초록 ▼

The invention concerns a product and the relative manufacturing process, said product, including at least a precast support (2) of expanded material and at least a layer (3) of agglomerated stone material in form of granulates bound by a binding phase, over at least one surface of said expanded supp

The invention concerns a product and the relative manufacturing process, said product, including at least a precast support (2) of expanded material and at least a layer (3) of agglomerated stone material in form of granulates bound by a binding phase, over at least one surface of said expanded support (2). According to suitability, the product (1) is made by a sandwich structure with an intermediate layer of expanded material and two surface coatings of stone material. The product (1) can also have a complex or modular shape, from which it is possible to cut and eventually to work finished pieces of predetermined dimensions. The main advantage of the invention consists in obtaining a finished product (1, 10, 100) lighter than a product made of agglomerated stones homogeneous in the thickness.

대표청구항 ▼

1. A process for the preparation of a multi-layer composite slab product, comprisingfirst and second dense layers of stone material agglomerate and binding agent; and an expanded material layer in direct contact with the first and second layers and intermediate the first and second layers, the first

1. A process for the preparation of a multi-layer composite slab product, comprisingfirst and second dense layers of stone material agglomerate and binding agent; and an expanded material layer in direct contact with the first and second layers and intermediate the first and second layers, the first and second dense layers being surface layers, and the expanded material layer being less dense than each of the first and second dense layers comprising the following steps: distribution of a stone material agglomerate together with a binding agent in a mold or on a molding belt to form a first, lower layer of the product; prior to any vibro-compression, positioning on said first layer at least one pre-cast support made of expanded agglomerate and a binding agent to form an intermediate layer of the product; distribution of a further stone material agglomerate together with a binding agent on said at least one pre-cast layer to form at least a second, upper layer of the product; vibro-compression, in a single step, of said stone material agglomerates and binding agents and of said at least one pre-cast support; and hardening of the mixture via thermal reaction. 2. A process according to claim 1, wherein said at least one precast support (2) comprises expanded clay granules bound with polyester resin.3. A multi-layer composite slab, comprising:first and second dense layers of a first material agglomerate and a first binding agent; and an expanded material layer in compressive direct contact with the first and second layers and intermediate the first and second layers, the second layer being of an expanded material agglomerate and a second binding agent, the first and second dense layers being surface layers, and the expanded material layer being less dense than each of the first and second dense layers. 4. The slab of claim 3, further comprising a perimeter edge surface that exposes each of the first and second dense layers and the expanded material layer.5. The slab of claim 3, further comprising a perimeter lateral edge surface that completely conceals the expanded material layer.6. The slab of claim 3, further comprising:further dense layers of the first material agglomerate and the first binding agent; and further expanded material layers, each of the expanded material layers being in contact with and intermediate two of the dense layers. 7. The slab of claim 5, further comprising:further dense layers of the first material agglomerate and the first binding agent; and further expanded material layers, each of the expanded material layers being in contact with and intermediate two of the dense layers, the perimeter lateral edge surface of each expanded material layer being completely concealed by the perimeter lateral edge surface. 8. The slab of claim 3, wherein,the first material agglomerate is stone chips, the first binding agent is polyester resin, the expanded material agglomerate is expanded clay, and the second binding agent is polyester resin. 9. The slab of claim 3, wherein,the first material agglomerate is marble powder chips, and the first binding agent is polyester resin. 10. The slab of claim 9, wherein,the expanded material agglomerate is expanded clay. 11. The slab of claim 10, wherein,the second binding agent is polyester resin. 12. The slab of claim 3, wherein the specific weight of the expanded material layer is lower than 1 kg/dm3.13. The slab of claim 3, wherein,slab has a 1 square meter area and a 3 centimeter thickness, each of the first and second surface dense layers are having a 0.5 thickness, the expanded material layer has a thickness of 2 cm, and the slab has a total weight of 45.7 kg. 14. The slab of claim 12, wherein,slab has a 1 square meter area and a 3 centimeter thickness, each of the first and second surface dense layers are having a 0.5 thickness, the expanded material layer has a thickness of 2 cm, and the slab has a total weight of 45.7 kg. 15. A method of preparing a multi-layer composite slab product, comprising the steps of:surrounding a pre-cast support made of an expanded agglomerate and a first binding agent within a mixture of stone agglomerates and second binding agent; and vibro-compressing, in a single step, the mixture of stone material agglomerates and second binding agent, wherein a multi-layer composite slab is formed comprising first and second dense layers of the stone material agglomerates and second binding agent sandwiching the pre-cast support, the pre-cast support being an expanded material layer in direct contact with the first and second layers and intermediate the first and second layers, the first and second dense layers being surface layers, and the expanded material layer being less dense than each of the first and second dense layers. 16. The method of claim 15, wherein the method forms the slab comprising a perimeter edge surface that exposes each of the first and second dense layers and the expanded material layer.17. The method of claim 16, wherein the method forms the slab comprising a perimeter lateral edge surface that completely conceals the expanded material layer.18. The method of claim 15, wherein the method forms the slab comprising:further dense layers-of the stone material agglomerate; and further expanded material layers, each of the expanded material layers being in contact with and intermediate two of the dense layers, the stone material agglomerate is marble chips, the first and second binding agents are polyester resin, and the expanded material agglomerate is expanded clay. 19. The method of claim 15, wherein the pre-cast support has a specific weight of lower than 1 kg/dm3.20. The method of claim 15, wherein the method forms the slab with each of the first and second surface dense layers having a first thickness, and the expanded material layer having a second thickness four times greater than the first thickness.