PHOTOLUMINESCENT SAND

Abstract

Photoluminescent sand preferably includes play sand, photoluminescent pigment, a powdered binder and a curing agent. The play sand is preferably mixed with the photoluminescent pigment to form a photo sand mix. The photo sand mix is then mixed with the powered binder and curing agent to form the photoluminescent sand mix. The photoluminescent sand mix is allowed to cure for between 3-7 days to form the photoluminescent sand.

Claims

1. A method of manufacturing a photoluminescent sand comprising the steps of: providing sand; providing a powdered binder; providing a curing agent; mixing photoluminescent pigment, a photoluminescent resin, or photoluminescent glass with said sand to form a photo sand mix; and mixing said powdered binder and said curing agent with said photo sand mix to form photoluminescent sand.

2. The method of manufacturing a photoluminescent sand of claim 1 comprising the step of: allowing said photoluminescent sand to cure.

3. The method of manufacturing a photoluminescent sand of claim 1 wherein: said sand has a granulation of up to 2 mm.

4. The method of manufacturing a photoluminescent sand of claim 1 wherein: said photoluminescent pigment, said photoluminescent resin, or said photoluminescent glass has a granulation of between 0.3 mm to 0.9 mm.

5. A method of manufacturing a photoluminescent sand comprising the steps of: providing sand in a percentage of between 89-91.5 by weight; providing a powdered binder in a percentage of 3-5 by weight; providing a curing agent in a percentage of 0.5-1 by weight; mixing photoluminescent pigment in an amount of 5 percent by weight with said sand to form a photo sand mix; and mixing said powdered binder and said curing agent with said photo sand mix to form photoluminescent sand.

6. The method of manufacturing a photoluminescent sand of claim 5 comprising the step of: allowing said photoluminescent sand to cure.

7. The method of manufacturing a photoluminescent sand of claim 5 wherein: said sand has a granulation of up to 2 mm.

8. The method of manufacturing a photoluminescent sand of claim 5 wherein: said photoluminescent pigment has a granulation of between 0.3 mm to 0.9 mm.

9. A method of manufacturing a photoluminescent sand comprising the steps of: providing sand; providing a powdered binder; providing a curing agent; mixing photoluminescent pigment, photoluminescent resin, or photoluminescent glass with said sand to form a photo sand mix for a period of 5 minutes; and mixing said powdered binder and said curing agent with said photo sand mix to form photoluminescent sand for a period of 15 minutes.

10. The method of manufacturing a photoluminescent sand of claim 9 comprising the step of: allowing said photoluminescent sand to cure.

11. The method of manufacturing a photoluminescent sand of claim 9 wherein: said sand has a granulation of up to 2 mm.

12. The method of manufacturing a photoluminescent sand of claim 9 wherein: said photoluminescent pigment, said photoluminescent resin, or said photoluminescent glass has a granulation of between 0.3 mm to 0.9 mm.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0013] FIG. 1 is a perspective view of a fascia panel for a retainer wall in accordance with the present invention.

[0014] FIG. 2 is an end view of a fascia panel retained on a base block of a retainer wall in accordance with the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0015] The mortar and block products made with photoluminescent sand replaces regular sand in such products as mortar, pavers, concrete blocks, coping blocks, ceramic tile, fascia panel and polymeric sand. The photoluminescent sand, photoluminescent polymer chips and photoluminescent glass may be purchased from Zhejiang Minhui luminous Technology Co., LTD of Lanxi City, Zhejiang China. Photoluminescent mortar preferably includes the photoluminescent sand, cement and fine aggregate. The photoluminescent mortar mix is combined with water at the time of use to create photoluminescent mortar. The photoluminescent paver preferably includes at least one of photoluminescent sand, photoluminescent polymer chips and photoluminescent glass; aggregate; cement; water; pigment and regular sand if photoluminescent sand is not used. The photoluminescent sand or regular sand is preferably pre-moistened before mixing with the other elements. The water is mixed with the at least one of photoluminescent sand, photoluminescent polymer chips and photoluminescent glass, the aggregate, the cement and the pigment to form an uncured mixture. The uncured mixture is poured in a paver block mold, pressurized and vibrated. If the photoluminescent polymer chips or photoluminescent glass are used in the paver, a top of the paver is preferably ground to enhance illumination thereof.

[0016] The photoluminescent concrete block preferably includes at least one of photoluminescent sand, photoluminescent polymer chips and photoluminescent glass; aggregate; gravel; cement; water; and regular sand if photoluminescent sand is not used. The water is mixed with the at least one of photoluminescent sand, photoluminescent polymer chips and photoluminescent glass, the aggregate, the gravel and the cement to form an uncured mixture. The uncured mixture is poured in a block mold, pressurized and vibrated.

[0017] The photoluminescent coping block preferably includes at least one of photoluminescent sand, photoluminescent polymer chips and photoluminescent glass; aggregate; cement; water; pigment; and regular sand if photoluminescent sand is not used. The photoluminescent sand or regular is preferably pre-moistened before mixing with the other elements. The water is mixed with the at least one of photoluminescent sand, photoluminescent polymer chips and photoluminescent glass, the aggregate, the cement and the pigment to form an uncured mixture. The uncured mixture is poured in a coping block mold, pressurized and vibrated. If the photoluminescent polymer chips or photoluminescent glass are used in the coping block, a top of the coping block is ground to enhance illumination thereof.

[0018] Photoluminescent ceramic tile preferably includes clay, at least one of photoluminescent sand, photoluminescent polymer chips and photoluminescent glass; feldspar water; and regular sand if photoluminescent sand is not used. The mixture is fired to form at least one ceramic tile. With reference to FIGS. 1-2, the photoluminescent fascia panel 1 preferably includes a base portion 10 and a fascia portion 12. A retainer wall 14 is made from a plurality of base blocks 16 and a plurality of fascia panels 1. At least one support projection 18 extends from a side of the base block 16. At least one support groove 20 is formed in a rear of said base portion 10 for hanging the fascia panel 1 on the at least one support projection 18. The base portion 10 preferably includes sand, aggregate, gravel, cement; and water. The fascia portion 12 preferably includes small gravel, cement, water and at least one of photoluminescent sand, photoluminescent polymer and chips photoluminescent glass. The components of the fascia portion 12 are mixed and poured into a fascia mold. The fascia portion mix is allowed to cure. The components of the base portion 10 are mixed and poured on top of the fascia panel mix and allowed to cure to form photoluminescent fascia panel 1. A bottom of the fascia mold may be textured. Photoluminescent polymeric sand preferably includes photoluminescent sand, polymer binder and quart silica. Portland cement may also be added to the photoluminescent polymeric sand. The photoluminescent polymeric sand is mixed with water and then poured into spaces between pavers or blocks.

[0019] Photoluminescent sand preferably includes play sand, photoluminescent pigment, a powdered binder and a curing agent. The play sand (child's sandbox sand) may be purchased from Quikrette. The play sand has a granulation of up to 2 mm. However, other sands may also be used. The photoluminescent pigment has a granulation size of 0.3 mm to 0.9 mm. The photoluminescent pigment may be replaced with crushed photoluminescent glass or photoluminescent resin. The photoluminescent glass is manufactured with photoluminescent pigment. The photoluminescent resin is made from photoluminescent pigment mixed with some type of polymer. The photoluminescent glass and the photoluminescent resin have the same particle size as the photoluminescent pigment. Satisfactory results have been found when using DirtGlueDry for the powered binder, which is manufactured by Global Environmental Solutions, but other powered binders may also be used. Satisfactory results have been found when using Polycure for the curing agent, which is manufactured by SpecChem, but other curing agents may also be used.

[0020] The following parameters are given by way of example and not by way of limitation. Satisfactory results have been found with the following two formulas. Formula I includes 91.5% of play sand, 5% of photoluminescent pigment, 3% powdered binder and 0.5% of curing agent all by weight. Formula II includes 89% of play sand, 5% of photoluminescent pigment, 5% of powdered binder and 1% of curing agent all by weight. The play sand is preferably mixed for five minutes at 500 rpm in a V-blender. The play sand is preferably mixed with the photoluminescent pigment to form a photo sand mix for five minutes at 500 rpm in the V-blender. The photo sand mix is then mixed with the powered binder and curing agent to form a photoluminescent sand mix for fifteen minutes at 500 rpm. Formula I is discharged into a bag and allowed to cure for 7 days. Formula II is discharged into a bag and allowed to cure for 3 days.

[0021] While particular embodiments of the invention have been shown and described, it will be obvious to those skilled in the art that changes and modifications may be made without departing from the invention in its broader aspects, and therefore, the aim in the appended claims is to cover all such changes and modifications as fall within the true spirit and scope of the invention.