September 24, 2019


‘Webframe’ of Iidabashi Station, Toei Oedo Line

Kikukawa provides comprehensive solutions for metal constructions from design to installation. This ability comes into its own for creative or cutting-edge projects and those with dual curved or complex designs.

As an example of this, we introduce the ‘webframe’ of Iidabashi, a green framework with a networked configuration that covers the ceiling of Iidabashi subway station of Toei Oedo line. Over 1300m of fluorescent green painted steel pipes that function as a ceiling and lighting are webbed, undulated and spread across the escalator ceiling. This project was completed in 2000, and subsequently won the Architectural Design Division of the AIJ (Architectural Institute of Japan) prize in 2002.

The 3D model of the ‘Webframe’
The 3D model of the ‘Webframe’

This ‘webframe’ was designed by Makoto Watanabe, the numerous award-winning architect (including JIA, Japan Institute of Architects, Rookie of the Year award), best known for designing ‘Aoyama Technical College’ and ‘Shin Minamata Station.’ The Iidabashi station project is also known as the first ‘algorithmic designed*’ architecture to be implemented.

The design intent was to turn the long monotonous escalator hall into a fun space, thus the concept was ‘to show the structure of the space by minimizing the ceiling or wall panels’. The ‘webframe’ resembles the growth of plant roots extending towards the ground, where the wing shaped ventilation tower stands.

The design of ‘webframe’ balances a program generated uniformity and freehand trajectory by using ‘algorithmic design*’
The design of ‘webframe’ balances a program generated uniformity and freehand trajectory by using ‘algorithmic design*’

The ‘webframe’ extends from B6F to B1F, covering a concrete exposed space of roughly 55m in length and 15m in width, including the stair landing.

The webbed structure is ‘lifted’ in various places by virtual ellipsoids, designed with 3D CAD (CADCEUS), a design attempt that was ahead of its time, and implemented through polygonal pipe frames.

Installing the ‘webframe’
Installing the ‘webframe’

The main material of the ‘webframe’ is 2.3mm thick, 76.3mm diameter steel spheres and 2.8mm thick, 76.3mm diameter steel round pipes. Both are finished with fluorescent green urethane resin paint.

The fabrication difficulty was in the cutting of the round pipes for built-in lighting, and the contact point of the webbed structure.

The difficulties in metalcrafting the round pipes were overcome by our craftsmen coming together to understand and resolve each issue.

The contact point, hereinafter named the joint, of the webbed structure is crafted by all around welding of round pipes to the spheres in various angles. The joints alone amounted to over 1000 pieces, thus an automatically deployed 3D-CAD program, a specialized jig, and 20 assembling craftsmen came together to craft the ‘webframe’.

The joints are hung by hanging bolts and wires
The joints are hung by hanging bolts and wires

The installation of the project was limited in time, thus Kikukawa considered various factors from the design stage to conduct a high standard installation. For example, each joint and the extending round pipes are connected by a joint sleeve that allows length adjustment onsite. Installation sequence was carefully negotiated and decided to ensure the accuracy of the installation: our conclusion was to carefully measure the placement of the joints and fix them with hanging bolts and wires, then connect the round pipes to create the webbed structure.

There are no identical polygons in ‘webframes’ thus careful management of the materials and parts were required of all sections
There are no identical polygons in ‘webframe’ thus careful management of the materials were required throughout the project

This project showcases Kikukawa’s ability to accommodate design process requirements ahead of its time, provide metal craftsmanship that realised high precision cutting of round pipes and all-around welding, the ability to control and manage the complex projects in all divisions, and the ability to implement high standard installation under limitations.

Kikukawa will continue to work on providing a comprehensive solution to implement various designs.

Click here for more information on Makoto Sei Watanabe / Architect’s Office

*Algorithmic design: A method of architectural design that uses certain algorithms (such as parameters) to create shapes and models

July 26, 2019


Partnership with Look Facade

Kikukawa is pleased to announce that it is entering into a partnership with Look Façade, a French façade consultant, to intensify Kikukawa’s presence in Europe.

Kikukawa’s catalogs and samples will be on display in Look Façade’s showroom in Paris – allowing architects to view and observe the high-quality and complex nuances of finish samples, and the fine craftsmanship and technology behind our work.

This partnership follows Kikukawa’s success in European projects – its metal craftsmanship has been highly regarded in large-scale projects such as the bronze constructions for Bloomberg’s London Headquarters.

Look Façade is extensively experienced in technical marketing of façade panels. This collaboration will provide European audiences with easier access to Kikukawa’s expertise and high-quality metal constructions.

For more information on Look Façade, click here (external link)

For more information on Kikukawa’s overseas projects, click here

June 28, 2019


2019 Summary of Updates (First Half)

December 20, 2018


2018 Summary of Updates

December 20, 2017


2017 Summary of Updates

Here is a list of contents updated or added on our corporate website until 2017. This includes new contents or new Project Gallery and Technology pages.


20 Dec. 2017 – Project Gallery: Sumitomo Azabu Juban Building

20 Dec. 2017 – Project Gallery: Shumon Door – Okudo Fire Department

18 Dec. 2017 – Project Gallery: Yakushiji Temple – Jikido Hall

4 Dec. 2017 – Project Gallery: Fuchu City Medical Association Hall

12 Oct. 2017 – Technology: 8m Bender

14 Sep. 2017 – Project Gallery: POKKE (Ueno KS Building)

7 Sep. 2017 – Technology: Zinc Phosphate Coating

1 Sep. 2017 – Project Gallery: Pavilion

2 Aug. 2017 – Technology: Silky Blast Finish

2 Aug. 2017 – Project Gallery: Creche Ropponmatsu

31 Jul. 2017 – Technology: Incremental Forming

12 Jul. 2017 – Project Gallery: Higashihama Station

30 Jun. 2017 – Project Gallery: Bloom ~mebuku (sprouting)~

19 Jun. 2017 – New Content: ecosia・Green Products

5 Jun. 2017 – New Content: Renovation

24 Apr. 2017 – New Content: Materials and Brochures

24 Apr. 2017 – New Content: Finish Samples

10 Apr. 2017 – Project Gallery: Tsukiji KY Building

6 Apr. 2017 – Project Gallery: Sumida Hokusai Museum

17 Mar. 2017 – New Content: Custom Metalwork

12 Dec. 2017 – New Content: SEASON’S GREETINGS 2017

14 Dec 2016 – Project Gallery: Shiki Juraku

14 Nov. 2016 – Renewal of Corporate Website