SU1180154A1 - Method of knocking-out raw moulds - Google Patents

Abstract

A METHOD FOR CLEANING RAW FOUNDRY FORMS, including sealing the mold in the chamber, changing the pressure in the chamber and decompression, characterized in that, in order to reduce the flow rate and maintain the quality of the molding mixture and reduce the energy intensity of the method, after sealing, the mold is held until the pressure in the chamber reaches. 1100-1200 hPa, then the pressure is reduced to 100-200 hPa, after a time exceeding the decompression time by 10-20%, the mold is sealed.

Description

one

This invention relates to methods for knocking out raw casting molds and can be used in a foundry industry.

The purpose of the invention is to reduce consumption and preserve the quality of the molding sand, as well as reduce the energy intensity of the method.

The graph shows the pressure p in the sealed chamber as a function of the time t of the knockout process with the known (curve 1) and proposed (curve 2) knockout methods.

On curve 2, section a-b shows the increase in pressure after sealing the chamber volume, section b-c cutting decompression duration and (- At time tj the pressure drop stops. Because at time 2 dg.c:; in the volume surrounding the shape below than the pressure of the vapor-air mixture in the pores of the form, the form is destroyed, the pressure in the closed volume of the chamber increases (section cd), and then stabilizes (section de). After depressurization of the chamber (connection of its volume with the atmosphere), the pressure reaches atmospheric (section ef ) .

The pressure inside the mold (in the pores and channels of the molding mixture) after sealing before decompression is equal to the atmospheric pressure, and lower it to 80542

how many seconds the pressure in the hermetic chamber rises to 11001200 hPa due to the heating of the air from the heat of the casting. Increased pressure. 5 in the chamber corresponds to an increase in pressure in the molds and channels of the mold. Using the effect of spontaneous growth of the initial pressure allows, while maintaining the same

0 pressure drop during decompression to limit the final pressure of 100-200 hPa. The evacuation of the vapor-air mixture resulting from the knockout

5 coarse (100-200 hPa) vacuum, than it is provided by a known method (less than 10 hPa), allows to reduce the energy intensity of the method by approximately 25-30%.

Timely disconnection of the chamber volume and the vacuum source leads to a decrease in the energy intensity of the method, since in this case no vapor and gas evacuation occurring during the destruction of the form is evacuated through the vacuum source. Reducing the amount of suction from the vapor-gas mixture saves about 25-30% of energy. Thus, taking into account the savings from the increase in ko; In this case, with the decompression pressure, the proposed method allows to reduce the energy consumption by 50-60% as compared to the known one.

Claims (1)

METHOD FOR PUNCHING RAW CASTING FORMS, including sealing the mold in the chamber, changing the pressure in the chamber and decompression, characterized in that, in order to reduce the flow rate and maintain the quality of the molding mixture and reduce the energy consumption of the method, the mold is maintained until the pressure is reached in the chamber. 1100-1200 hPa, then they reduce the pressure to 100-200 hPa, after a time exceeding the decompression time by 10-20%, the foundry is sealed on the shiyagg