Construction method Product List and Ranking from 483 Manufacturers, Suppliers and Companies

[Construction Example] Shopping Center (Iwate Prefecture): Subfloor Settlement Correction Work

Maximum settlement 71mm, maximum gap 190mm! Conducting polyurethane resin injection work while constantly checking the level!

A shopping center where widespread floor subsidence was observed due to ground subsidence. Due to the floor subsidence, gaps appeared between the floor and walls, causing various issues within the stores. As a result, our company implemented repairs. The "Upcon Method," which can be executed at night during the business closure, was adopted for the repairs. Additionally, since voids were also observed under the floor, filling work was carried out. 【Construction Overview】 ■ Construction Area: Approximately 540m² ■ Maximum Subsidence: 71mm ■ Maximum Void: 190mm ■ Construction completed in 2011, with repairs conducted over 7 consecutive nights. *For more details, please refer to the PDF document or feel free to contact us.

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Quickly correct the factory floor's slope and the gaps under the floor with rigid polyurethane foam resin!

Correcting floor tilts caused by earthquakes and ground subsidence without stopping operations and in a short period! No need to move machines or equipment! Also suppressing any concerning vibrations from the machines!

■ The machine cannot be leveled. ■ The machine is tilted and vibrating. ■ Malfunctions are occurring in the machine, leading to an increase in defective products. ■ Gaps have formed in the floor, walls, and ceiling. ■ Cracks have appeared in the floor. The "Upcon Method" solves problems caused by floor tilting and sagging due to earthquakes or ground subsidence, as well as voids and gaps that have formed beneath the floor, using polyurethane resin for quick repairs. 【What is the Upcon Method?】 Small holes with a diameter of 16mm are drilled into the existing concrete floor where subsidence has occurred. While continuously monitoring the level in millimeter increments, polyurethane resin is injected. The resin injected beneath the floor expands under pressure in a short time, compacting and strengthening the ground, improving bearing capacity, and pushing the concrete back to a level position. The final strength of the resin is achieved in about 60 minutes. Even if voids have formed beneath the floor, the same method is used to fill those voids. Since the existing concrete floor is repaired without demolition, the construction period is significantly reduced compared to conventional methods. The polyurethane can lift the floor with a foaming pressure of up to 10 tons per square meter, eliminating the need to move heavy equipment or materials. The deformation of the floor is corrected without stopping the production line.

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Road Concrete Pavement Slab Settlement Correction Method Achieves Early Lifting of Traffic Restrictions

We will correct the irregularities such as steps and flapping that have occurred in the concrete pavement slabs using specially developed high-strength polyurethane resin, without excavation and within a short construction period.

Using a specially developed high-strength polyurethane resin, we will correct the deformation such as steps and fluttering that occur in concrete pavement slabs commonly used on highways, as well as fill the gaps and voids that have developed under bridge deck slabs, all without breaking the existing concrete pavement and within a short construction period. Injecting polyurethane resin will also improve the loosening of the subgrade. Additionally, it enables the lifting of joints with polyurethane resin along with the bearing slab, fundamentally resolving the issue of correcting the step at the joint, which traditionally required excavation and long-term continuous restrictions or road closures.

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[Construction Case] Fukushima Prefecture, Soma Port Port Maintenance Management Work (Quay Restoration)

Due to ground subsidence at the harbor quay, there are steps and depressions in the concrete pavement slabs, resulting in the loss of water gradient and the formation of puddles. This issue is resolved using the upcon method.

The Upcon method, which allows for modifications without breaking existing concrete pavement slabs and within a short construction period, has been widely adopted in public works such as roads and airports as a maintenance and repair method. This time, we will introduce a construction site for correcting the sinking of concrete pavement slabs and filling voids at a quay in a port. The quay at Soma Port in Fukushima Prefecture, where cargo loading and unloading occurs frequently, has experienced issues due to ground subsidence, resulting in steps and sinking in the concrete pavement slabs, eliminating the water slope and causing puddles. This has hindered cargo operations. The Upcon method was chosen because it has no environmental impact compared to other methods and can correct the existing slabs without removal in a short period. [Site Information] Soma Port Port Maintenance and Management Work (Quay Restoration) Construction Area: Approximately 285 square meters Maximum Subsidence: 97mm Construction Period: 4 days For detailed information on the construction process, please refer to the PDF download below.

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[Construction Example] Bag Manufacturing Factory: Floor Slab Settlement Correction Work and Underfloor Void Filling Work

The machine's level cannot be secured, and spacers are being used. A malfunction has occurred in the machine, affecting product accuracy. This can be resolved with the up-con method.

This time, we will introduce a case study of a bag manufacturing factory in Miyagi Prefecture. Due to the impact of the Great East Japan Earthquake that occurred in March 2011, the floor sank, causing the machines to tilt and hindering production. The Upcon method was adopted because it allows for quick corrections without moving the machines. "We cannot secure the level of the machines and are using spacers." "Malfunctions have occurred in the machines, affecting product accuracy." We receive many inquiries about floor repairs like these at Upcon every day. The feature of the Upcon method is that it can correct floor subsidence in a short time, but another significant advantage is that it does not require the movement of machines or materials for construction. [Site Information] Miyagi Prefecture, Bag Manufacturing Factory Construction Area: Approximately 730 square meters Maximum Subsidence: 111mm Construction Period: 3 days For more details about the construction process, you can view it by downloading the PDF below.

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[Construction Case] Correction Work for Settlement of Logistics Warehouse - Step Adjustment

"Due to the formation of a step in the floor, a ramp was installed." "The floor has settled, causing cracks." Resolved with the up-construction method.

This time, we will introduce a construction case of a logistics warehouse in Niigata Prefecture. In this logistics warehouse, unevenness and cracks occurred in the floor slab due to ground subsidence, which hindered the movement of carts and operations. The Upcon method allows for construction to be carried out without stopping operations and within a short construction period. Additionally, during the polyurethane resin injection, a surveyor is present at all times to manage the floor level in millimeter increments, ensuring a high-quality finish. 【Site Information】 Niigata Prefecture / Logistics Warehouse Construction Area: 1,148 square meters Maximum Subsidence: 71mm Construction Period: 8 days

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"Concrete slab settlement correction method" contributes to the longevity of social infrastructure.

Using high-strength polyurethane resin, we will correct the deformations such as subsidence, steps, flapping, gaps, and voids that have occurred in the concrete slab, without excavation and within a short construction period.

The Upcon concrete slab settlement correction method (KT-080008-A, NETIS registration period ended October 2014) quickly resolves issues such as settlement, step differences, flapping, gaps, and voids that occur in concrete pavement slabs commonly used in highways and other areas. It utilizes specially developed high-strength polyurethane resin, allowing for a swift solution without breaking existing pavement slabs or requiring excavation work, thus achieving a short construction period. This minimizes the downtime of the facility and has established a track record as a planned and efficient method for maintaining social infrastructure. This technology is also employed not only on highways but in repair work for ports and airport aprons, as well as disaster recovery projects. Upcon will exhibit at the "Highway Techno Fair 2023," where cutting-edge technologies supporting highways will be showcased. Date: November 9 (Thursday) and 10 (Friday), 2023, from 10:00 to 17:00 Location: Tokyo Big Sight, West Hall 3 Exhibition Booth No: A-04 On the day of the event, we will also conduct a demonstration of settlement correction using polyurethane resin. We invite you to take this opportunity to see it. We look forward to your visit.

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[Construction Case] Metal Processing Factory: Floor Slab Settlement Correction Work and Deflection Correction Work

A case where the floor of the corridor in the factory sagged and gaps appeared! Introducing an example of how it was fixed in one day without stopping operations.

We would like to introduce a case of "floor sinking correction work and deflection correction work" conducted at a metal processing factory in Fukuoka Prefecture. Due to ground subsidence over time, the floor of the corridor inside the factory sagged, creating gaps between the walls and the floor. To address the floor sagging and eliminate the gaps between the walls and the floor, subsidence correction work was carried out. After the work was completed, the areas that had sunk by up to 72mm, including the maximum subsidence location, were corrected to within management values, and the gaps that had formed between the walls and the floor due to subsidence were also eliminated. 【Case Overview】 ■ Construction Area: 114m2 ■ Construction Period: 1 day ■ Maximum Subsidence: 72mm ■ Area: Fukuoka Prefecture *For more details, please refer to the PDF document or feel free to contact us.

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[Construction Example] Laundry Factory: Filling Work for Loose Ground Under Machinery Foundation

Injecting urethane under the mechanical foundation to resolve ground looseness! Solved in a short construction period of one day.

We would like to introduce a case of "filling work for loosening under the machine foundation and urethane filling work inside the pit" conducted at a laundry factory in Kanagawa Prefecture. Due to the loosening of the ground under the machine foundation, the dewatering machine tilted. Therefore, we performed filling work to inject urethane under the machine foundation to resolve the ground loosening, and also carried out work to fill urethane inside the pit where the dewatering machine is installed to prevent further subsidence. After the construction, we conducted a filling confirmation using a CCD camera and confirmed that the urethane was evenly filled under the machine foundation. [Case Overview] ■ Construction Area: 10m2 ■ Construction Period: 1 day ■ Area: Kanagawa Prefecture *For more details, please refer to the PDF document or feel free to contact us.

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[Construction Case] Packaging Material Factory: Floor Slab Settlement Correction Work

To a factory that produces packaging materials such as cardboard! Introducing examples of subsidence correction work.

Here is an example of "floor sinking correction work" carried out at a packaging materials factory in South Korea. With ground subsidence, the concrete floor also sank, causing the stacked cardboard and other materials in the factory to tilt, which hindered operations. We performed polyurethane resin injection work, continuously checking the level while correcting the sinking. The correction was completed in 4 days with one construction plant vehicle. 【Case Overview】 ■ Construction Area: Approximately 360m2 ■ Location: Incheon, South Korea ■ Construction Period: 4 days *For more details, please refer to the PDF document or feel free to contact us.

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[Construction Case] New Factory Established on Warehouse Site: Floor Slab Settlement Correction Work and Step Correction Work

Improving the cause of the step and puddle at the entrance of the old warehouse! Correcting without replacing the floor.

We would like to introduce a case of "floor sinking correction work and step correction work" conducted at the site of a former warehouse in a factory located in Chiba Prefecture. We considered using it as a new factory and adopted the Upcon method, which allows for corrections to be made in a short time without replacing the floor, and proceeded with the construction. Before the construction, there was a step of about 80mm at the factory entrance, but this was resolved after the work was completed. If you have any issues with the concrete floor in your factory, please feel free to contact us. 【Case Overview】 ■ Construction Area: 660m2 ■ Maximum Sinking Amount: Approximately 110mm ■ Area: Chiba Prefecture ■ Construction Period: 5 days *For more details, please refer to the PDF document or feel free to contact us.

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[Construction Case] Precision Machinery Factory: Floor Slab Settlement Correction Work

A case of correcting the subsidence, gaps, and voids under the factory's earthen floor in just two days during the factory's holiday!

We would like to introduce a case of "floor slab settlement correction work" and "void filling work under the floor slab" carried out at a precision machinery factory in Kagoshima Prefecture. There were voids and cavities of about 30 to 40 mm under the factory's floor slab, and due to the settlement of the floor along with the columnar improvements, a correction request was made to Upcon. The construction was completed over two days during the factory's holiday weekend. After the work was finished, we received a thank-you email from the customer stating, "It was successfully lifted, and we were moved." 【Case Overview】 ■ Construction Area: Approximately 480 m² ■ Maximum Settlement Amount: 41 mm ■ Maximum Void Amount: 35 mm ■ Area: Kagoshima Prefecture ■ Construction Period: 2 days *For more details, please refer to the PDF document or feel free to contact us.

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[Construction Case] Precision Parts Factory: Floor Slab Settlement Correction Work

Settlement of up to 50mm in the concrete floor! A case where the existing concrete floor was corrected in one day without breaking it.

We would like to introduce a case of "floor sinking correction work" conducted at a precision parts factory located in Shizuoka Prefecture. The factory's floor had sunk by a maximum of 50mm, with a correction area of approximately 81m2. The construction period was one day. The injection work was carried out while checking the height with a laser level, and after the resin injection, the filling confirmation was performed using a CCD camera. 【Case Overview】 ■ Construction Area: Approximately 81m2 ■ Maximum Sinking Amount: 50mm ■ Area: Shizuoka Prefecture ■ Construction Period: 1 Day *For more details, please refer to the PDF document or feel free to contact us.

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[Construction Example] Parts Assembly Factory: Floor Slab Settlement Correction Work

Due to the sinking of the floor, work was hindered! Here is an example of a case where corrections were made in a short period without stopping operations.

Here is an example of "floor sinking correction work" carried out at a parts assembly factory in Fukuoka Prefecture. Due to the sinking, the floor was slanted, making it difficult to adjust the jacks during conveyor assembly. As a result of the work, we were able to improve the situation to the point where assembly operations could be carried out smoothly. 【Case Overview】 ■Issue - The floor was slanted due to sinking, making it difficult to adjust the jacks during conveyor assembly. ■Result - The situation was improved to the point where assembly operations could be carried out smoothly. *For more details, please refer to the PDF document or feel free to contact us.

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[Construction Example] Food Factory 2nd Floor: Settlement Correction Work and Unevenness Correction Work

Correction of unevenness and settlement on a floor with a special structure! Resolving issues with cart operations caused by unevenness.

We would like to introduce a case of "settlement correction work and unevenness correction work" carried out on the second-floor slab of a food factory located in Kanagawa Prefecture. Unevenness occurred in the floor panels of the refrigerated room, causing issues with the movement of carts transporting goods, and the panels were being held down with anchors to suppress the unevenness. After the construction, the settlement in front of the entrance was resolved, and the floor panels' floating issue was also eliminated by filling the urethane layer with new urethane. 【Case Overview】 ■ Construction Area: 46.17m² ■ Maximum Settlement Amount: 42mm ■ Void Amount: 46.17 ■ Area: Kanagawa Prefecture ■ Construction Period: 4 days (including ancillary work) *For more details, please refer to the PDF document or feel free to contact us.

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[Construction Example] Factory: Ground Floor Settlement Correction Work

Materials and cargo are not stacking straight! Here are examples of how we corrected sinking and resolved issues.

Here is an example of "floor sinking correction work" carried out at a factory in Iwate Prefecture. At this factory, the floor had sunk due to ground subsidence, causing issues such as materials and cargo not stacking straight and forklifts being unable to access certain areas. The maximum subsidence was approximately 130mm, and the work was done over a large area of about 2000m2, completed in 16 days. 【Case Overview】 ■ Work Area: Approximately 2000m2 ■ Maximum Subsidence: Approximately 130mm ■ Maximum Void: Approximately 80mm ■ Area: Iwate Prefecture ■ Construction Period: 16 days *For more details, please refer to the PDF document or feel free to contact us.

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[Construction Case] Office/Parts Storage: Settlement Correction Work

No interruption in operations, correction of subsidence! Introducing a case where the floor level was adjusted and the gaps in the walls were improved.

We would like to introduce a case of "settlement correction work" carried out at the office and parts warehouse of an automobile manufacturer located in Hokkaido. In this company, the building had tilted due to settlement, causing issues with the opening and closing of doors and creating gaps in the ceiling. Therefore, the Upcon method was adopted because it could be implemented without stopping operations and within a short construction period. After the work was completed, the floor levels throughout the office and parts warehouse were corrected, and the gaps in the walls that had existed before the construction were also improved. 【Case Overview】 ■ Construction Area: 345m2 ■ Maximum Settlement: 63mm ■ Maximum Gap: 70mm ■ Area: Office of an automobile manufacturer located in Hokkaido ■ Construction Period: 3 days *For more details, please refer to the PDF document or feel free to contact us.

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[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.

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[Construction Example] Distribution Station: Floor Slab Settlement Correction / Underfloor Void Filling Work

Due to the extensive area of the modifications, the construction was carried out in several phases!

We would like to introduce a case of "floor sinking correction" and "underfloor void filling work" carried out at a distribution station of a product manufacturer located in Niigata Prefecture. Due to consolidation settlement, various areas within the station showed signs of sinking and sagging, prompting the adoption of the Upcon method, which allows for quick corrections. Since the area requiring correction was extensive, we utilized weekends during business shutdowns to divide the construction period and carry out the work. [Case Overview] ■ Construction Area: Approximately 1,460m2 ■ Maximum Settlement: 103mm ■ Maximum Void: 90mm ■ Area: Distribution station of a product manufacturer in Niigata Prefecture ■ Construction Period: 8 working days (Note: Construction was carried out in several phases) *For more details, please refer to the PDF document or feel free to contact us.

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[Construction Case] Large Product Storage Warehouse: Floor Slab Settlement Correction Work / Construction in 2010

Adopting the up-con method for short-term intensive repairs! Construction carried out to accommodate multiple plant vehicles.

We would like to introduce a case of "floor sinking correction work" conducted at a large product storage warehouse in Ibaraki Prefecture. Due to ground subsidence, the stacked cardboard boxes were leaning. For concentrated repairs over a short period, the Upcon method was adopted, and our company carried out the work with multiple plant vehicles. 【Case Overview】 ■ Construction Area: Approximately 2,000m2 ■ Maximum Subsidence: 110mm ■ Area: Large product storage warehouse in Ibaraki Prefecture ■ Construction Period: 6 days (Day 1: 4 vehicles, Days 2-6: 2 vehicles for construction) *For more details, please refer to the PDF document or feel free to contact us.

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[Construction Case] Short-term Correction: Certain Food Warehouse Void Filling Work

Upcon construction method using rigid polyurethane foam! Introducing a case where a cavity was corrected in three days.

We would like to introduce a case of "void filling work" conducted at a certain food warehouse in Kanagawa Prefecture. Using the Upcon method, we were able to fill voids that had formed under the floor with polyurethane resin in a short period of time, correcting a maximum void of 270mm (with a construction area of approximately 171m2) in just three days. After the resin filling, we confirmed the filling condition with a CCD camera and filled the injection holes with non-shrink mortar. 【Case Overview】 ■ Construction Area: Approximately 171m2 ■ Maximum Void Size: 270mm ■ Area: A certain food warehouse in Kanagawa Prefecture ■ Construction Period: 3 days *For more details, please refer to the PDF document or feel free to contact us.

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[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.

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[Construction Case] Supermarket: Floor Deflection Correction / Settlement Correction Work

Correction during nighttime while business is suspended! A case of correcting floor sagging due to ground subsidence in a short construction period.

We would like to introduce a case of "floor deflection correction" and "settlement correction work" carried out at a certain supermarket in Ibaraki Prefecture. The customer in this case was troubled by the floor inside the store being deflected due to settlement. Using the Upcon method, the work was conducted only at night, with minimal impact on business. The work was completed in a short period of two days without closing the store. 【Case Overview】 ■ Construction Area: Approximately 450m2 ■ Maximum Settlement Amount: Approximately 83mm ■ Area: Ibaraki Prefecture ■ Construction Period: 2 days *For more details, please refer to the PDF materials or feel free to contact us.

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[Construction Case] Game Center: Earthquake Recovery Work / Floor Slab Settlement Correction Work

Due to the impact of the China-Vietnam earthquake, part of the floor inside the store has sunk! Case study of sinking correction work at a game center.

We would like to introduce a case where "disaster recovery construction" and "floor sinking correction work" were carried out at a game center located along a national highway in Niigata Prefecture. In this case, part of the floor inside the store sank due to the effects of the Chuetsu earthquake. As it was possible to correct the sinking in a short period, our company was requested to perform the sinking correction. The sinking was corrected using the Upcon method with rigid polyurethane foam. The construction was completed in one day. 【Case Overview】 ■ Area of sinking correction: Approximately 83m2 ■ Maximum sinking amount: -77mm ■ Planned correction value: Within 16mm ■ Area: Niigata Prefecture ■ Construction period: 1 day *For more details, please refer to the PDF document or feel free to contact us.

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[Construction Case] Drugstore: Settlement Repair Work (Niigata Prefecture)

Floor sagging due to ground subsidence! A case of straightening the floor before store renovation.

Here is a case study of "settlement correction work" conducted at a drugstore in Niigata Prefecture. In this case, the store's floor had sagged due to settlement. At the time of the store renovation, they wanted to correct the floor to make it level, and our Upcon method was adopted. The construction area was approximately 1500m2. Using the concrete replacement method, a project that typically takes one month was completed in just four days. (Settlement amount approximately 100mm) 【Case Overview】 ■ Construction Area: Approximately 1500m2 ■ Maximum Settlement Amount: Approximately 100mm ■ Area: Drugstore in Niigata Prefecture ■ Construction Period: 4 days *For more details, please refer to the PDF document or feel free to contact us.

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[Construction Case] Toy Retail Store / Electronics Retail Store: Earthquake Recovery / Floor Settlement Correction Work

Due to the impact of the Great East Japan Earthquake, the floor inside the store has significantly sunk! There have been cases where gaps have formed between the floor and the walls, as well as between the walls and the ceiling.

We would like to introduce a case of "earthquake recovery construction" and "floor subsidence correction work" carried out at a toy retail store and an electronics retail store in Fukushima Prefecture. Due to the impact of the Great East Japan Earthquake, the floor inside the toy retail store sank significantly. As a result of the floor subsidence, gaps were observed between the floor and walls, as well as between the walls and ceiling. Therefore, an up-con method that can be corrected during the night while the store is closed was adopted, and our company carried out the correction work. Additionally, since there were voids under the floor, we also implemented void filling work by injecting polyurethane resin into the gaps. 【Case Overview】 ■ Construction Area: Approximately 2,300m2 ■ Maximum Subsidence: 144mm ■ Area: Fukushima Prefecture ■ Construction Period: Continuous 11 nights (2012) *For more details, please refer to the PDF document or feel free to contact us.

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[Construction Example] Shopping Center: Subfloor Settlement Correction Work

Due to consolidation settlement, the floor has sunk over a wide area inside the store! A gap has occurred between the floor and the wall.

We would like to introduce a case of "subfloor sinking correction work" and "subfloor void filling work" carried out at a shopping center in Iwate Prefecture. Due to consolidation settlement, sinking was observed over a wide area of the floor. As a result of the floor sinking, gaps appeared between the floor and walls, causing various issues throughout the store. An Upcon method that could be corrected during the night while the store was closed was adopted, and our company performed the corrections. Additionally, since voids and cavities were also observed under the floor, void filling work using urethane was carried out as well. [Case Overview] ■ Construction Area: Approximately 540m² ■ Maximum Settlement Amount: 71mm ■ Maximum Void Amount: 190mm ■ Area: Iwate Prefecture ■ Construction Period: Continuous 7 nights *For more details, please refer to the PDF materials or feel free to contact us.

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[Construction Example] Supermarket: Subfloor Settlement Correction Work (Gifu Prefecture)

Floor subsidence due to weak ground! Introducing a case where repairs were made during nighttime while the business was closed.

We would like to introduce a case of "subfloor sinking correction work" carried out at a large supermarket located in Gifu Prefecture. A large portion of the backroom and store interior had sunk, causing gaps to appear between the floor and walls due to the floor sinking, resulting in various issues throughout the store. An Upcon method that can be corrected during the night while the store is closed was adopted, and our company performed the corrections. 【Case Overview】 ■ Construction Area: Approximately 700m2 ■ Maximum Sinking Amount: 85mm ■ Area: Gifu Prefecture ■ Construction Period: Continuous 5 nights (2013) *For more details, please refer to the PDF document or feel free to contact us.

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[Construction Case] Leisure Facility: Subfloor Settlement Correction Work (Ibaraki Prefecture)

Due to the impact of the Great East Japan Earthquake, subsidence occurred! Adjustments of 350m2 were made over four consecutive nights of construction.

Here is a case study of "subfloor sinking correction work" conducted at a leisure facility in Ibaraki Prefecture. We carried out correction work for a significantly sunken floor in the pachinko area within the facility. Sinking was also observed in other areas, including in front of the machine room and in the restrooms, and we performed sinking correction work over a total construction area of approximately 350m2 over four consecutive nights. [Case Overview] ■ Construction Area: Approximately 350m2 ■ Maximum Sinking Amount: 93mm ■ Area: Ibaraki Prefecture ■ Construction Period: Four consecutive nights (2011) *For more details, please refer to the PDF document or feel free to contact us.

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[Construction Case] Large Pachinko Parlor: Subfloor Settlement Correction Work (Miyagi Prefecture)

Significant damage from the Great East Japan Earthquake! Introducing a case of subsidence correction with a maximum subsidence of 112mm.

Here is a case study of "subfloor sinking correction work" conducted at a large pachinko parlor located in Miyagi Prefecture. The large pachinko parlor suffered significant damage due to the Great East Japan Earthquake. Extensive renovation work was carried out for a swift reopening. Sinking also occurred in the store's flooring, and the Upcon method, which allows for quick corrections, was adopted. Our company implemented the floor sinking correction by injecting urethane resin under the subfloor, successfully correcting all areas within the construction scope, including a section that had sunk by a maximum of 112mm, to within the planned values. [Case Overview] ■ Construction Area: Approximately 230m2 ■ Maximum Sinking Amount: 112mm ■ Area: Miyagi Prefecture ■ Construction Period: 1 day (2011) *For more details, please refer to the PDF document or feel free to contact us.

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Construction method

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Construction method Product List and Ranking from 483 Manufacturers, Suppliers and Companies | IPROS GMS

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