Three 1:20 scale industrial transformer models completed for export
We actually completed these models last month, a week ahead of schedule and they are now about to head off abroad, two to China and one to Brazil. They are part of an order for four identical 1:20 scale models, the first of which was completed and delivered before Christmas. If you click on the images to enlarge them, you’ll be able to see the high level of detail we can achieve at this large scale (the models are over a metre long). We made a similar model for the client over a year ago and it generated such a positive response from their overseas colleagues that they’ve come back to us for more.
Recycling Centre Model – Scale 1:250
We’ve just delivered this model illustrating the newly extended and refurbished premises for an
industrial recycling company. Although models of industrial premises aren’t particularly exciting
to look at, the addition of some landscaping detail and lorries in the company’s authentic livery
brings this model to life. The client was really pleased with the finished result and the model
is now in a meeting area where staff and clients can see how the new extended facilities will look
when all the building work is complete.
Plasma Power Station Model – Scale 1:250
The brief for this project was to create a stylized representation of this power station building that could be packed into a travel case and taken as hand luggage on international flights. This meant the overall dimensions of the case had to be no bigger than 560 x 450 x 240mm. The only way this was possible was to make the model in two halves that stacked back to back inside the foam-lined case. The chimney stacks were too tall to fit so we designed them to be unscrewed and packed flat during transit.
GlaxosmithKline Factory Model - Scale 1:75
The brief for this model was to create a 3D internal view of this GSK production plant which produces Penicillin for the pharmaceutical industry. The company frequently show visitors around the facility and felt they needed a simple visual illustration of the complex internal layout of the building. Our solution was to create this stylized 3D representation of the plant with the building floor plates in clear acrylic so that the viewer could appreciate, at a glance, the vertical and horizontal layout of all the major industrial components involved in the process. At 1:75 scale, the model is just over 2.4 metres long so it can be easily viewed by a group of people, making it an ideal starting point for a tour of the building.
Creating the model involved deciphering and rationalizing a huge volume of technical drawings so that we could design a pared down representation of the main production equipment. A crucial part of this process was keeping an ongoing dialogue with the client to make sure we were interpreting the information correctly. The client was extremely pleased with the final result and has in fact commissioned “Phase 2” of the project which involves adding further levels of detail plus some of the external plant and storage vessels that weren’t required for the original model. They have also indicated that they will require further similar models of other buildings plus an overall site model of the whole facility. So all in all, we’re looking forward to building a healthy relationship with GSK!
Perspex House Model – Scale 1:20
Produced for a major central heating system manufacturer, this set of three Perspex model houses was designed to illustrate the layout and main components of 3 different heating systems. The model houses were made from clear Perspex so that the viewer could see the position and relative sizes of all the major system components within the building walls. The models could be displayed individually or butted up against each other to create a “street” of typical houses. Whilst the houses are obviously a very stylized representation, the heating system hardware (boilers, cylinders, solar collectors, etc) is modeled to a fairly detailed level so that the units are instantly recognizable. Red and blue lines were used to indicate the hot and cold flow routes between the components.