Product code: Discount Vintage Catholic Mysteries Symbol Rosary
A unique vintage Catholic rosary with a variety of metal symbols discount representing the original three sets of mysteries in place of the Pater beads between the decades. The unique pendant design has one Pater bead, three Ave beads, and metal symbols in place of the final Pater bead. The rosary has a double-sided center medal, a narrow crucifix, and blue aurora borealis beads. The design of the rosary is patented. A Lourdes water medal was added to the rosary by the previous owner. The center medal, crucifix, and Lourdes medal are marked Italy. Measurements - Length when flat: 25" (63.5 cm) - Pendant/Drop Length: 7" (17.78 cm) *center medal bottom to bottom of crucifix - Inner Circumference of the corona (loop): 36.5" (92.7 cm) - Crucifix: 2.25" x 1.375" (5.72 cm x 3.49 cm) - Center medal: .5" x .5" (1.27 cm x 1.27 cm) - Lourdes medal: .5" x .5" (1.27 cm x 1.27 cm) - Beads: 8 mm The rosary is in very good condition. There is some light wear. The Lourdes water has evaporated. The chain is i.
A unique vintage Catholic rosary with a variety of metal symbols discount representing the original three sets of mysteries in place of the Pater beads between the decades. The unique pendant design has one Pater bead, three Ave beads, and metal symbols in place of the final Pater bead. The rosary has a double-sided center medal, a narrow crucifix, and blue aurora borealis beads. The design of the rosary is patented. A Lourdes water medal was added to the rosary by the previous owner. The center medal, crucifix, and Lourdes medal are marked Italy. Measurements - Length when flat: 25" (63.5 cm) - Pendant/Drop Length: 7" (17.78 cm) *center medal bottom to bottom of crucifix - Inner Circumference of the corona (loop): 36.5" (92.7 cm) - Crucifix: 2.25" x 1.375" (5.72 cm x 3.49 cm) - Center medal: .5" x .5" (1.27 cm x 1.27 cm) - Lourdes medal: .5" x .5" (1.27 cm x 1.27 cm) - Beads: 8 mm The rosary is in very good condition. There is some light wear. The Lourdes water has evaporated. The chain is i.