RU2812987C1 - Method for manufacturing wall panel with facing covering decoration and device for its implementation - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: production of concrete panels with ready-made facing cladding decoration. A segment of a cellular formwork for the manufacture of a reinforced concrete wall panel with facing cladding decoration includes many cells formed by the base of the segment and the sides. The base of the cellular formwork segment is made of cellular cardboard, and the sides of the cells are made of strips of cellular cardboard attached to the base of the cell to form a pattern of facade facing decoration. The size of the cell edge cardboard honeycomb is smaller than the segment base cardboard honeycomb size. A method for manufacturing a wall panel with facing cladding decoration is disclosed, containing the following stages: placing the cellular formwork in the casting matrix of the wall panel, placing the facing element face down in each of the cells, pouring concrete into the casting matrix, removing the wall panel from the casting matrix after the concrete has hardened, the cellular formwork is detached from the finished panel. The cellular formwork is made up of segments that can be connected to each other, in which the cells are formed by the base of the segment in the form of a sheet of cellular cardboard and the sides that limit the cells and are made of strips of cellular cardboard attached to the base to form a facing pattern, while the size of the honeycomb cardboard forming the sides of the cell is smaller than the size of the honeycomb of cardboard from which the base of the segment is made, the facing element is placed in each of the cells face down so that it rests against the base of the segment, and the sides are located between adjacent facing elements, and additionally before pouring concrete into the filling matrix is installed with metal reinforcement.

EFFECT: ensuring reliable fastening of the elements of the facing decoration to the wall panel, in preventing contamination of the elements of the facing decoration during the manufacturing process of the wall panel, and in ensuring environmentally friendly disposal of the device used.

12 cl, 16 dwg

Description

The invention relates to the field of construction, and more specifically to the production of concrete panels with facade cladding decor.

Currently, cellular formwork forms (matrix segment puzzles) are widely used, used in the production of reinforced concrete wall panels with facade cladding decor, made of wood or polyurethane foam with inserts (sides) of thermoactive, thermoplastic polymer resin and elastomeric materials with fillers. or additives (compound). Such cellular formworks are designed for repeated use, however, they have the disadvantages of limited resources, the requirement for periodic repairs and high costs.

From the utility model patent RU 126730 U dated April 10, 2013, a thermal façade panel is known that contains a heat-insulating base made of plastic material, a facing sand-cement layer, permanently connected to the base by anchor elements formed by hardened sand-cement mortar in cavities expanding into the base.

During the manufacturing process of this panel RU 126730, damage to the anchor elements is possible, which can lead to the tiles falling out.

The closest analogue of the proposed invention is a method for manufacturing a concrete wall panel with facade concrete tile decor and a wall panel obtained by this method, disclosed in the publication of patent RU 2773901 dated 06/14/2022. This method is characterized by fixing a concrete tile made in the form of a flat rectangular plate, wherein the facing tile is placed face down in a casting matrix, after which the matrix is poured with concrete. The front side of the tile is made in the form of a rectangular parallelepiped, and the back side is made widened in at least one cross section in comparison with the cross section of the front part, and a silicone cellular substrate is first placed in the matrix for pouring the concrete panel, where each of the cells is made with a recess and a stop for tiles, as well as with an additional recess at the bottom of the cell, then a tile is placed face down in each of the cells until it contacts the stop of the cell, after which the matrix is poured with concrete, and after the concrete has hardened, the panel is removed from the matrix and the cellular substrate is detached from the finished panel.

The solution identified as the closest analogue of the present invention has a disadvantage due to the implementation of the cellular substrate from silicone. Silicone is a material that, although less harmful to the environment compared to plastic, silicone takes a long time to decompose and, moreover, cannot be recycled.

The technical problem solved by the proposed invention is to eliminate the above-mentioned disadvantages of solutions known from the prior art.

This technical problem is solved by the claimed method of manufacturing a wall panel with facade cladding decor and a device - a segment for forming a cellular formwork in the manufacture of a reinforced concrete wall panel with facade cladding decor.

In relation to the feature used below in the description of the claimed invention, characterized by the term “casting matrix”, other terms are also used in the production of reinforced concrete products (RCP), in particular, “formwork”, or “formwork element”, or “formwork sides”. In the production of reinforced concrete products, the term “cellular formwork” used below means the same as “matrix with assembly cells” or “puzzle”. The term “cellular formwork segment” should be understood as a separate element of a cellular formwork form, the totality of which, after laying and connecting (joining) with each other, forms a cellular formwork form. From the text of the description of the invention and the drawings, the semantic content of the terms used to characterize the claimed group of inventions is clear.

The claimed method, like the method that is the closest analogue, contains the steps according to which: the cellular formwork is laid in the casting matrix of the wall panel, the facing element is placed face down in each of the cells of the cellular formwork, the casting matrix is filled with concrete , after the concrete has hardened, the wall panel is removed from the casting matrix, after which the cellular formwork is detached from the finished reinforced concrete panel with facade facing decor.

Distinctive features of the claimed method are the production of a cellular formwork from segments that can be connected to each other, while the cells of the cellular formwork are formed from the interconnected base of the segment and the sides (also called “rusks”) of the cellular formwork. The base of the cellular formwork segment is made of a flat sheet of cellular cardboard, and the sides (rusks) of the cell are made of strips of cellular cardboard, rigidly attached to the base using PVA glue or hot-melt adhesive to form a facing pattern on the manufactured wall panel, and the facing elements are placed into each of the cells between the sides, face down until it stops at the base of the segment when the sides are located between adjacent facing elements.

In a preferred embodiment, the size of the honeycomb cardboard honeycomb from which the sides (rusts) of the cell are formed is smaller than the size of the honeycomb cardboard honeycomb from which the base of the segment is made.

Additionally, before pouring concrete, metal reinforcement can be installed in the pouring matrix.

In embodiments of the claimed method, clinker bricks or tiles are usually used as a facing element.

In addition, a device is proposed - a segment of cellular formwork for the production of reinforced concrete wall panels with facade cladding decor. The proposed device for implementing the method described above is a segment that, when connected to other segments, forms a cellular formwork form, made with cells formed by a flat base of the segment, preferably common to all cells of the segment, and sides (rusks) forming the walls of the cell. The base of the cellular formwork segment is made of a flat sheet of cellular cardboard, and the sides of the cells are made of strips of cellular cardboard attached to the base of the cell to form a pattern of facade facing decor. In this case, the size of the cardboard honeycomb used to make the sides of the cell is, in the preferred embodiment, smaller than the size of the cardboard honeycomb used to make the base of the segment. The cellular formwork segment is designed to be connected (jointed) with similar segments. In addition, the honeycomb core of the cardboard from which the sides of the cells are made can be stretched not completely, but by 40-80%.

The technical result achieved by the proposed invention is to ensure reliable fastening of the facing decorative elements to the wall panel while increasing the assembly accuracy while simultaneously simplifying the process of manufacturing cellular formwork segments.

Another technical result of the proposed invention is to prevent contamination of the facing decorative elements with the concrete mixture during the manufacturing process of the wall panel.

Also, the technical result achieved by implementing the present invention is to increase the stability of the geometric parameters of the cellular formwork segment for the manufacture of reinforced concrete wall panels with facade cladding decor while simplifying the recycling of segment materials.

Another technical result of the proposed invention is the reduction of production waste and the possibility of their environmentally friendly disposal.

These results are achieved both by the proposed method of manufacturing a wall panel with facade cladding decor, and by constructing a segment of cellular formwork for the manufacture of a reinforced concrete wall panel with facade cladding decor.

The production of cellular formwork segments from cellular cardboard allows you to use the beneficial properties of cellular cardboard, which has one of the highest strength/weight and stiffness/weight ratios of materials used in construction. Due to the indicated properties of honeycomb cardboard, reliable fastening of the facing decorative elements to the wall panel is ensured, and high assembly accuracy is obtained in the process of placing facing elements (tiles, clinker bricks) in segments of a cellular formwork and when assembling it from segments in a casting matrix. The main property of honeycomb cardboard is its rigidity, i.e. resistance to various deformations. In addition, honeycomb cardboard has high bending strength in the longitudinal and transverse directions. Thanks to these properties, the stability of the geometric parameters of the cellular formwork segment for the manufacture of a concrete wall panel with facade cladding decor is ensured.

Cardboard is an environmentally friendly recyclable material, which, in addition to the above, solves the problem of recycling the used segment of cellular formwork.

This result is due to the fact that the cellular formwork made of cellular cardboard is disposable and, unlike reusable devices, retains its original shape specified during manufacture, thereby ensuring high accuracy of the location of facing decorative elements, for example, clinker bricks and high quality of façade decor of the manufactured wall panel. The production of segments from which the cellular formwork is assembled does not represent any technical difficulty, since cellular cardboard is easily processed, for this reason the process of producing segments is significantly simplified. For the same reason, the stability of the geometric parameters of the cellular formwork segment is ensured, since a disposable structure made of cellular cardboard is used, which arrives at the place of production of concrete panels immediately after its manufacture and does not have deformations that can occur in known devices after the first use due to the components attached to them. efforts to remove the finished panel from the cellular formwork (matrix), which leads to a violation of the geometry of the cellular formwork in known devices and a decrease in quality during the second and subsequent use.

A particular significant feature characterizing the claimed segment is also the relatively small size of the honeycomb core of the honeycomb cardboard from which the sides of the cells are made. This implementation makes it possible, firstly, to ensure sufficient strength of the sides, and, secondly, to minimize the flow of cement mortar onto the front part of the facade decor of the tiles during the production of concrete panels by reducing the size of the streams of cement mortar, the width of which is determined by the size of the honeycomb of the side material. In the preferred embodiment, when the cell size of the honeycomb cardboard from which the sides are made is within 4.0...5.0 mm (+0.3/-0.5), the flow of cement mortar is minimal and subsequently traces of cement mortar are easily washed off with a stream of water .

In addition, it is known that cellular cardboard is a 100% recyclable, environmentally friendly material; the recycling of used segments is carried out using simple known methods of cardboard recycling, which reduces the amount of production waste and ensures the environmental friendliness of the recycling process of a used segment of cellular formwork.

The invention is illustrated by drawings, which show:

In fig. 1 - general view of the cast matrix with a cellular formwork.

In fig. 2 - fragment of a cast matrix with a cellular formwork.

In fig. 3-6 - a segment of cellular formwork made of cellular cardboard, rectangular in plan.

In fig. 7-9 - a segment of cellular formwork made of cellular cardboard with rectangular protrusions oriented in opposite directions (when viewed in plan).

In fig. 10 - fragment of a segment of cellular formwork seen from the side.

In fig. 11a-11b - a segment of cellular formwork made of cellular cardboard with rectangular protrusions directed to one side (when viewed in plan).

In fig. 12-13 - an embodiment of a segment of cellular formwork made of cellular cardboard with rectangular protrusions directed to one side (in plan view).

In fig. 14 - photo illustrating the placement of decorative elements into segment cells.

In fig. 15 - segments prepared for assembly (locked connection).

In fig. 16 - fragment of a cellular formwork formed from segments from FIG. 15.

In the drawings the positions indicate:

1 - segment;

2 - base of a segment of cellular formwork;

3 - sides of the cellular formwork segment;

4 - top sheet of the base of the cellular formwork segment;

5 - honeycomb filler of the sides of the cellular formwork segment;

6 - rectangular openings between the protrusions of the cellular formwork segment;

7 - honeycomb core of the base of the cellular formwork segment;

8 - bottom sheet of the base of the cellular formwork segment;

9 - top sheet of the side of the cellular formwork segment;

10 - bottom sheet of the side of the cellular formwork segment;

11 - protrusions of the cellular formwork segment;

12 - central rectangular part of the cellular formwork segment;

13 - honeycomb core base;

14 - honeycomb edge filler.

The segment (element) from which the cellular formwork is assembled is intended for use in the molding of reinforced concrete products (RCP), the façade sides of which are lined with facing elements. Segments can have different shapes and are parts (elements) of a cellular formwork that are joined together, collectively forming liners laid out to form a cellular formwork. Such liners, formed from segments, serve to fix in the cells the segments of facing elements poured with liquid concrete mixture during the production of reinforced concrete products. Each segment is designed for precise placement in the design position in its cells of facing elements, such as bricks (clinker bricks) and facing tiles in the process of manufacturing building products from binder materials, lined with the specified elements on the front sides of the products.

According to the present invention, segments 1, from which the cellular formwork is assembled, are formed from a base 2 and sides 3, rigidly connected to the base 2, protruding above the surface of the base and located along the perimeter of rectangular cells, i.e. which are the boundaries of rectangular cells. The base 2 and sides 3 are made of flat sheets of honeycomb cardboard. The base 2 consists of outer layers of cardboard - the top sheet 7 and the bottom sheet 8 and the honeycomb core 4 located between them. The sides 3 (rusks) consist of the outer layers of cardboard of the top sheet 9 and the bottom sheet 10 and the honeycomb core 5 of cardboard located between them. The outer layers 7, 8, 9, 10 and the honeycomb core 4, 5 of the honeycomb cardboard from which the base 2 and sides 3 are made are preferably made of kraft cardboard (cellulose fiber).

The sides of the 3rd cell are made of strips of honeycomb cardboard, which are attached to the base in accordance with the required facing pattern of the façade cladding decor. In a preferred embodiment of the invention, the sides 3 are glued to the base 2 with PVA glue or hot-melt adhesive.

In the preferred embodiment of the invention, the size of the honeycomb 14 of the honeycomb core 5 of the cardboard, from which the sides 3 of the rectangular cells are made, is smaller than the size of the honeycomb 13 of the honeycomb core 4 of the cardboard, from which the base 2 of the segment 1 is made, which allows minimizing the flow of cement mortar onto the front part of the façade decor tile .

The shape of the segments from which the cellular formwork is assembled can be different depending on the shape of the concrete panel being manufactured.

Variants of some special cases of segment execution are presented in Fig. 3-9 and 11-13. Accordingly, it should be understood that the present invention is not limited to the embodiments described above. The shape of the segment is determined by the shape of the panel being manufactured (the presence of window or door openings, embedded elements, etc.)

A segment of cellular formwork, rectangular in plan, is shown in Fig. 3-6. A segment of cellular formwork made of cellular cardboard with rectangular protrusions 11 oriented in opposite directions (in plan view) is shown in Fig. 7-9. The segment shown in FIG. 7-9, has a central rectangular part 12 and rectangular projections 11 extending from the central part in different directions with rectangular openings 6 between them. The sides 3 (rusts), protruding above the surface of the base 1, are located along the perimeter of the rectangular protrusions, which are directed to one of the sides, with continuation to the central rectangular part, and also located along the edge of the opening between the rectangular protrusions. In fig. 9 shows a bottom view of segment 1 with a flat bottom sheet of segment base 2. Segment 1 of a cellular formwork made of cellular cardboard with rectangular protrusions 11 directed to one side (in plan view) is shown in Fig. 11a-11b. In fig. 12-13 shows another embodiment of a segment of cellular formwork made of cellular cardboard with rectangular protrusions directed to one side (in plan view)

Below is an example of the parameters of the honeycomb cardboard used to make the segment:

- cardboard thickness of the outer layers (top and bottom sheets) of the honeycomb panel: 0.3...0.4 mm (+0.02/-0.04);

- height of honeycomb 13 in the honeycomb core used to make the base: 11.2...11.6 mm (+0.02/-0.04);

- height of honeycomb 14 in the honeycomb core used for the manufacture of sides: 9.2...9.6 mm (+0.02/-0.04);

- cell size of honeycomb 13 in the honeycomb core used to make the base: 8.0...11.0 mm (+0.3/-0.5);

- cell size of honeycomb 14 in the honeycomb core used for the manufacture of sides: 4.0...5.0 mm (+0.3/-0.5).

Due to the close fit of the façade facing decor to the base of the cellular formwork and the implementation of the honeycomb filler of the side cardboard with a honeycomb size, in particular, smaller than the honeycomb size of the base cardboard honeycomb, the flow of cement mortar onto the front part of the concrete tile during the production of concrete panels is minimized.

To ensure strength and increase load-bearing capacity, the wall panel with facing decor is made of reinforced concrete, for which purpose metal reinforcement is installed into the pouring matrix before pouring the concrete.

The process of manufacturing a concrete slab with facade facing decor consists of the following stages.

1. Place the facing element of the facade facing decor face down in each of the cells of the segment.

2. The required number of segments of the cellular formwork are laid and connected by friction (articulate) in the casting matrix.

3. Install metal fittings (if necessary).

4. Concrete is poured into the pouring matrix, in which the facing elements of the facade cladding decor of the wall panel are placed in a cellular formwork.

5. The resulting concrete panel is removed from the matrix and then the segments of the cellular formwork are detached from the finished concrete panel.

The reinforced concrete panel obtained in this way has a facade facing decor on the front side, made, for example, of facing tiles or clinker bricks.

Claims (12)

1. A method for manufacturing a wall panel with façade cladding decor, which consists in placing a cellular formwork in a pouring matrix, placing the facing elements of the façade cladding decor face down in each of the cells of the cellular formwork, pouring concrete into the pouring matrix, after curing concrete, the wall panel is removed from the casting matrix, a cellular formwork is detached from the wall panel, characterized in that the cellular formwork is made up of segments articulated with each other, in which the cells are formed by the base of the segment and sides, the facing element is placed on the base of the segment of the cellular formwork in each of the cells face down so that adjacent facing elements are separated from each other by the sides of the segment, in this case, a segment of a cellular formwork is used, in which the base is made of a sheet of cellular cardboard, and the sides of the cell are made of strips of cellular cardboard attached to the base to form a facing pattern of facade cladding decor. 2. The method according to claim 1, characterized in that in the segment of the cellular formwork the size of the cardboard honeycombs from which the sides of the cell are made is less than the size of the cardboard honeycombs at the base of the segment. 3. The method according to claim 1, characterized in that before pouring concrete, metal reinforcement is installed in the pouring matrix. 4. The method according to claim 1, characterized in that the facing element is a tile or clinker brick. 5. The method according to claim 2, characterized in that in the segment of the cellular formwork the thickness of the cardboard of the outer layers of the honeycomb panel, that is, its upper and lower sheets, is 0.3...0.4 mm (+0.02 / -0 ,04), the height of the honeycomb in the honeycomb core used to make the base is 11.2 ... 11.6 mm (+0.02 / -0.04), the height of the honeycomb in the honeycomb core used to make the sides is 9, 2 ... 9.6 mm (+0.02 / -0.04), the honeycomb cell size in the honeycomb core used to make the base is 8.0 ... 11.0 mm (+0.3 / -0.5) , the cell size of the honeycomb in the honeycomb core used for the manufacture of sides is 4.0... 5.0 mm (+0.3 / -0.5). 6. A segment of cellular formwork for the production of a concrete wall panel with facade facing decor, containing cells, characterized in that the cells are formed by the base of the segment and the sides protruding above the surface of the base to form rectangular cells, while the base of the segment is made of a sheet of honeycomb cardboard, and the sides of the cell are made of strips of honeycomb cardboard, which are attached to the base to form a facing pattern on the wall panel being manufactured. 7. Segment according to claim 6, characterized in that it is designed to be connected to similar segments. 8. The segment according to claim 6, characterized in that the size of the cardboard honeycombs from which the sides of the cell are made is smaller than the size of the cardboard honeycombs at the base of the segment. 9. The segment according to claim 8, characterized in that the thickness of the cardboard of the outer layers of the honeycomb panel, that is, its upper and lower sheets, is 0.3...0.4 mm (+0.02 / -0.04), the height of the honeycomb in the honeycomb core used to make the base is 11.2 ... 11.6 mm (+0.02 / -0.04), the height of the honeycomb in the honeycomb core used to make the sides is 9.2 ... 9.6 mm (+0.02 / -0.04), the cell size of the honeycomb in the honeycomb core used to make the base: 8.0 ... 11.0 mm (+0.3 / -0.5), honeycomb cell size in the honeycomb core used for the manufacture of sides: 4.0 ... 5.0 mm (+0.3 / -0.5). 10. Segment according to any one of paragraphs. 6-9, characterized in that the base of the segment, made of a sheet of cellular cardboard, and the sides of the cell, made of strips of cellular cardboard, are attached to the base using PVA glue or hot-melt adhesive. 11. Segment according to any one of paragraphs. 6-9, characterized in that it is made with rectangular protrusions oriented in opposite directions. 12. Segment according to any one of paragraphs. 6-9, characterized in that it is made with rectangular protrusions oriented to one side.