SU728977A1 - Column - Google Patents

Description

The invention relates to a foundry industry and can be used in the mixing and preparation departments of foundries. The known column for activation of binding substances, comprising a casing of dielectric material with electrodes placed in it, which form the activating system 1. The disadvantage of the known column is that it does not provide an increase in the technological properties of the binder and only expands the range of optimal activation mode . The aim of the invention is to more fully utilize the binding properties of the binding properties. This is achieved by the fact that the activating system is made in the form of flat metal electrodes from a nonmagnetic material located inside the magnetically permeable body and the coils of electromagnets located outside the body. The drawing shows the proposed device, a longitudinal section. The column consists of a housing 1 made of a dielectric magnetically permeable material forming inside the working cavity of a rectangular cross section. Inside the cavity there are two flat metal electrodes 2 made of a nonmagnetic material (copper, aluminum, stainless steel of some grades). The distance between the electrodes is 20-30 mm, and their width is determined by the column capacity. At the ends of the column there are round-shaped nozzles 3, which serve to feed the binder and remove it from the column. The stopper 4 prevents the binder from pouring out in the space between the case 1 and the nozzle 4. Outside of the case 1 electromagnets 5 are located. The electromagnets are connected so that they create inside the three working cavities of the column a non-uniform magnetic field, and the arrangement of their poles corresponds to the N-S-N-N-S, T.e scheme. poles of the same name are located towards each other. Due to such a circuit for switching on electromagnets, the maximum of the magnitude of the magnetic field is located in the middle part of each electromagnet, and in the place of the flow of two neighboring magnets the field strength is zero.

The total column length is 500–600 mm, and the number of electromagnets is 1U – 15 pieces.

The column works as follows.

An electrical voltage is applied to the electrodes 2 and an electric field arises from the working cavity, the power kicks of which are directed perpendicular to the axis of the column. When voltage is applied to the terminals of the electromagnets inside the working cavity, a non-uniform magnetic field arises, the natures vector of which is written along the axis of the column. The binder flows through the pipe 3 and, filling the working cavity of the column, moves in the gap between the electrodes. At the same time it

Tensile strength gtp kg / cm

crosses the electric field lines and moves along the magnetic field lines. Simultaneous activation of the binder by magnetic and electric fields makes it possible to more fully utilize its binding properties. The proposed column design provides more efficient activation than in the case of using only magnetic or electric fields.

In tab. Table 1 shows the results of a study of the strength, rupture of samples of a mixture made of 1KO2A quartz sand and phenol alcohol, and resp. Waiting at 210 ° C for 120 sec. The mixture contains 3% phenol-alcohol. 1.16 g / cm.

In tab. 2 shows the results of testing samples of the same mix, cured at different temperatures for 120 seconds.

T a b l and c g 1

The proposed design of an activating system consisting of electromagnets and electrodes allows maximum utilization. Table 2

binding properties of binding substances, and — provides simultaneous activation of the binding agent by magnetic and electric fields.

Claims (1)

Claim A column for activating binders, comprising a body of dielectric material with electrodes placed therein, forming; activating system, about t 728977 6 characterized in that, with a view to more. full use of the binding properties of binders, the activating system is made in the form of flat metal electrodes of non-magnetic material located inside the magnetically permeable body, and coils of electromagnets located outside the body.