Loading...
An Edwardian sapphire and diamond ring, the oval faceted sapphire estimated to weigh 1.2 carats, vertically set between two old-cut diamonds weighing approximately 0.50 carats each, horizontally-set between two smaller old-cut diamonds estimated to weigh 0.15ct each, to old-cut diamond-set scroll designed shoulders, the diamonds estimated to weigh a total of 1.4 carats, all set in platinum and yellow gold, circa 1905, the head measuring 1.9×1.5cm, finger size N, gross weight 4.6 grams.
This wonderful ring, made in around 1905, embodies Belle Epoque splendour. This ring features a wonderful central sapphire in a deep, bright blue, surrounded by four lovely and lively diamonds. The delicate scroll motif of the ring shank is classically Belle Epoque. This is an elegant and romantic piece and would make a fabulously unique engagement ring.
An Edwardian sapphire and diamond ring, the oval faceted sapphire estimated to weigh 1.2 carats, vertically set between two old-cut diamonds weighing approximately 0.50 carats each, horizontally-set between two smaller old-cut diamonds estimated to weigh 0.15ct each, to old-cut diamond-set ...
Deliveries of jewellery will not incur any additional charges. Please contact us to discuss delivery options of Silver and Object d’Arts.
Read moreCall us on +44 020 7629 0651, or WhatsApp on +44 7824 196 039. Alternatively, contact our customer care by emailing us on info@bentley-skinner.co.uk.
If you would like to book a consultation with a member of staff please call us on +44 020 7629 0651 or email us on info@bentley-skinner.co.uk with the time and date that you would like to come in and details of what you would like to see or discuss.
Please note that is not necessary to make an appointment, you are welcome to come in any time during our opening hours from Monday to Saturday, 10.00am to 5.30pm.
The finger size of most of our rings can be adjusted and our workshop will be happy to do this free of charge. If you do not know your finger size please request us to post you a finger measure.