This article is a an excerpt from the classes held in the last week of May 2013. Students were instructed to examine the solar penetration of their architectural models with the aid of a mobile Heliodon. [Illustrated below]
A mobile direct sunlight medium-duty quasi-universal heliodon mounted on lockable wheels, set for 22.5 degree latitude North, 6 May, or 7 August. The components constitute an integrated simulated earth-latitude-time-DAY system assembly, all mounted onto a circular shaft which is then mounted onto a movable cart on lockable wheels. The overall space dimension for storage of the heliodon is 760 mm x 560 mm x 1100 mm high, when it is not in operation.
Building models of less than 10
kg of medium size, built on a strong and rigid plate such as an aluminum plate,
can be mounted onto the heliodon by G clamps. Skillful manual operation will
allow even larger and heavier models to be partially fixed by G clamps onto the
heliodon, and partially manually held in position during heliodon, extending
its practical use to a wider range of model size and weight.
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Examining the model outdoor using natural sunlight.
Examining the model indoor using an assembly of Fresnel Lens
and Quartz Lamps with the Heliodon.
Adjusting the assembly of components.
The combined Northern Hemisphere-Southern Hemisphere Day Selector of the heliodon, showing the unblocked parallel light going through the gnomon aperture for working the full range of days shown in the day selector scale. The light spot casting onto the day selector scale can be adjusted by moving the heliodon on its wheels and operating the handle so that the light spot will fall between the 2 long parallel lines at the centre of the Day Selector Scale.
The Time Selector is a revolving ring attached to the simulated earth axis.
These assemblies produce
reasonably strong quasi-parallel light falling onto building models, minimizing dimensional errors of the shadows
of the components of building models.
It is
expected that this mobile heliodon will help educate effectively the
students studying architecture, building and engineering courses, and for
general education in universities. This heliodon is a convenient, mobile and
affordable tool to be used by the building and architecture profession, and the
general public on solar architecture design. This will arouse the general
public in wider acceptance and demand on more integration of solar design into
buildings, contributing to building a sustainable world.
This reported heliodon should
provide the speed and accuracy demanded for detailed scaled physical day-lighting
model study, complementing computational day-lighting modeling, in accurate
day-lighting analysis.
Related articles on-line:
K.P. Cheung, “A table top
heliodon developed for use in an architect’s design studio”, International
Journal on Architectural Science, Vol. 2, No. 4, pp. 118-128 (2001). http://www.bse.polyu.edu.hk/researchCentre/Fire_Engineering/summary_of_output/journal/IJAS/V2/p.118-128.pdf
K.P. Cheung, H.M. Kam and C.F. Lam, “A Multi-Lamp Heliodon for Architectural
Schools”,
International Journal on Architectural Science, Vol. 1, No. 1, pp. 46-58
(2000). http://www.bse.polyu.edu.hk/researchCentre/Fire_Engineering/summary_of_output/journal/IJAS/V1/p.46-58.pdf
K.P. Cheung, and S.L. Chung, “A Table Top Heliodon with a Moving Light Source for Use
in an Architect's Office”, International Journal on Architectural Science, Vol. 3, No. 2, pp. 51-60
(2002). http://www.bse.polyu.edu.hk/researchCentre/Fire_Engineering/summary_of_output/journal/IJAS/V3/p.51-60.pdf
Kwok
Pun CHEUNG. U S Patent No. US6523270 B1. A Universal Heliodon-Sundial, patent issued
by US Patent Office on 25 February 2003. http://hub.hku.hk/handle/10722/142203
, also searchable at http://portal.uspto.gov/external/portal/!ut/p/
K.P. Cheung “A discussion on the
design principles of a patented portable direct sunlight light-duty universal
heliodon mounted on a camera tripod”. International Journal on Architectural
Science. Department of Building Services Engineering. The Hong Kong Polytechnic
University. Volume
8, Number 4, p.98-113, 2011. http://www.bse.polyu.edu.hk/researchCentre/Fire_Engineering/summary_of_output/journal/journal_AS.html
