RU197144U1 - INSTALLATION FOR DETERMINATION OF SEDIMENT DURING BILATERAL COMPRESSION OF PRESS POWDERS - Google Patents

Abstract

The invention relates to the field of building materials and is designed to determine the sediment of a press powder during its two-sided compression. An installation is proposed that includes a base plate with a lower punch placed on it, a hollow cylindrical matrix interacting with the lower and upper punches, a guide rod with a fixed holder, on which the meter of precipitation of the upper punch is fixed. The upper and lower punches are installed with the ability to move towards each other, and on the base plate there is an additional meter for the upset of the lower punch, mounted on the matrix using a movable holder - retainer. Due to the installation of the upper and lower punches with the ability to move towards each other, bilateral compression press powder, which allows to obtain more accurate and reliable data when determining precipitation. Placing a lower punch on the base plate of the precipitation meter allows obtaining experimental data adequate to real conditions. 1 ill.

Description

The utility model relates to the field of building materials and is intended to determine the precipitation of the press powder during its two-sided compression.

A device is known for determining the molding and deformation properties of clay and alumina powder, including a cylindrical shape of coaxially mounted rings for placing a sample, stand, plunger for sealing a portion of a press powder, a dial gauge mounted on a tripod. A hollow cylinder with a cutout is installed on the plunger to monitor the indications of a dial indicator (SU No. 1430834 IPC G01N 19/00, publ. 15.10.88).

The disadvantage of this device is that the pressure when pressing powders from clay or alumina mass is applied in steps from lower to higher values, registering the strain of the sample at each stage before and after unloading, which greatly complicates and slows down the process of determining the molding properties of powders. Moreover, the device determines the deformations only in the form of discrete values corresponding to certain applied pressures, and does not allow to establish the general dependence of the sediment of the press powders on the magnitude of the compressive load.

The closest in technical essence and the achieved result to the claimed device is selected as a prototype installation for determining the deformation of press powders at different pressing pressures, consisting of a supporting metal plate, a stand with a holder for a dial indicator and a cylindrical mold (A. Stolubushkin Optimization of the pressing parameters of granular technogenic and natural raw materials for the production of ceramic bricks [Text] / A.Yu. Stolboushkin, OA Stolboushkina, GI Berdov / / Building materials: Science. - 2013. - No. 3. - S. 76-78).

The disadvantage of this installation is that it allows you to fix the deformation only with unilateral compression of the press powder, while almost all designs of modern molds provide two-sided compression of the powder when pressing products in existing ceramic plants.

The technical problem solved by the claimed utility model is to increase the accuracy and reliability in determining the sediment of the press powder, as well as to increase the adequacy of the obtained experimental data to the actual factory conditions of semi-dry pressing of products.

The existing problem is solved by the fact that in the known installation, including the base plate with the lower punch placed on it, a hollow cylindrical matrix interacting with the lower and upper punches, a guide rod with a fixed holder on which the upper punch draft meter is fixed, according to the utility model, the upper and the lower punches are installed with the possibility of moving towards each other, and on the base plate there is an additional meter for the settlement of the lower puncheon, mounted on the matrix using p IG Petritskaya holder - lock.

The technical result obtained by using the proposed utility model allows, due to the installation of the upper and lower punches with the ability to move towards each other, to perform bilateral compression of the press powder, which will allow to obtain more accurate and reliable data when determining precipitation. Placing the lower punch on the base plate of the precipitation meter will make it possible to obtain experimental data adequate to real conditions.

The proposed utility model is illustrated in the drawing, which shows a General view of the installation.

The installation for determining precipitation during two-sided compression of press powders consists of a base plate 1 on which a guide rod 2 is fixed with a fixed holder 3. On the holder 3 there is a dial gauge for draft of 4 of the upper punch 5. On the base plate 1 there is a lower punch 6 with a hollow cylindrical matrix 7. On the matrix 7 using a movable holder-retainer 8 and the locking screw 9 is fixed dial meter precipitation 4 of the lower punch 6.

As gauges, standard gauge or digital gauges-gauges of factory design can be used.

The determination of precipitation during two-sided pressing of the press powder using the developed setup is carried out as follows.

Pre-lubrication of the punches 5, 6 and the matrix 7 to prevent breakage and easier ejection of the press powder 10 from the matrix 7. The press powder 10 is poured to the full height in the matrix 7, mounted on the lower punch 6. For uniform filling, the matrix 7 is shaken excluding manual compaction of press powder. The assembled installation with press powder 10 is installed on a laboratory press. The upper press plate is lowered in contact with the upper punch 5, this ensures that there is no gap between them, and the press powder 10 is not allowed to seal due to mechanical movement of the punch 5. Using the clamp holders 3, 8, dial gauges 4 are pressed powder until they stop in the upper and lower plates of the press, respectively. After that, the arrows of the indicators 4 are set to zero. Synchronous registration of readings of arrow indicators 4 during the pressing process can be carried out both visually and with the use of video fixation means. The powder is pressed under pressure in a predetermined interval, while an adjustable smooth increase in pressure is ensured. When the pressure of the lower press plate, the punches 5, 6 move vertically towards each other and compress the press powder 10 from two sides in the die 7. Simultaneously with the pressing, the readings of the arrow indicators 4 are recorded continuously. The fixation of precipitation is carried out according to the testimony of the press gauge with a given step. The final results of the experiment to determine the precipitation of the press powder during double-sided pressing are processed in tabular form.

The proposed installation allows you to determine the amount of precipitation during two-sided compression of press powders with high accuracy in a given pressure range.

Claims (1)

Installation for determining precipitation during two-sided compression of press powders, including a base plate with a lower punch placed on it, a hollow cylindrical matrix interacting with the lower and upper punches, a guide rod with a fixed holder, on which the precipitation meter of the upper punch is fixed, characterized in that the upper and lower punches are installed with the possibility of moving towards each other, and on the base plate there is an additional meter for settling the lower puncheon, mounted on a matrix with by means of a movable holder - clamp.

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