List of Construction methods and technologies products
- classification:Construction methods and technologies
1846~1890 item / All 6497 items
It can be quickly implemented in existing facilities such as outdoor areas and lockers where securing power is difficult. Rental options help reduce the costs of implementation and operation.
- Attendance management system
Direct 1-to-1 outbound support that reaches the DX departments of major corporations!
- Other Software
Providing reliable solutions with innovative ideas! A partner with worldwide experience in solving vibration issues.
- Earthquake-resistant construction method
Examples of applications in pedestrian bridges, offices, hotels, etc., including pendulum types and rail types!
- Earthquake-resistant construction method
Introducing a case where a high vibration isolation effect was achieved using a gel floating floor!
- Earthquake-resistant construction method
GERB Floating Bed Construction Demonstration
We will hold a demonstration of floating floor construction using the GERB embedded coil spring vibration isolation device. Our unique embedded type construction has received many requests from people who would like to see it in action. We invite you to experience the construction process and confirm the vibration isolation effects and usability of the floating floor using coil springs. Period: From September 2024 Venue: Ayase City, Kanagawa Prefecture * The nearest stations are Ebina Station or Atsugi Station on various lines. * Details regarding the meeting place will be provided separately by our staff. Application Method: Please inform our representative of your desired date and time. Content: - We will conduct the following demonstrations on a floating floor with dimensions of 2.3×3.3m. - Lift-up operation of the floating floor using the GERB embedded coil spring vibration isolation device - Measurement of vibration transmission rate of the floating floor using the coil spring vibration isolation device - Comparison with other vibration isolation materials
By using coil spring support to create a floating floor at 3-5 Hz, vibration transmission is reliably suppressed!
- Earthquake-resistant construction method
GERB Floating Bed Construction Demonstration
We will hold a demonstration of floating floor construction using the GERB embedded coil spring vibration isolation device. Our unique embedded type construction has received many requests from people who would like to see it in action. We invite you to experience the construction process and confirm the vibration isolation effects and usability of the floating floor using coil springs. Period: From September 2024 Venue: Ayase City, Kanagawa Prefecture * The nearest stations are Ebina Station or Atsugi Station on various lines. * Details regarding the meeting place will be provided separately by our staff. Application Method: Please inform our representative of your desired date and time. Content: - We will conduct the following demonstrations on a floating floor with dimensions of 2.3×3.3m. - Lift-up operation of the floating floor using the GERB embedded coil spring vibration isolation device - Measurement of vibration transmission rate of the floating floor using the coil spring vibration isolation device - Comparison with other vibration isolation materials
Functions more effectively than rubber bearings! Depending on the track section, the application of polyurethane pads is also possible.
- Earthquake-resistant construction method
The support system using elastic materials can be adapted to the specific structural and specification requirements of each case!
- Earthquake-resistant construction method
Developing various vibration isolation systems to reduce the transmission of vibrations caused by railways!
- Earthquake-resistant construction method
Introducing a case where vertical vibration propagation was suppressed by a 1Hz floating floor!
- Earthquake-resistant construction method
GERB Floating Bed Construction Demonstration
We will hold a demonstration of floating floor construction using the GERB embedded coil spring vibration isolation device. Our unique embedded type construction has received many requests from people who would like to see it in action. We invite you to experience the construction process and confirm the vibration isolation effects and usability of the floating floor using coil springs. Period: From September 2024 Venue: Ayase City, Kanagawa Prefecture * The nearest stations are Ebina Station or Atsugi Station on various lines. * Details regarding the meeting place will be provided separately by our staff. Application Method: Please inform our representative of your desired date and time. Content: - We will conduct the following demonstrations on a floating floor with dimensions of 2.3×3.3m. - Lift-up operation of the floating floor using the GERB embedded coil spring vibration isolation device - Measurement of vibration transmission rate of the floating floor using the coil spring vibration isolation device - Comparison with other vibration isolation materials
We will introduce examples of measures taken to address issues such as the sound of ship whistles, sound insulation between halls, and docking vibrations!
- Earthquake-resistant construction method
Don't you think it's natural to leave steel sheet piles in place during construction near sewer pipes? With this method, you can safely extract the steel sheet piles and suppress subsidence.
- Ground foundation construction method
"Over 850 construction achievements" The 'GEOTETS method' ensures no underground obstacles are left due to abandonment (burial)! It minimizes impact on the surrounding area and also addresses soil con...
- Ground foundation construction method
Announcement of Participation in the Railway Technology Exhibition 2021 [GEOTETS Method]
We will be exhibiting at the Railway Technology Exhibition 2021 held at Makuhari Messe. [Over 400 construction achievements] This is an opportunity to learn more about the 'GEOTETS method' that leaves no underground obstacles due to abandonment (burial)! We look forward to your visit!
No underground obstacles will be left behind due to abandonment (entombment)! The 'GEOTETS method' is effective in such areas.
- Ground foundation construction method
- Civil Engineering Method
- Earth retaining wall/foundation reinforcement
A technology that allows for the safe extraction of steel sheet piles even in locations close to railways: "GEOTETS Method."
The "GEOTETS Method" is a construction technique that allows for simultaneous filling while pulling out from pre-installed filling pipes into the voids created by the extraction process. It highly suppresses ground displacement, enabling safe extraction of retaining materials. In recent years, due to the frequent occurrence of major disasters caused by heavy rain, this method has seen an increase in usage as a countermeasure that does not create water channels in retaining works for rivers and reservoir embankments, and it can also be implemented underwater. In soil contamination countermeasure projects, a two-year groundwater monitoring period is required after the completion of the work, which prevents the extraction of retaining materials. By adopting this method, which has the function of a waterproof wall, retaining materials can be removed early, leading to cost reductions. Additionally, we will be exhibiting at the "Sewerage Exhibition '21 Osaka" to be held at Intex Osaka from August 17 (Tuesday) to August 20 (Friday), 2021. We sincerely look forward to your visit.
The recycled and reused steel sheet piles exceed 86,000 tons. It is a construction method that prevents loosening of the surrounding ground when extracting steel sheet piles!
- Ground foundation construction method
- Civil Engineering Method
- Earth retaining wall/foundation reinforcement
Environmental conservation and recycling solutions that contribute to soil improvement and contaminated soil purification!
- Special Construction Method
Independently developed for cleaning the drainage pipes of condominium exclusive areas! Safe, secure, efficient, and effective cleaning [patented technology for a special cleaning device with a rotati...
- Special Construction Method
Stay for over 8 hours to dissolve urinary stones! Acidic level 2 to 3 times that of commercially available toilet cleaning agents [Sewage Pipe Urinary Stone Dissolving Cleaner].
- Special Construction Method
This is a reinforced blind rivet with a thicker body that significantly improves strength.
- Systems Architecture
We produce this at our domestic factory in Higashi-Osaka City, a city known for manufacturing. It is a high-performance rivet that particularly improves joint strength in thin plates.
- Housing structure technology/long-term superior housing technology
Produced at our domestic factory! These are all pure titanium blind rivets.
- Special Construction Method
Orfa Co., Ltd. has started selling titanium blind rivets on their online store!
We have listed our "Titanium Blind Rivets" on the dedicated online store of Orfa Co., Ltd., which specializes in the manufacturing, processing, and sales of non-ferrous metal materials centered around titanium. You can purchase our entire lineup starting from small lots of 10 pieces, so please consider it. We sincerely look forward to your orders!
This is a blind rivet made of high corrosion-resistant stainless steel SUS316.
- Renovation and repair methods
SUS316 blind rivets now on sale!
Our company is currently offering SUS316 blind rivets that are well-received in the market. We use SUS316 material, which has excellent corrosion resistance compared to standard austenitic blind rivets, and we have two types available: open type and bulbing type, depending on the riveting area. We encourage you to consider using these products for specified areas with SUS316 material or in coastal regions. *We also have sizes available for sample provision. Please feel free to contact us for more details. *Depending on the size and quantity, immediate delivery may be possible. Please feel free to contact us for more details.
You can run and jump! The ideal floor recommended by veterinarians.
- Special Construction Method
- Other construction services
【Overwhelming Difference!】Sign and Signboard Restoration! The color and shine of faded signs are revived! Prevents chalking and protects signs from UV rays and acid rain!
- Special Construction Method
Protects the anti-corrosion layer over the long term and maintains corrosion resistance! Reduces human and environmental impact.
- Special Construction Method
Introducing the project to "protect bridges" so that they can be used "longer" and "safer"!
- Renovation and repair methods
A new method that changes the common understanding of existing pile extraction (pile pulling) construction!
- Ground foundation construction method
The journey of the Omiya Bridge revitalization undertaken with the local community! It was selected for the 2020 All Construction Award (Road Division) as a bridge repair project using the IPH method.
- Renovation and repair methods
High-density filling with ultra-low pressure injection even for fine cracks of 0.01 mm. Significant reduction in construction time and cost compared to conventional methods is possible! *2020 version ...
- Renovation and repair methods
We have launched a special website.
The special website for the "IPH method," which achieves strength recovery and durability improvement of concrete structures, has been launched in collaboration with industry and academia. This site compiles information related to the restoration of civil engineering heritage using SGI Engineering's IPH method in collaboration with industry, government, and academia. Please take a look.
This is an introduction to the IPH method (Internal Pressure Filling Joint Reinforcement Method). Case study of the repair work on a bridge over a levee.
- Renovation and repair methods
This is a case study of the IPH method (Internal Pressure Filling Joint Reinforcement Method). Shima Kanko Hotel Classic Seismic Retrofit and Other Construction Work.
- Renovation and repair methods
This is a case introduction of the IPH method (Internal Pressure Filling Joint Reinforcement Method). Oborozukiyo Retaining Wall Renovation Project.
- Renovation and repair methods
This is an introduction to the IPH method (Internal Pressure Filling Joint Reinforcement Method). It includes seismic retrofitting and other construction work for the first mechanical electronics buil...
- Renovation and repair methods
This is an introduction to the IPH method (Internal Pressure Filling Joint Reinforcement Method). Replacement of the Sarukobashi hardware and other construction work.
- Renovation and repair methods
This is a case introduction of the IPH method (Internal Pressure Filling Joint Reinforcement Method). No. 77: Reinforcement work for the bearing section of the floating pier at Kogō Port.
- Renovation and repair methods
This is a case introduction of the IPH method (Internal Pressure Filling Joint Reinforcement Method). H27 Town Road Menkawa Line Kanmon No. 2 Tunnel Repair Work.
- Renovation and repair methods
This is an introduction to the IPH method (Internal Pressure Filling Joint Reinforcement Method). Rehabilitation work on the Sakaebashi Bridge.
- Renovation and repair methods
This is a case study of the IPH method (Internal Pressure Filling Joint Reinforcement Method). Repair work on the Takakuma Bridge superstructure.
- Renovation and repair methods
This is an introduction to the IPH method (Internal Pressure Filling Joint Reinforcement Method). Case study of bridge reinforcement work (Toyoko Bridge).
- Renovation and repair methods
This is a case study of the IPH method (Internal Pressure Filling Joint Reinforcement Method). It involves the construction work for preventing the collapse of the Bunka Bridge.
- Renovation and repair methods
This is an introduction to the IPH method (Internal Pressure Filling Joint Reinforcement Method). Case study of the Bancho Tunnel crack repair work.
- Renovation and repair methods
This is an introduction to the IPH method (Internal Pressure Filling Joint Reinforcement Method). Emergency disaster prevention and sediment control work on the first-class river Nio River.
- Renovation and repair methods
This is an introduction to the IPH method (internal pressure filling joint reinforcement method). Case study of road improvement work (subsidy) Project No. 3.
- Renovation and repair methods
This is an introduction to the IPH method (internal pressure filling joint reinforcement method). H27 Bridge No. 2 Miyagawa Bridge repair work.
- Renovation and repair methods