Multi-layer slab product made of stone granulates and relative manufacturing process |
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| 申请号 | US10069294 | 申请日 | 2000-08-22 | 公开(公告)号 | US06886304B1 | 公开(公告)日 | 2005-05-03 |
| 申请人 | Alessandro Godi; Pierpaolo Tassone; | 发明人 | Alessandro Godi; Pierpaolo Tassone; | ||||
| 摘要 | 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. | ||||||
| 权利要求 | |||||||
| 说明书全文 | The present invention concerns a product in multi-layer composite slabs made of agglomerated stone materials and its relative manufacturing process. The always greater difficulties and the growing cost necessary to obtain blocks or slabs of natural (such as marble, granite, etc.) or artificial (for example of ceramic type) stone materials by quarrying and subsequent manufacturing process, have suggested a technology to manufacture artificially such stone blocks, using granulates coming from these materials bound together by a binder which can be of inorganic type, and so belonging to the class of cement binders, or of organic type, being in this case a synthetic resin which can be cured by a chemical or thermal process. According to this already known technology, the mixture made of stone chips, in selected grain size and therefore of predetermined dimensions of the granulates or chips (from a maximum of 150 mm to powder size) and of binder (in addition to other additives, such as mixture reology modifiers or curing or adhesion promoters) is powdered in a mold and subjected to a process which mainly consists in the molding by vibro-compressure, i.e. simultaneous applying of a compacting pressure and of a vibration, both these phases under a predetermined vacuum, in order to avoid air entrapment into the mixture. After the vibro-compressure under vacuum phase, the mixture is left to rest into the mold until the resin is completely cured (by addition of a suitable promoter) or the cement is hardened, binding irreversibly the granulates of stone material in a single bock. Alternatively, avoiding the use of a mold, the mixture can be fed, according to convenience, on a molding belt, so assuming the shape of a slab, which after vibro-compressure and subsequent hardening does not need the sawing phase. In this case the resin curing is obtained by a thermal reaction, warming the product, which hardens in a few minutes. The manufacturing process is more convenient than the block molding technology and the production cycles are advantaged. Due to the fact that the sawing phase is not necessary, the slab, after the hardening phase, can be immediately supplied to the final working phase. The resulting products show mechanical properties which make them particularly suitable, after the necessary working phases, for the manufacture of floorings, internal walling and external cladding of residential and public buildings, and of furniture components. When a synthetic resin is used as binder, one of the main advantages is that the hardening phase requires very short time and the mechanical properties of the product are better than those of the corresponding cement bound products. The disadvantage connected with the use of a synthetic resin is the high price of the resin, so that, also if it is used in a relatively small amount, the cost of a resin bound product is always high. On the contrary, when a cement binder is used, the main problem, in an industrial production, is connected with the long time required by the set and the subsequent hardening. Moreover, the final product is heavy, since high thickness must be used due to the poor mechanical resistance when compared to the resin bound products, mainly in the phase of installation as outdoor wall finishes. Besides to these general aspect problems, there are other problems specifically connected to specific applications. In the case of products for the manufacturing of components for furniture, for example, the high weight of the element represents a disadvantage both from the commercial, for the elevated transport cost, and from the performance point of view, for the difficulty of the installation. In fact, a typical formulation for the production of agglomerated stones using the technology of the vibro-compressure under vacuum, for example in the more favourable case of use of polyester resin as binder, could comprise:
Due to the fact that the granulates or the marble powder have an average specific weight of 2.7 kg/dm3, and the polyester resin has an average specific weight of 1.1 kg/dm3, the resulting product, for example in the size of 1 m2 and 3 cm thickness, will have a theoretical specific weight of 2.57 kg/dm3 (slightly higher than the experimental value which generally ranges between 2.49-2.50 kg/dm3) corresponding to a weight of 77.1 kg which is too high in view of what mentioned. FR-A-2.136.862 discloses a structure wherein an expanded, lightweight layer is directly bound by high temperature treatment to a surface layer having the same chemical composition of the expanded layer. No binding phase is accordingly present and this entails that the layers have to consist of the same material (silicate) so that chemical bonds can be formed during the high temperature vitrification/sinterization treatment. U.S. Pat. No. 4,107,378 discloses a method and apparatus for manufacturing thin, flat lining plates having a two-layer structure. This document gives no teaching for obtaining a multi-layer structure different from the one described therein. Object of the invention is mainly to avoid the disadvantage of the high weight of the products made of stone chips, manufactured by the technology of the vibro-compressure under vacuum, malting a product noticeably lighter and which maintains substantially the technical and aesthetical properties of the above mentioned products. This objective is obtained, according to the invention, as disclosed below. Advantageous applications of the present invention are disclosed below. Mainly, the product according to the invention, has two surface layers obtained by vibro-compressure, consisting of an agglomerate, for example obtained from marble powder chips bound by polyester resin, and a precast support, for example obtained again by vibro-compressure under vacuum, consisting of chips of expanded clay bound by polyester resin. Preferably, the product according to the invention has a sandwich structure, where the expanded clay precast support makes up the intermediate layer, and two surface layers of agglomerate provided, one on the top and one under the FR-A-2.136.862 discloses a structure wherein an expanded, lightweight layer is directly bound by high temperature treatment to a surface layer having the same chemical composition of the expanded layer. No binding phase is accordingly present and this entails that the layers have to consist of the same material (silicate) so that chemical bonds can be formed during the high temperature vitrification/sinterization treatment. U.S. Pat. No. 4,107,378 discloses a method and apparatus for manufacturing thin, flat lining plates having a two-layer structure. This document gives no teaching for obtaining a multi-layer structure different from the one described therein. intermediate layer. It has been experimentally shown that an agglomerate of expanded clay bound by polyester resin can reach a specific weight lower than 1 kg/dm3. Therefore, a laminated composite product, with a sandwich structure according to the invention, 1 m2 of a size and 3 cm in thickness, as in the example above described, containing an upper surface layer and a lower surface layer, both of them of 0.5 cm of agglomerated marble, and an intermediate layer of 2 cm of agglomerated expanded clay, will have a total weight of 45.7 kg. Such a product results therefore noticeably lighter than a product with the same dimensions, made of agglomerated stone but homogeneous in thickness. The product in multi-layer composite slabs, according to the invention, can also be realised with at least a perimetral edge, suitably shaped, in stone material. Advantageously, the product according to the invention can also be manufactured in form of complex element comprising a plurality of modular elements with a sandwich structure, connected each other by layers of stone chips material, in order that the single moduli can be, when necessary, separated one from the other by cutting and optionally finished to obtain the wished edge shape. Further characteristics of the invention will be evident from the following description, referred to embodiments given by way of an example, shown in the attached figures, where: Optionally, the product (1) could exclude the lower layer (3). The product (1) of Due to the fact that the larger part of the product (1) thickness is occupied by the intermediate support layer (2), in expanded clay, the total weight of the product results noticeably lower than the weight of a product of corresponding size made of agglomerated stone, homogeneous in thickness, as clearly shown in the above mentioned example. The product (10) of In this way, it is possible to obtain a modular product, from which it is possible to cut elements with the wished number of moduli, both in the longitudinal and the transverse direction sense, according to the needs. The slab cut following some of the shaded lines in The advantages are evident from the above description, the scope of the invention being determinated by the content of the annexed claims. An example of manufacturing process of a product according to the invention typically includes the following phases:
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