RU2103166C1 - Method of tile production - Google Patents

Abstract

FIELD: mineral working, stone working; may be used in manufacture of building materials, production of facing tiles from natural and artificial stones, and also in electronic industry, in particular, production of semiconductor wafers. SUBSTANCE: method includes grinding, polishing and sawing of tiles which are carried out at the cross-feed rate of blank to tool of not less 0.001 m/min and constant rotary speed of tool at least 3100 rpm. Besides, grinding and polishing of tile face are accomplished prior to sawing the blank into tiles by grinding and polishing of blank end face. In this case grinding, polishing and sawing of blank into tiles are carried out on rotating blank which rotation speed is at least 1 rpm. In addition, grinding, polishing and sawing of blank are accomplished with cross-feed of blank towards tool. Sawing of blank into tiles is accomplished with holding them by manipulator with vacuum suction cup. EFFECT: higher efficiency. 6 cl

Description

 The invention relates to the processing of minerals, stone processing and can find wide application both in the building materials industry, in particular in the manufacture of tiles from natural and artificial stones, and in the electronic industry, in particular in the manufacture of semiconductor wafers.

 A known method of manufacturing tiles, in particular marble facing tiles, comprising sawing a block into blanks in the form of a bar, sawing a bar with a diamond disk tool, followed by edging, grinding and polishing [1].

 However, this method has low manufacturability, a significant load of the cutting tool on the processed material, leading to technological marriage, worsening the operating conditions of the equipment.

 In addition, grinding with a tool on a rigid basis leads to cracking of the plates and does not allow the manufacture of plates with a thickness of less than 10 mm.

 Closest to the invention is a method of manufacturing tiles, in particular marble tiles, comprising sawing a block into billets, in the form of a beam and sawing a beam with a diamond tool, followed by edging, grinding and polishing the tiles with a rotating abrasive tool, while grinding and polishing are carried out at the rotation speed of the abrasive tool 2500 - 3000 rpm, and the abrasive tool is made on the basis of polyurethane [2].

 This method made it possible to improve the quality of the tile and reduced the complexity of its manufacture.

 However, due to the fact that grinding and polishing of the tiles is carried out after its cutting, there is a large number of defects from tile failures during these operations and large deviations in non-flatness and non-parallelism of its sides.

 In addition, in the known method, when sawing a workpiece with a disk tool onto tiles, there is no holding of the cut tile, which ultimately leads to the formation of a burr on the reverse side of the tile, which requires additional removal, usually manual.

 Finally, grinding and polishing the front side with an abrasive tool rotating at a speed of 2500-3000 rpm limits the scope of this method, since at such a speed of rotation of the abrasive tool it is possible to process tile made of stone of only a certain hardness, in particular marble.

 The objective of the invention is the creation of such a method that would ensure the manufacture of tiles from a material, in particular stone, of any hardness and high quality.

 The task is achieved by the fact that in the known method of manufacturing tiles, including grinding and polishing the front side of the tile with a rotating abrasive tool, sawing a workpiece with a disk tool on tiles, according to the invention, grinding, polishing and sawing a tile is carried out at a speed of lateral feed of the workpiece to the tool not more than 0, 01 m / min and a constant tool rotation speed of at least 3000 rpm.

 In addition, grinding and polishing of the front side of the tile is carried out before sawing into tiles by grinding and polishing the end face of the workpiece, while grinding, polishing and sawing the workpiece into tiles is performed with a rotating workpiece, and the workpiece is rotated at a speed of at least 1 rpm.

 In addition, grinding, polishing and sawing of the workpiece is carried out with a transverse feed of the workpiece to the tool.

 Sawing the workpiece into tiles is carried out with holding them with a manipulator with a vacuum suction cup.

 The grinding, polishing and sawing of the workpiece into tiles at a constant tool speed of at least 3100 rpm helps to increase productivity and processing quality of the resulting tiles.

 This is explained by the fact that the higher the frequency of contact of tools, in particular grinding, polishing or cutting, with the surface being machined, the higher quality it is obtained, and, as a result, the higher the processing speed, the higher the productivity of the process.

 Grinding, polishing and sawing the workpiece into tiles at a speed of lateral feed of the workpiece to the tool no more than 0.01 m / min, further improves the quality of the surface being treated, since it eliminates the formation of chips and burrs along the edge and ends of the processed tile.

 Grinding and polishing the front side before sawing the workpiece by grinding and polishing the end face of the workpiece further enhances the quality of the resulting tile, since it dramatically reduces defective tiles due to grinding and polishing the front side of the tile in the monolith.

 At the same time, grinding, polishing and sawing the workpiece into tiles with a rotating workpiece significantly improves the quality of the tile in flatness and parallelism of its sides, and it has been experimentally established that the best effect of improving the quality of the cut tile is achieved precisely by rotating the workpiece at a speed of at least 1 rpm .

 The grinding, polishing and sawing of the workpiece with a transverse feed of the workpiece to the tool further improves the quality of the finished product, since it eliminates the formation of burrs and chips along the edge of the plates.

 Finally, holding the cut tile by the vacuum suction cup manipulator further improves the quality of the tile, since it eliminates the formation of burr on the back of the tile.

 The set of features of the proposed technical solution of the method has differences from the prototype and does not follow explicitly from the studied prior art, therefore, the authors believe that the method is new and has an inventive step.

 This method can be widely used in stone processing, i.e. is industrially applicable.

 The method is as follows.

Example 1. A block of marble is fed to a frame machine of the СМР-О-32 type, on which it is sawed into blanks in the form of a beam with dimensions of 15x15 cm. These blanks (4 pcs) are installed for further processing on a multi-spindle rotary machine of our own manufacture, on which carry out the following operations:
grinding the end face of the workpiece with a rotation speed of the abrasive tool 4000 rpm,
polishing the sticking of the workpiece with a rotation speed of the abrasive tool 4000 rpm,
sawing the workpiece into tiles with a tool rotation speed of 4000 rpm

grinding, polishing and sawing operations of the workpiece are carried out with the workpiece rotating at a speed of 35 rpm;
while the workpiece is laterally fed to the tool at a speed of 0.01 m / min,
the cut-off tile is held by a manipulator with a vacuum suction cup.

 Deviation from parallelism of opposite sides within 0.05 mm.

 Example 2. The processed material is granite. The sequence of operations in example 1.

Differences in processing modes:
grinding the end face with a rotation speed of the abrasive tool 3500 rpm;
polishing - 3500 rpm;
sawing - 3500 rpm;
workpiece rotation speed - 25 rpm;
the speed of the transverse feed of the workpiece to the tool is 0.008 m / min.

 Example 3. The processed material is a single crystal of garnet. The sequence of operations in example 1.

Differences in processing modes:
rotation speed of abrasive tools - 3500 rpm;
polishing - 3500 rpm;
sawing - 3500 rpm;
workpiece rotation speed - 18 rpm;
the speed of the transverse feed of the workpiece to the tool 0,005 m / min

 Deviations from parallelism of opposite sides within 0.03 mm for examples 2 and 3.

Claims (6)

 1. A method of manufacturing a tile, including grinding and polishing the front side of the tile with a rotating abrasive tool and sawing a workpiece with a disk tool to tiles, characterized in that grinding, polishing and sawing is carried out at a speed of transverse feed of the workpiece to the tool not more than 0.01 m / min and a constant tool rotation speed of at least 3100 rpm.  2. The method according to p. 1, characterized in that the grinding and polishing of the front side of the tiles is carried out before sawing the workpiece into tiles by grinding and polishing the end face of the workpiece.  3. The method according to claim 1, characterized in that the grinding, polishing and sawing of the workpiece into tiles is carried out with a rotating workpiece.  4. The method according to claim 1, characterized in that the rotation of the workpiece is carried out at a speed of at least 1 rpm.  5. The method according to claim 1, characterized in that the grinding, polishing and sawing of the workpiece is carried out with a transverse feed of the workpiece to the tool.  6. The method according to claim 1, characterized in that the sawing of the workpiece into tiles is carried out with the retention of their manipulator with a vacuum suction cup.