintenance is also simple. It contributes to indoor temperature control, reduction of air conditioning costs, and inclusion of green space in factory location laws. [Features] - Enhancement of corporate image through greening - Reduction of air conditioning costs - Prevention of heatstroke - Prevention of building deterioration - Creation of a calming space *For more details, please refer to the catalog or feel free to contact us.

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Improved Ground Improvement Method "WIB Method" [Helpful Materials Available!]

Improved Ground Improvement Method "WIB Method" [Helpful Materials Available!]

Simultaneously achieve environmental vibration reduction and liquefaction prevention in transportation, factories, and construction! Reliable technology for safety measures! Our company's unique improved ground construction method.

E&D Tech Design Co., Ltd.'s "WIB Method" is an improved ground construction technique that reduces environmental vibrations from traffic, factories, and construction, as well as seismic shaking, while addressing liquefaction issues and enhancing and stabilizing the bearing capacity of weak ground. By using a rigid cell-type plate or wall structure, it simultaneously achieves liquefaction prevention and differential settlement prevention, allowing for overall cost reduction. Additionally, it can also address micro-vibrations that interfere with the operation of precision machinery and medical devices in high-tech industries. 【Features】 ■ Liquefaction prevention through strain suppression of the ground using a cell-form structure ■ Differential settlement prevention through improved horizontal bearing capacity of the ground using a plate structure ■ Prediction and design of vibration reduction values based on ground surveys, achieving set targets ■ Recipient of the Minister of Education, Culture, Sports, Science and Technology Award for Scientific and Technological Achievement in 2011 ■ Capable of addressing micro-vibrations that affect medical devices *For more details, please refer to the catalog or feel free to contact us.

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Vibration Control WIB Method

Vibration Control WIB Method

Eliminate vibration issues and create a comfortable living environment! Here are some examples of our achievements in vibration control.

Various vibrations from road traffic, railways, factories, and construction work exist around us. These vibrations are often perceived as unpleasant and can negatively impact daily life. The "Vibration Mitigation WIB Method" addresses these vibration issues and creates a comfortable living environment. Additionally, the installation location and shape can be selected according to each property. 【Summary of Achievements (Partial)】 ■ Vibration Source: Road Traffic Vibration ■ Installation Location: Directly beneath the vibration source ■ WIB Method Type: Plate-type WIB Method (Honeycomb Cell Type) ■ Issue: Vibrations from large vehicles passing on the road propagate to nearby residences, leading to vibration complaints ■ Response: Road improvement work was carried out, and a honeycomb cell type plate WIB method was installed directly beneath the road. *For more details, please refer to the PDF document or feel free to contact us.

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[WIB Construction Method Case Study] Measures Against Machine Vibration in Manufacturing Plants

[WIB Construction Method Case Study] Measures Against Machine Vibration in Manufacturing Plants

Improvement of the working environment! Introduction of a construction case where tire shred made of high-damping material was filled in the cell.

At Mitsui Sumitomo Construction in Ehime Prefecture, vibrations caused by machinery operation within the manufacturing plant were propagating to the adjacent office building (a four-story steel structure), resulting in significant vertical vibrations accompanied by a rumbling phenomenon on the 3rd and 4th floors, necessitating environmental improvements. As a solution, a passageway for transport vehicles was constructed between the manufacturing plant and the office building, and the 'WIB method' was implemented directly beneath it. Vibration measurements conducted before and after the countermeasures showed a reduction of 10 dB on the 1st floor, while the rumbling phenomenon was eliminated on the 3rd and 4th floors, resulting in a reduction of 15 to 17 dB. Additionally, the vibration level, which exceeded 70 dB before the countermeasures, dropped to below 60 dB afterward, improving the working environment. 【Case Summary】 ■ Location: Ehime Prefecture ■ Client: Mitsui Sumitomo Construction ■ Vibration Source: Factory vibrations ■ Target for Preservation: Adjacent office building ■ Countermeasure Method: Plate-type WIB (honeycomb cell type) ■ Installation Position: Vibration propagation path *For more details, please refer to the PDF document or feel free to contact us.

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[WIB Construction Method Case Study] Vibration Control Measures for Medical Facilities

[WIB Construction Method Case Study] Vibration Control Measures for Medical Facilities

Filling tire shred with high damping material between the underground vibration barrier and the improved column row! A case where the work environment has been improved.

At SEIHA in Chiba Prefecture, vibrations from trains passing near medical facilities were interfering with operations involving precision equipment in medical rooms. In response, a 'WIB method' was implemented between the railway and the medical facility. A composite WIB design was created by utilizing existing underground vibration isolation walls, combining wall-like and slab-like structures. Based on the micro-vibration tolerance curve for precision equipment, target vibration reduction amounts and target reduction frequency bands were established. After the measures were implemented, vibrations in the target reduction frequency band were reduced to less than half, improving the operational environment. 【Case Summary】 ■ Location: Chiba Prefecture ■ Client: SEIHA Co., Ltd. ■ Vibration Source: Railway vibrations ■ Preservation Target: Precision equipment in medical facilities ■ Countermeasure Work: Wall-like WIB + Slab-like WIB ■ Construction Position: Vibration propagation path *For more details, please refer to the PDF document or feel free to contact us.

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[WIB Construction Method Case Study] Vibration Control Measures for the Construction of New Expressways (1)

[WIB Construction Method Case Study] Vibration Control Measures for the Construction of New Expressways (1)

Measures were implemented between the construction area and the residential area! It was confirmed that ground vibrations are approximately 6dB lower, reducing vibrations by half!

In Mie Prefecture, there were concerns that the construction vibrations from the new highway would propagate to nearby residences. Therefore, the 'WIB method' was implemented between the construction area and the houses. After the measures were taken, a running test with a backhoe was conducted, comparing the vibrations at the unprotected and protected locations. As a result, it was confirmed that the ground vibrations at the protected location were approximately 6dB lower than those at the unprotected location, effectively halving the vibrations. 【Case Overview】 ■ Location: Mie Prefecture ■ Client: Tenox Co., Ltd. ■ Vibration Source: Construction work vibrations ■ Protected Target: One nearby residence ■ Countermeasure: Wall-type WIB method (folding screen type) ■ Installation Position: Vibration propagation path *For more details, please refer to the PDF document or feel free to contact us.

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[WIB Construction Method Case Study] Traffic Vibration Mitigation for New Roads

[WIB Construction Method Case Study] Traffic Vibration Mitigation for New Roads

Confirmed a reduction of more than 10dB, with vibrations reduced to one-third or less! Measures have been implemented directly beneath the road!

In Yamanashi Prefecture, with the establishment of new embankment roads, it became necessary to preserve the environment of residential areas along the route after the road opened. Therefore, the 'WIB method' was implemented directly beneath the road. A running test using a backhoe was conducted before and after the countermeasures (before road construction). As a result, a reduction of more than 10 dB was confirmed in both horizontal and vertical directions near the boundary between public and private land, and vibrations were reduced to less than one-third. [Case Summary] ■ Construction Location: Yamanashi Prefecture ■ Vibration Source: Road traffic vibrations ■ Preservation Target: Several residential buildings along the road ■ Countermeasure Work: Plate-type WIB (honeycomb cell type) ■ Construction Position: Directly beneath the vibration source *For more details, please refer to the PDF document or feel free to contact us.

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[WIB Construction Method Case Study] Road Traffic Vibration Countermeasures for Residential Areas Along National Highways

[WIB Construction Method Case Study] Road Traffic Vibration Countermeasures for Residential Areas Along National Highways

Vibration measurements were conducted before and after the measures were implemented! A reduction of 4 to 5 dB in the vertical direction was confirmed!

In Saitama City, Saitama Prefecture, traffic vibrations from the national highway were affecting the living environment along the route, leading to complaints from residents. As a countermeasure, tire shred with high damping material was filled in the grid. Renovation work was carried out on the side road that runs between the national highway and residential areas, and the 'WIB method' was implemented directly beneath the road. Vibration measurements were conducted before and after the countermeasures, confirming a reduction of 4-5 dB in the vertical direction near the boundary between public and private properties. 【Case Overview】 ■ Construction Location: Saitama Prefecture ■ Client: Saitama City ■ Vibration Source: Road traffic vibrations ■ Preservation Target: Several residential buildings along the national highway ■ Countermeasure Work: Wall-type WIB method (grid type) ■ Construction Position: Vibration propagation path *For more details, please refer to the PDF document or feel free to contact us.

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[WIB Construction Method Case Study] Vibration Control Measures for the Construction of New Expressways (2)

[WIB Construction Method Case Study] Vibration Control Measures for the Construction of New Expressways (2)

Compared to areas without measures, the ground vibration in areas with measures is about 6dB to 7dB lower! Vibration reduced to less than 1/2!

In Mie Prefecture, there were concerns that the construction vibrations from the new highway would propagate to nearby public facilities. As a countermeasure, the 'WIB method' was implemented directly beneath the construction vehicle road. After the measures were taken, running tests and impact tests using a backhoe were conducted, comparing the vibrations at the unprotected and protected locations. As a result, it was confirmed that the ground vibrations at the protected locations were approximately 6dB to 7dB lower than those at the unprotected locations, reducing the vibrations to less than half. 【Case Summary】 ■ Location: Mie Prefecture ■ Client: Tenox Co., Ltd. ■ Vibration Source: Construction work vibrations ■ Preservation Target: Nearby public facilities ■ Countermeasure: Plate-type WIB method (honeycomb cell type) ■ Installation Position: Directly beneath the vibration source *For more details, please refer to the PDF document or feel free to contact us.

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[WIB Construction Method Case Study] Traffic Vibration Mitigation for Existing Roads

[WIB Construction Method Case Study] Traffic Vibration Mitigation for Existing Roads

Conducted driving tests with a 10-ton truck before and after the measures! We were able to achieve vibration reduction effects!

In Shizuoka Prefecture, vibration countermeasures were required in areas where complaints about vibrations had been occurring during road renovation work. As a result, the 'WIB method' was implemented directly beneath the road. Before and after the countermeasures, driving tests were conducted using a 10-ton truck. Vibration responses were measured and compared at the boundary between public and private properties along the road, on the ground within the site, and on the second floor of buildings. It was found that vibrations around the dominant frequency of 6Hz were reduced, achieving an average reduction of 10dB in the horizontal direction and 20dB in the vertical direction. [Case Summary] ■ Location: Shizuoka Prefecture ■ Client: Imamura Group Co., Ltd. ■ Vibration Source: Road traffic vibrations ■ Preservation Target: Several houses along the road ■ Countermeasure Method: Plate-type WIB method (honeycomb cell type) ■ Construction Position: Directly beneath the vibration source *For more details, please refer to the PDF document or feel free to contact us.

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[WIB Construction Method Case Study] Pre-construction Vibration Simulation for Pile Driving Work

[WIB Construction Method Case Study] Pre-construction Vibration Simulation for Pile Driving Work

The impact of vibrations on residential areas and commercial facilities was found to be almost nonexistent, except for a very small range!

During the construction of a temporary platform for the sluice gate work, a vibro hammer was used to install the pile bridge pier. The impact of vibrations on surrounding residential and commercial facilities was evaluated through simulation analysis using the two-dimensional finite element method (2DFEM). Based on these results, the client conducted explanations of the vibration impact to nearby residents and surrounding commercial facility owners before the construction began. Some vibration effects were observed in residential areas close to the vibration source at the start of the pile driving, but the overall impact on residential and commercial facilities was minimal, with only a very limited area affected. 【Case Overview】 ■ Client: A certain construction consultant ■ Analysis Period: January 2020 ■ Cost: 1.77 million yen (excluding consumption tax, analysis fee for five measurement lines) ■ Vibration Source: Pile driving vibrations from a vibro hammer ■ Analysis Content: Evaluation of vibration impact on residential areas around the sluice gate *For more details, please refer to the PDF document or feel free to contact us.

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[WIB Construction Method Case Study] Road Traffic Vibration Countermeasures for Model Houses (2)

[WIB Construction Method Case Study] Road Traffic Vibration Countermeasures for Model Houses (2)

Traffic vibrations transmitted from the ground have been reduced! An environment has been created that falls below regulatory standards after the measures were implemented!

At the model house along the main road in Chiba Prefecture, there were concerns about the impact of traffic vibrations on the living environment due to the proximity of a busy main road after the model house was newly constructed. The 'WIB method' was implemented directly beneath the model house, achieving a vibration reduction level of 12dB (about 1/4 of the original vibration). This model house is planned along a busy main road due to its appealing characteristics, but thanks to this construction, the traffic vibrations transmitted from the ground have been reduced, creating an expected quiet indoor environment suitable for the model house. 【Case Overview】 ■ Construction Location: Chiba Prefecture ■ Client: Tokyo Sekisui Heim Co., Ltd. ■ Vibration Source: Road traffic vibrations ■ Preservation Target: Model house along the main road ■ Countermeasure Method: Plate-type WIB (honeycomb cell type) ■ Construction Position: Directly beneath the receiving side *For more details, please refer to the PDF materials or feel free to contact us.

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[WIB Construction Method Case Study] Road Traffic Vibration Countermeasures for Model Houses (1)

[WIB Construction Method Case Study] Road Traffic Vibration Countermeasures for Model Houses (1)

Maintenance-free and semi-permanent! It creates a comfortable indoor environment without vibrations!

At the model house along the road in Tokyo, large vehicles pass by approximately every five minutes during the day, raising concerns about the impact of traffic vibrations on the living environment. The 'WIB method' was implemented directly beneath the model house, achieving a vibration reduction of 10-12 dB (about 1/4 to 1/3 of the original vibration level). This installation is maintenance-free and semi-permanent, ensuring that even after the model house becomes a regular residence, a comfortable indoor environment free from vibrations will be maintained. 【Case Overview】 ■ Location: Tokyo ■ Client: Mitsui Home Co., Ltd. ■ Vibration Source: Road traffic vibrations ■ Preservation Target: Model house along the road ■ Countermeasure: Plate-type WIB method (honeycomb cell type) ■ Installation Position: Directly beneath the receiving side *For more details, please refer to the PDF document or feel free to contact us.

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[WIB Construction Method Case Study] Railway Vibration Mitigation for Residential Buildings Along Subway Lines

[WIB Construction Method Case Study] Railway Vibration Mitigation for Residential Buildings Along Subway Lines

Support beams were also installed! We were able to keep the vibration level below 50dB!

In Tokyo, residential buildings are located close to railways that run underground, raising concerns about the impact of railway vibrations on the living environment after the construction of new homes. To address this, the 'WIB method' was implemented directly beneath the residences. Since building support was necessary, support piles were also installed. After conducting vibration measurements before and after the implementation of the countermeasures, vibrations were reduced by 12 to 17 dB (from 1/7 to 1/4), successfully keeping the vibration level below 50 dB. 【Case Summary】 ■ Location: Tokyo ■ Client: Business owner ■ Vibration source: Railway vibrations ■ Preservation target: Residential buildings along the railway (underground) ■ Countermeasure method: Plate-type WIB (honeycomb cell type) ■ Installation position: Directly beneath the receiving side *For more details, please refer to the PDF document or feel free to contact us.

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[WIB Construction Method Case Study] Railway Vibration Countermeasures for Residential Areas Along Railways, January 2019, Saitama Prefecture

[WIB Construction Method Case Study] Railway Vibration Countermeasures for Residential Areas Along Railways, January 2019, Saitama Prefecture

Measures were implemented directly beneath each residence in Buildings A to E! The vibration level has been reduced to below 60 dB!

Some of the residential development plots in Saitama Prefecture face a railway, raising concerns about the impact on the living environment after the construction of houses. Therefore, the 'WIB method' was implemented directly beneath each of the houses from Building A to Building E. Vibration measurements were conducted before and after the countermeasures. As a result, the dominant vibration at 10Hz was reduced by 14dB (to 1/5 of the original vibration), successfully keeping the vibration level below 60dB. 【Case Summary】 ■ Location: Saitama Prefecture ■ Client: Housing Manufacturer ■ Vibration Source: Railway Vibration ■ Preservation Target: Residential buildings along the railway (total of 5 buildings) ■ Countermeasure Work: Plate-type WIB (honeycomb cell type) ■ Construction Position: Directly beneath the receiving side *For more details, please refer to the PDF document or feel free to contact us.

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[WIB Construction Method Case Study] Railway Vibration Countermeasures for Residential Areas Along Railways, September 2018, Saitama Prefecture

[WIB Construction Method Case Study] Railway Vibration Countermeasures for Residential Areas Along Railways, September 2018, Saitama Prefecture

Concerns about the impact on the living environment after residential construction! Introducing examples aimed at increasing vibration reduction effects!

Some plots of a residential development in Saitama Prefecture face a railway, raising concerns about the impact on the living environment after the construction of the houses. Therefore, the "WIB method" was implemented directly beneath the houses. In buildings D and E, where the vibration level exceeded 70dB before the measures were taken, the countermeasures were extended on the railway side to enhance the vibration reduction effect. After conducting vibration measurements before and after the measures, the dominant vibration at 10Hz was reduced by 6dB to 14dB (to 1/5 to 1/2 of the original vibration), successfully keeping the vibration level below 60dB. 【Case Summary】 ■ Location: Saitama Prefecture ■ Client: Housing manufacturer ■ Vibration source: Railway vibration ■ Preservation target: Residential buildings along the railway (total of 5 buildings) ■ Countermeasure: Plate-type WIB method (honeycomb cell type) ■ Installation position: Directly beneath the receiving side (partly on the propagation path) *For more details, please refer to the PDF document or feel free to contact us.

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[WIB Construction Method Case Study] Road Traffic Vibration Mitigation for Residential Areas Along Elevated Bridges

[WIB Construction Method Case Study] Road Traffic Vibration Mitigation for Residential Areas Along Elevated Bridges

Reduced vibrations of 4Hz by approximately 5dB and vibrations of 12.5 to 20Hz by approximately 10dB! The vibrations have become such that they do not affect livability!

The planned construction site for housing in Kanagawa Prefecture was experiencing traffic vibrations from the elevated bridge and the road in front of the site. As a countermeasure, we implemented measures directly beneath the apartment building. The vibrations from the elevated bridge were predominantly at 4Hz, while those from the road in front of the site ranged from 12.5 to 20Hz. We designed the 'WIB method' to address each type of vibration accordingly. As a result, we reduced the 4Hz vibrations by approximately 5dB and the 12.5 to 20Hz vibrations by about 10dB, ensuring that the vibrations did not affect the livability. [Case Overview] ■ Construction Location: Kanagawa Prefecture ■ Client: Housing Manufacturer ■ Vibration Source: Road Traffic Vibration ■ Preservation Target: Apartment Building (New, 3 Stories) ■ Countermeasure: Plate-type WIB Method (Honeycomb Cell Type) ■ Construction Position: Directly beneath the receiving side *For more details, please refer to the PDF document or feel free to contact us.

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[WIB Construction Method Case Study] Road Traffic Vibration Countermeasures for Residential Areas Along Roads

[WIB Construction Method Case Study] Road Traffic Vibration Countermeasures for Residential Areas Along Roads

Confirmed a vibration reduction of 3-6 dB on the first floor and 4-5 dB on the second floor! Introducing a case where livability has improved!

In residential houses along the roads in Tokyo, vibrations from large vehicles were propagating, and vertical vibrations were affecting the living environment. Therefore, during the reconstruction of the houses, the 'WIB method' was implemented directly beneath the residences. Vibration measurements were conducted before and after the countermeasures within the buildings. As a result, a reduction of 3-6 dB on the first floor and 4-5 dB on the second floor was confirmed, leading to an improvement in livability. 【Case Summary】 ■ Location: Tokyo ■ Client: Sekisui Heim Corporation ■ Vibration Source: Road traffic vibrations ■ Preservation Target: Houses along the road ■ Countermeasure Method: Plate-type WIB (honeycomb cell type) ■ Installation Position: Directly beneath the receiving side *For more details, please refer to the PDF document or feel free to contact us.

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[WIB Construction Method Case Study] Railway Vibration Countermeasures for Residential Areas Along Railways, January 2014, Saitama Prefecture

[WIB Construction Method Case Study] Railway Vibration Countermeasures for Residential Areas Along Railways, January 2014, Saitama Prefecture

Railway vibrations have been reduced by half! A damping effect of approximately 4dB in the horizontal direction and about 6dB in the vertical direction has been confirmed!

In the vicinity of the planned construction site for a detached house (two-story lightweight steel frame) in Saitama Prefecture, trains frequently pass by, raising concerns about the impact of railway vibrations on the living environment. Therefore, the 'WIB method' was implemented directly beneath the house. Vibration measurements taken before and after the construction confirmed a vibration reduction effect of approximately 4 dB in the horizontal direction and about 6 dB in the vertical direction, effectively halving the railway vibrations. 【Case Overview】 ■ Construction Location: Saitama Prefecture ■ Client: Sanyu Soil Engineering Co., Ltd. ■ Vibration Source: Railway vibrations ■ Preservation Target: Houses along the railway ■ Countermeasure Work: Plate-type WIB method (honeycomb cell type) ■ Construction Position: Directly beneath the receiving side *For more details, please refer to the PDF document or feel free to contact us.

  • Other services
  • others
  • Construction Method

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Solar mounting foundation "e-pile・sp"

Solar mounting foundation "e-pile・sp"

Short construction period and high-speed execution for low cost! No waste soil or cement needed for long lifespan!

The "e-pile・sp" is a steel pipe pile foundation method for solar mounting foundations that significantly reduces the labor involved in concrete foundation work by directly rotating and driving piles. By attaching wing extensions to the steel pipe piles, it demonstrates high compressive and pull-out forces. By resolving issues related to soft ground, steep slopes, and challenges in construction periods and processes, it has become possible to install smoothly under various conditions. 【Features】 ■ Significantly reduces the labor involved in concrete foundation work by directly rotating and driving piles ■ The tip is an enlarged base type that can be expected to provide high support and pull-out forces ■ Ensures stable quality at high speed, unaffected by weather ■ Easier land restoration compared to concrete foundations *For more details, please refer to the PDF materials or feel free to contact us.

  • Solar power generator
  • Construction Method

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Comprehensive Catalog of Machinery for Promotion Methods for Sewer and Drainage Maintenance!

Comprehensive Catalog of Machinery for Promotion Methods for Sewer and Drainage Maintenance!

A wide range of items compatible with thrust construction methods, such as the "PIT method" which is free from vibration and noise, is featured!

The "Comprehensive Catalog of Machinery for Pushing Construction Methods" is a comprehensive catalog from Nagano Yuki, a manufacturer of hydraulic system equipment that plays a vital role in infrastructure development, including water supply and sewage systems. It features the "PIT Method," an environmentally friendly construction method that uses a vibration-free and low-noise oscillating press-in type shaft construction machine, as well as the "Strike Method," which employs special branches that are resistant to earthquakes and water-tight. It also includes pushing jacks and thrust jacks. [Contents Included] ■ PIT Method ■ DRM Method ■ Strike Method ■ Wild Boar Method ■ Pit Mini Method, etc. *For more details, please refer to the PDF document or feel free to contact us.

  • Hydraulic Equipment
  • Construction Method

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Artificial soil "Garden Road"

Artificial soil "Garden Road"

The same low cost as black soil construction! Artificial soil that is lighter than soil and has high workability.

"Garden Road" is a porous, block-like artificial soil that can be surprisingly easy and inexpensive to install. It was developed as a large-scale greening soil for public spaces, building exteriors, and areas with poor soil conditions. Since it can also be used as a drainage layer, there is no need to create a separate drainage layer. Additionally, it is packaged in 1m3 units, making transportation and leveling work easy, even on rainy days. 【Features】 ■ Affordable planting ground ■ No need to mix soil amendments or fertilizers ■ High water retention ■ High permeability and aeration *For more details, please refer to the catalog. Feel free to contact us with any inquiries.

  • Soil improvement
  • Construction Method

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Jakago "Panel Futon Basket"

Jakago "Panel Futon Basket"

Solving labor shortages! A stone packing basket that can be used with machines.

The "Panel Futon Basket" is a type of basket that is easy to assemble even for beginners and has excellent corrosion resistance. It allows for significant reductions in construction time. Additionally, if the materials are made with a zinc-aluminum alloy coating, it can be used as a permanent revetment. 【Features】 ■ Excellent corrosion resistance ■ Resolves labor shortages ■ Enables shortening of construction time ■ Easy to assemble ■ Can be filled with stones using machinery *For more details, please download the PDF or feel free to contact us.

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[Processed Parts Performance] Base <Industrial Machinery>

[Processed Parts Performance] Base <Industrial Machinery>

Grinding surface roughness 1.6S processing, inner diameter groove processing! Main materials handled include iron, steel, copper, titanium, etc.

We would like to introduce our processing achievements for "bases" in industrial machinery. The processing steps include heat treatment, MC machining, wire electrical discharge machining, high-frequency hardening, and polishing. The products have a precision of 0.01 for perpendicularity and 0.01 for parallelism (geometric tolerances). We procure suitable products from domestic and international manufacturers and processing facilities at appropriate prices, manage inventory at our logistics center, and ensure proper delivery. 【Case Overview (Partial)】 ■Part Name: Base ■Sales Industry: Industrial Machinery ■Processing Lot Size: 1 piece ■Material: S45C ■Precision (Geometric Tolerance): Perpendicularity 0.01, Parallelism 0.01 *For more details, please refer to the PDF document or feel free to contact us.

  • Other machine elements
  • Construction Method

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Construction method "Nano-Mente SB Method"

Construction method "Nano-Mente SB Method"

It is a highly safe cleaning system that takes the environment into consideration!

The "Nano-Mente SB Method" is a technique that penetrates special cleaning agents into materials such as walls and wood to remove mold and eradicate it from the source. It decomposes mold and dirt inside and outside buildings from the root, maintaining aesthetics with antibacterial, antifungal, and waterproof effects. It restores without damaging the building, discoloring the paint, or harming the wood. 【Features】 ■ Easy and speedy construction ■ No scaffolding required ■ Achieves low cost ■ Long-lasting effects ■ Safe and secure for both humans and nature *For more details, please download the PDF or feel free to contact us.

  • detergent
  • Rust Inhibitor
  • Repair Agent
  • Construction Method

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Surface treatment "Electrostatic flocking"

Surface treatment "Electrostatic flocking"

We specialize in electrostatic flocking! Please feel free to consult us about various materials!

Our company conducts a surface processing treatment similar to painting called "electrostatic flocking," which involves applying a high voltage and utilizing the power of static electricity to implant nylon piles (fibers). This treatment enhances the tactile feel and appearance, creating a sense of luxury, while also providing effects such as preventing light scattering, soundproofing, and thermal insulation. 【Features】 ■ Pleasant tactile feel ■ Creates a sense of luxury ■ Prevents light scattering, soundproofing, and thermal insulation *For more details, please contact us.

  • Contract manufacturing
  • Processing Contract
  • Surface treatment contract service
  • Construction Method

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Nakamura Construction Co., Ltd. Company Profile

Nakamura Construction Co., Ltd. Company Profile

We aim to be a company with a strong presence, responding to our customers' needs that change more quickly and diversely.

Our company was born with the desire to rebuild the land of Utsunomiya, which became a wasteland due to air raids in 1948. For over half a century since then, we have grown with the motto of "always providing our customers with economical and high-quality products," creating comfortable spaces and prioritizing our customers. By focusing on initiatives to enhance our image, we are engaged in activities to increase the value of our company and the entire industry. 【Business Activities】 ■ General construction work, civil engineering work, demolition work, including planning, design, and execution related to these areas. 【Introduction to Construction LABO】 https://kensetsu-labo.jp/ *For more details, please refer to the PDF materials or feel free to contact us.

  • Exhibition planning/construction
  • Construction Method

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Yess Architecture Construction Case Studies: Stores and Sports Facilities

Yess Architecture Construction Case Studies: Stores and Sports Facilities

The freedom of zoning made possible by a column-free large space! A collection of construction examples for stores and sports facilities.

This document is a collection of construction case studies for stores and sports facilities by yess Architecture. Store planning involves timely decisions regarding the selection of products considering regional characteristics, quantities, and sales prices, along with the corresponding architectural planning for the store. yess Architecture solves the challenge of time in construction with economic efficiency and short delivery times. Additionally, indoor sports facilities and gymnasiums, which require a column-free large space as an absolute condition, are addressed by yess Architecture's column-free maximum span structure of 60 meters, providing solutions for large roof constructions. [Featured Cases] ■ Commercial Facilities/Stores ■ Sports Facilities/Gymnasiums [Construction Achievements in System Architecture] https://kensetsu-labo.jp/n_stage_works/ *For more details, please refer to the PDF document or feel free to contact us.

  • Machinery and equipment installation/dismantling/relocation
  • Construction Method

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Settlement correction and pile extraction work

Settlement correction and pile extraction work

In case of any ground issues, we will solve them. "The house is leaning" "I want to remove the piles."

In the event of any differential settlement, we will serve as a consultation point and support you until the issue is resolved. We also provide guarantees after settlement correction. Additionally, we accept orders for the extraction of existing piles.

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  • Construction Method

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Introduction to the Top 3 Multi-Purpose Trolley Series

Introduction to the Top 3 Multi-Purpose Trolley Series

Multipurpose nesting cart - makes loading and unloading easy - useful for long items. We have a variety of product lineups to meet your needs!

We offer a variety of products tailored to different uses and needs. 【VC-602N】Excels in various scenes!       Multipurpose nesting cart 【VC-602DA】Convenient for loading long items.        Separate handle type cart 【STM-2】Makes loading and unloading a breeze!      Two-tier cart <Common Features> ・With stopper ・Made of hard polypropylene, excellent durability ・Mesh structure that resists dust accumulation *Please check the catalog photos for more details.

  • Other safety equipment
  • Trolley
  • Construction Method

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