RU152923U1 - CEILING PLATE - Google Patents

Abstract

1. The ceiling plate, having a rectangular shape around the perimeter and made of extruded polystyrene sheet, the plate has front, back and sides, while the surface of the back side has straight sections lying in one plane, characterized in that the surface of each the lateral side is made rectilinear and lies in a plane essentially perpendicular to the plane in which the said rectilinear sections of the back side lie. A ceiling plate according to claim 1, characterized in that its density is selected from a range of 27 kg / m to 33 kg / m. 3. A ceiling plate according to claim 1 or 2, characterized in that said straight sections are peripheral. The ceiling plate according to claim 1, characterized in that the surface of the front side is made with a decorative relief. A ceiling plate according to claim 1, characterized in that its thickness measured on the side is selected from a range from 4 to 7 mm, while the thickness of the sheet extruded polystyrene foam is selected from a range from 2.0 mm to 3.5 mm. A ceiling plate according to claim 5, characterized in that said thickness is essentially 5.5 mm, while the thickness of the sheet extruded polystyrene foam is essentially 2.5 mm. A ceiling plate according to claim 1, characterized in that the rectangular shape is a square whose side length is essentially 485 mm.

Description

The utility model relates to the building materials industry, in particular, to finishing materials intended for interior decoration, and can be used in the decoration of ceilings.

There are a large number of facing materials and products made from them, used in interior decoration. The decoration with the use of polystyrene foam trim elements, i.e. material characterized by low weight, manufacturability, the possibility of applying a decorative coating on it, and yet easily amenable to mechanical stress. Today, the use of polystyrene ceiling tiles or panels is one of the most convenient and economical methods of decorating the ceiling. Such material allows you to significantly expand the number of possible options in the design of the ceilings.

In addition to the decorative function, cladding materials can also be used to provide the necessary level of comfort in the room: reducing noise, maintaining the temperature and humidity conditions.

Known from patent RU 29545 (published. 05/20/2003) a ceiling panel for decoration made of expandable polystyrene and having a rectangular shape with wavy edges. The edges of the known panel are complex, have many surfaces that are difficult to join.

The most widely used are expanded polystyrene ceiling tiles that have the correct geometric shape of a rectangle with clearly parallel edges. Different colors and patterns allow you to choose a tile for almost any design. Such tiles are divided into several types, which differ mainly in the method of its production.

Depending on the characteristics of the production, foam-styled ceiling tiles are extruded, injection or extruded.

Known for a wide range of ceiling tiles manufactured by the Polish company MARBET Sp. z o.o. (www.marbet.com.pl).

Ceiling tiles produced by the Ukrainian company ROMSTAR (http://www.romstar.com.ua/cnt.php) are known by vacuum pressing from extruded polystyrene stripes of white or painted.

Known manufactured by the company "Lagom" (http://www.format-corp.ru/product/decor/polish/plitka_extr.php) extrusion ceiling plate, the edges of which are beveled and slightly bent down, creating a roundness, which allows you to hide the unevenness of the ceiling. The raw material for it is an extrusion tape with a thickness of 1.9 mm and a pore number of 14. This plate immediately after thermoforming and cutting is a finished product. In its finished form, the plate has a thickness of 3.6-3.8 mm, the size of the gas-filled cell is 0.26 mm, the foaming coefficient is 1.9. The disadvantage of this plate due to the rounded edges is the lack of a sense of solidity of the ceiling. The ceiling consists of individual squares.

The closest in design features and selected as a prototype is an extruded plate manufactured by the Solid company (http://www.solidgroup.ru/catalog), including the special patented technology (see patent RU No. 2471624), which provides for a special treatment of the front side of the plate.

The high-quality ceiling plate manufactured by Solid is made of sheet extruded polystyrene foam, characterized by the following design features common with the claimed technical solution: the presence of a rectangular shape around the perimeter and placement on the surface of its back side of straight peripheral sections lying in one plane. The surfaces of the side (end) sides are made beveled at an acute angle to the planes of the peripheral sections. The size of the ceiling plate is 50 × 50 cm with a thickness of 4.3 mm (with a tolerance of ± 0.2 mm).

Chamfered edges in high-quality ceiling tiles are undesirable. The extrusion method involves slight deviations in the dimensions of the resulting product, which affects the thickness of the joints between the products and the mismatch of the sides (along their length) of the tiles relative to each other. Even with a slight change in the parameters of the tile, the general appearance of the ceiling coating will be deteriorated.

Accordingly, there remains a need for a more suitable tile to improve performance while maintaining the basic characteristics of ceiling tiles with a wide range of decorativeness.

The objective of the utility model is to improve the high-quality parameters of the ceiling plates obtained by the extrusion method and to improve the quality and operational properties by ensuring the perfect fit of the butt ends of the plates in the process of industrial production, which increases the speed of assembly and decoration of ceiling structures.

In addition, the goal is to expand the range of ceiling tiles, providing the possibility of improving sound insulation and providing the possibility of obtaining a "ceiling without seams" when finishing.

The problem is solved in that in a ceiling plate having a rectangular shape around the perimeter and made of sheet extruded polystyrene foam, the plate has a front, back side and sides, while the surface of the back side has straight sections lying in one plane, new is that the surface of each side is straight and lies in a plane essentially perpendicular to the plane in which the said straight sections of the back lie.

It is advisable that the density of the plate material be selected from a range from 27 kg / m ³ to 33 kg / m ³ .

It is possible that said rectilinear portions of the back side are peripheral portions.

It is desirable that the surface of the front side was made with a decorative relief.

It is advisable that the thickness measured on the side of the ceiling plate was selected from a range of 4 to 7 mm, while the thickness of the sheet extruded polystyrene foam was selected from a range of 2.0 mm to 3.5 mm.

It is desirable that the thickness of the plate be essentially 5.5 mm, while the thickness of the sheet extruded polystyrene foam is essentially 2.5 mm.

It is possible that the rectangular shape is a square whose side length is substantially 485 mm.

It is advisable that in the manufacture of the ceiling plate, the sheet extrusion expanded polystyrene is heated and the blank is formed from it, followed by its cutting to form the perimeter of the plate.

It is desirable that the cutting is carried out by means of a heated wire.

The heating temperature of the wire can be selected from a range of 80 ° C to 100 ° C with a wire thickness of 0.2 mm.

The term “substantive” for the purposes of this utility model means deviations within the accepted tolerances (tolerance fields) during manufacture.

The device will hereinafter be described more fully with reference to the accompanying drawings, in which

FIG. 1 shows a photo of a fragment of a ceiling plate made according to the prototype, general view;

FIG. 2 shows in a photo a fragment of a ceiling plate made in accordance with the claimed utility model, where FIG. 2a illustrates a general view, FIG. 2b illustrates a top view of the front side, FIG. 2a illustrates a bottom view of the back.

Performed according to the prototype and shown in FIG. 1, the plate 1 has a front side 2, a back side (not shown) opposite the front side, and four side (end) sides, two of which are shown in the drawings and are indicated by the numbers 3 and 4. On the surface of the back side there are rectilinear peripheral longitudinally extending to its edges areas lying in one plane (not shown). The front side of the plate 1 is made with a decorative relief 5. The surface of each side (for example, 3 and 4) lies in a plane located at an angle of approximately 45 ° to the plane in which there are rectilinear peripheral portions of the back side.

Performed in accordance with the claimed utility model and shown in FIG. 2, the plate 6 has a front side 7 (Fig. 2a and Fig. 2b), a back side 8 (Fig. 2c), and four side (end) sides, two of which are shown in the drawings and are indicated by the numbers 9 and 10. On the surface the back side 8 can be made extending longitudinally to its edges and adjacent to them rectilinear peripheral sections of the surface 11 (indicated by one position) lying in the same plane. Thus, sections 11 serve as installation planes when the plate 6 contacts the surface of the ceiling, ensuring their full compatibility. In an alternative design (not shown), rectilinear sections of the rear side lying in the same plane may not be peripheral.

The front side of the plate 6 may be, as shown in FIG. 2a, made with decorative relief 12.

The surface of each side (for example, 9 and 10) of the plate 6 is made strictly rectilinear and unlike the plate 1 shown in FIG. 1, lies in a plane strictly perpendicular to the plane in which the adjacent peripheral rectilinear section 11 lies. Thus, the surfaces of the sides are inscribed in the surface of the side faces of the rectangular parallelepiped, which ensures the matching of the joined faces (sides) of adjacent plates. In the case of the front side of the plate 6 without a decorative relief 12, when the plates are joined, a single surface plane is formed. In the case of the front side with a decorative relief, the surface of the decorated ceiling looks almost seamless.

The rectangular shape in the plan view may be an elongated rectangle, commonly called a panel.

It is preferable to make the shape of the plate on the plan in the form of a square, the length of the side of which in the particular case of execution is essentially 485 mm.

The basis for the production of slabs made in accordance with a utility model is a blank of sheet extruded polystyrene foam (hereinafter referred to as the blank).

The manufacturing process of the ceiling plate consists of the following stages:

- production of an extrusion sheet from polystyrene granules using an extrusion line;

- thermoforming and cutting blanks of a given size;

- Cut the workpiece with hot metal thread (wire) onto plates of the selected size.

The extrusion line for the production of expanded polystyrene sheet is a tandem system of extruders. On such a line, it is possible to produce high-quality expanded polystyrene sheet with adjustable mesh size, density, flexibility and surface texture. In the production of extrusion sheets, environmentally friendly gas and additives are used.

The thickness of the obtained sheet of extrusion foam polystyrene is selected from a range from 2 mm to 3.5 mm. The number of pores in the thickness of the extrusion sheet is 16-20 at a density of 55 ± 5 (kg / m ³ ).

The width of the resulting extruded polystyrene sheet can be selected from a range of 533.5 mm to 566.5 mm.

The resulting sheet extruded polystyrene foam is heated and it takes the plastic form (highly elastic state) required for molding. The web is heated so that the temperature at all points of its surface at the same time is the same and the sheet foams with a foaming coefficient of 2.0.

From the heating zone, the web enters the molding section, where the press machine “prints” the pattern of the desired relief using the required size and shape. The resulting workpiece has a predetermined size, while made with beveled rounded edges. The density of the material obtained molded preform is 27-30 kg / m ³ and its thickness is selected from a range of 2-7 mm.

In the particular case of execution, the workpiece can be made smooth - without a decorative relief.

Cutting the workpiece into slabs of selected sizes, i.e. the formation of the perimeter of the finished product is carried out on the installation of vertical cutting from top to bottom with a heated wire - metal thread-strings. The cutting process on vertical cutting is carried out by moving down the cutting frame, on which the strings are stretched.

In the particular case of execution, the ceiling plate has a thickness of essentially 5.5 mm (i.e., with a tolerance of ± 0.5 mm.) And a perimeter in the form of a square with a side length of 485 mm. In this case, the workpiece is made with dimensions of 500 mm by 1000 mm, from which two plates are obtained. End trimming of the workpiece and its cutting into two plates is carried out with six nichrome strings 0.2 mm in diameter heated to 80-100 ° C. During the cutting process, the speed of the heated strings and the strength of the heating of the strings are adjusted.

The selection of the given sizes is due to the technological processes of the final stage of manufacturing the finished ceiling plate.

The advantages of a slab with a ceiling thickness of essentially 5.5 mm (i.e., with a tolerance of ± 0.5 mm) are its low density, lack of transparency, moisture resistance, and the possibility of staining it with various water-based compounds. Such a stove can easily withstand cleaning and washing using cleaning products. This plate is almost flat from the back. Expanded polystyrene ceiling plate with a thickness of essentially 5.5 mm is superior in sound insulation to a traditional ceiling plate with rounded edges.

The inventive product is characterized by high quality, has the correct geometric dimensions, while the product may have a price comparable to a similar product. When such plates are joined together, a monolithic ceiling “without seams” is obtained, since the lines of the joints of the plates are almost invisible.

Claims (7)

1. A ceiling plate having a rectangular shape around the perimeter and made of extruded polystyrene sheet, the plate has front, back and sides, while the surface of the back has straight sections lying in one plane, characterized in that the surface of each the lateral side is made rectilinear and lies in a plane essentially perpendicular to the plane in which the said rectilinear sections of the back lie. 2. The ceiling plate according to claim 1, characterized in that its density is selected from the range from 27 kg / m ³ to 33 kg / m ³ . 3. The ceiling plate according to claim 1 or 2, characterized in that the said straight sections are peripheral. 4. The ceiling plate according to claim 1, characterized in that the surface of the front side is made with a decorative relief. 5. The ceiling plate according to claim 1, characterized in that its thickness measured on the lateral side is selected from a range from 4 to 7 mm, while the thickness of the sheet extruded polystyrene foam is selected from a range from 2.0 mm to 3.5 mm. 6. The ceiling plate according to claim 5, characterized in that said thickness is essentially 5.5 mm, while the thickness of the sheet extruded polystyrene foam is essentially 2.5 mm. 7. The ceiling plate according to claim 1, characterized in that the rectangular shape is a square whose side length is essentially 485 mm.

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