WO2021099668A1 - Applicator for applying a mesh covering on laminar materials - Google Patents

Abstract

The present invention belongs to the industrial sector for the construction of machinery for placing reinforcement meshes on different laminar materials, such as composite or stony materials. The invention relates to an applicator comprising means for placing the mesh and fixing same by means of a photosensitive adhesive. The applicator prevents fraying and also includes means for identifying the dimensions and relative position of the piece on which the mesh is placed. The mesh is arranged with a tension that allows it to be free from wrinkles, and comprises means to improve close contact between the mesh and the material to be covered, using a scraper or pressure rollers. Embodiments have been provided in which the mesh is cut using ultrasound or a laser.

Description

MESH COATING APPLICATOR ON LAMINAR MATERIALS

Technical sector

The present invention falls within the industrial sector dedicated to the construction of machinery for the treatment of sheet materials, especially and without limitation in the ceramic and natural stone sector.

Object of the invention

Provide a technical solution that allows the high-transfer deposition of a mesh fabric composed of cross-linked fibers and a photosensitive adhesive on laminar materials, in order to provide them with better mechanical properties. Have the means to know the dimensions and position of the materials with respect to the mesh and adhesive deposition to be coated.

Solve the jams in the transport of the mesh derived from the fraying in the cut as well as the overflow or dirtying of the edges of the piece by replacing the method of spraying by means of nozzles usually used, reducing the exposure of the toxic products contained in the chemicals; all this without the problem of having to stop the transport movement of the piece, except at the time of cutting. It must allow the use of photosensitive adhesive to avoid hardening inside the machine.

State of the art

It is known that various materials such as ceramic sheets, different stone materials, composites, etc., are covered with a mesh to give these mainly a better structural behavior, since in many cases they present special fragility, especially in large formats, this layer adheres in the back of the piece, that is, on its non-aesthetic side. There are also applications where reinforcing mesh is placed between two pieces to make a sandwich and increase flexural strength. These meshes are fixed to the material by using different adhesives. There are also numerous inventions that incorporate a fiberglass mesh for the formation of plasterboards or to create different laminates by layering layers with different properties, these inventions differ from the one advocated both in their purposes and in their specific means of obtaining. Closer to the field of the invention is known the Spanish patent with publication number ES2208003 that describes a "fiberglass mesh spreading machine" whose uniqueness lies in the fact that the mesh to be applied is cut and subsequently by means of a mobile part or trestle. extended over the piece to be reinforced, in the case of this patent natural stone, so that once cut and placed, this mobile part of the machine releases it and returns to its original position; from which the differences with the invention object of this specification can be appreciated in which this procedure is no longer precise.

Patent EP3441221A1 of the applicant Sacmi Meccanici Imola comprises a plant that starts from the very pressing of the ceramic powder and fired to obtain the ceramic tiles, the reinforcement of the glass mesh is placed after having impregnated the non-aesthetic back of the tile with a thermosetting resin, this is thus given the unresolved difficulty of manipulating the fiber mesh without forming wrinkles or folds solved by this means in this invention. On the other hand, the document widely mentions how conventional meshes are constituted and their orientation with respect to the piece, a fact widely known by any applicator, and the problem that the natural fraying of a fiberglass mesh causes when it can become entangled or stuck in movement systems, the material rests on an inclined plane defined by a single plate on which it is deposited, a hardening device ("at least partial solidification") of the resin is claimed before the cutting phase, differing from new with the present invention.

Description of the invention

To improve the properties of some laminar materials, various techniques are sometimes used to adhere different types of materials in the form of meshes, with this contribution improving the initial brittleness or giving them different properties such as fire resistance, vibration absorption, adhesion or others, in this way the types of meshes used in the meshing machine obey the needs of the applicator and the nature of the substrate on which they are applied, being possible the use of glass fiber meshes, textiles, fabrics, nonwovens or meshes of the so-called techniques such as those containing carbon or aramid fibers, being able to apply any type described in the recommended meshing machine.

The laminar material mesher object of the present invention has conventional means to place the material on a conveyor of belts, rollers, chains or trays and by means of at least one set of cooperating photocells inserted in the transport path of the pieces, known the width of the piece, knowing the beginning and end of the piece as well as knowing the measure and position of these in such a way that the efficiency of the meshing machine is improved. Above the machine bed there is a support for the coils that contain the mesh, this, the mesh is wound on a mandrel or core, usually of cellulose or cardboard, inserted in a shaft, is guided and tensioned first by At least three guiding and tensioning rollers through which it runs alternately, in order to iron out the possible curving of the mesh, it has behind them a segmented motorized roller that simultaneously drives a tensioning roller with adjustment contributing to what has been described. To keep the mesh with a certain tension and free of wrinkles or folds, it has, located behind this tensioning roller, a sliding plane prior to the cut that presents an inclination with respect to the horizontal close to 35 ° and when this surface is finished, a transverse motorized cutting unit, versions have been provided in which the cut is carried out by means of a disc, by means of a laser or others by means of ultra gone for this role. After cutting and to avoid that the natural fraying of the fibers of the mesh is caught in the transport, there is a second inclined plane or sliding plane after the cut that is with the same angulation but in a plane slightly lower than the first in such a way that the blunt strands or fibers do not come into contact with this plane until they advance a little, keeping them cantilevered due to the rigidity of the fabric, this prevents them from becoming entangled in the separation necessary to carry out the cut. Alternative systems commonly used such as blades or guillotines do not allow the use in the case of microfibers or flexible meshes in large formats, so they are not objects of the invention.

It has at least one roller inkwell in charge of dosing and impregnating the amount of resin or adhesive on the underside of the mesh for subsequent fixation on the laminated support, in such a way that the impregnation occurs when the inkwell is inserted in the transporting the meshing machine, the mesh already falls from this point on the piece and is dragged with the movement of the laminar piece in a synchronized way having means to synchronize this movement by means of an encoder in the gear motors or servo motors used, finally it presents a scraper Presser with a dimension significantly greater than the width of the piece to be treated to improve the intimate contact between mesh and piece, once again eliminating any wrinkles or small creases that may have occurred. Description of the drawings

For a better understanding of what is described in the present specification, some drawings are attached in which, by way of example, a list of the figures of the proposed invention is represented.

Figure 1 shows a side elevation of the netting machine in which it can be seen:

1. Coil support

2. Mesh

3. Tensioning and guide rollers

4. Segmented motorized roller 5. Adjustment tensioner roller

9. Roller ink fountain

10. Pressor scraper 11. Photocells detection of parts

12. Parts

13. Conveyor

14. Self-supporting chassis 15. -Control panel

16. -Conveyor motor

Figure 2 illustrates a view of detail A of the first figure for a better appreciation of its components, where the discontinuity and change of plane can be seen that the sliding plane before cutting 8 with respect to the sliding plane after cutting 8 'can be seen, the mesh 2, the transverse motorized cutting device 6, and the pressure roller 7.

Description of a preferred embodiment

A preferred embodiment is cited by way of example, the materials used in its manufacture, as well as the application methods and all the accessory details that may be presented, as long as they do not affect its essentiality, being independent of the object of the invention.

The preferred embodiment includes the first, second and fifth claims described, in such a way that the mesh machine cuts the mesh by means of a cutting disc. The cutting disc is moved at high speed to make a clean and transversal cut, for this the mesh is stopped and pressed by means of at least one tensioning roller with adjustment (5) and a pressure roller (7) located behind it to avoid wrinkles Therefore, it has a pressor scraper (10).

Claims

Claims

1. Mesh coating applicator on laminar materials characterized by having means for the detection and relative position of the plates to be coated with respect to the frame of the machine by means of at least one detection photocell (11), a positioning system by encoder In the material transporting motor (16) of the machine, it has a coil support (1) for the placement of the meshes (2), means for tensioning and guiding by inserting the mesh through at least three tensioning and guiding rollers (3), as well as a tensioning roller with adjustment (5), after this the mesh runs on a sliding plane prior to cutting (8) which forms an angle with the horizontal close to 35 °, The applicator has a motorized cross-cutting system (6) that runs close to the plane of movement described, has a second plane of movement after the cut (8 ') adjacent to the first one located in a plane lower than that you and with the same inclination; It has a roller inkwell through which the cut mesh circulates, as well as, behind it, means to exert pressure on the mesh and piece assembly.

2. Mesh coating applicator on laminar materials according to claim 1 characterized by using a cutting disc in the transverse cutting system.

3. Mesh coating applicator on laminar materials according to the first claim characterized by using an ultrasonic cutting system in the cross-cutting system

4. Mesh coating applicator on laminar materials according to claim 1 characterized by using a laser in the cross cutting system.

5. Mesh coating applicator on laminar materials according to claim 1, characterized in that the means for exerting pressure on the mesh and piece assembly are formed by a presser scraper (10).

6. Mesh coating applicator on laminar materials according to claim 1, characterized in that the means for exerting pressure on the mesh and part assembly are at least one pressure roller.