SU1078472A1 - Device for dewatering and drying mica-loaded papers - Google Patents

Abstract

A DEVICE FOR WASHING AND DRYING MICA PAPERS containing a transporting net, a suction box located under it with a perforated rattle, a heater and a drying unit, characterized in that, in order to intercept the dehydration process, the heater is made in the form of a magnetic conductor, in which grooves a wrap is placed. the protrusions are made with through holes, and the second magnetic conductor enclosing it with openings aligned with the openings of the first magnetic conductor, and located under the perforated cover. (L

Description

The invention relates to a device for dewatering and drying mica papers and is intended for working at mica enterprises in the production of mica, for example, mica plastics and materials. suction boxes located under it, drying unit tl. The known device provides for the dewatering of a paper web on suction boxes with extremely low vacuum, which reduces the efficiency of the dewatering. An increase in the vacuum depth on the suction pads in the production of micaceous papers at a temperature of +5 C mica pulp leads to a deterioration of the electrical properties of the paper. The design of the suction box prevents the viscosity of the water from being reduced at the time of dehydration, nor does it remove water from the inner layers of the cross-section of the mica paper web. A device for dewatering and drying mica papers, containing a transporting day, suction pads with a perforated lid, spiral heaters mounted above the canvas, tunnel-dried with supply of air heated from an electric radiator and exhaust of water vapor 23, is known. A disadvantage of the known devices is that it is ineffective since the micaceous pulp, the passage under the heaters in the area of the suction boxes, does not have time to be heated to a temperature of 20-50 ° C, at which Water consumption is sharply reduced, which reduces the efficiency of operation of suction boxes (dehydration rate of 20-25%),. The purpose of the invention is to intensify the dewatering process. The goal is achieved by the fact that, in a device for dehydrating and drying mica papers containing a transporting net, suction boxes with a perforated lid, heater and drying unit are located under it, the heater is made in the form of a magnetic core, in which the winding is placed, The protrusions are filled with through holes, and a second magnetic conductor covering it with openings that are combined with the openings of the first magnet of the conductor, and is located under the perforated lid. Fig. 1 shows a device for dewatering and drying papers; Fig 2 - conveyor and mesh with suction pins and a heater; in fig. 3 is a view A of FIG. 1, the upper board of the suction box. The device consists of a transporting grid 1, suction boxes 2, a perforated cover 3., a magnet 4, having slots in which the electrically and heat insulated winding 5 is placed and the through holes 6, which are aligned with the holes 7 the second magnetic circuit 8, which serves as a membrane. The drying part of the devices is induction dried 9, equipped with devices 10 and 11 for sucking water vapor and supplying hot air. On the outer surface of the metal casing 12 of the induction dryer there is heat insulation 13, over which the electrically insulated induction winding 14 is located, and inside the casing on the bottom wall there is a reinforced plate 15 made of magnetic steel with which the transport tape 1 contacts. Dehydration and drying of mica papers is carried out by turning on the windings of 5 inductors into an alternating current with a frequency of, for example, 50 Hz. When passing an alternating current on the winding of the inductor, an alternating electromagnet arises around it e field, the main magnetic flux of which closes along the magnetic conductor 4 and the second magnetic conductor 8, where eddy currents are induced, heating them to a certain temperature; moreover, the electromagnetic fields of the coil 5 and the magnetic conductor 8 interact with electrodynamic forces that create the vibration of the magnetic conductor 8 s a certain frequency and amplitude. This contributes to the removal of moisture and compaction of mica flakes, thereby increasing the mechanical strength of mica papers — by 1.5–2 times, electrical insulation characteristics by 1.5–1.7 times. When an alternating current passes through the induction winding 14, an alternating electromagnetic field arises around it, the flow of which closes along the metal casing 12 and the plate 15, where eddy currents are induced, heating them to a certain temperature, for example, up to 100400 ° C. to carry out the contact method with the simultaneous imposition of thermal radiation, t, e, from below the heat enters the grid and the slyoplastic bu mage from the slab, and from above by penetrating thermal radiation from

walls of induction sushil. Thus, the mica on paper quickly warms to its full thickness, and, consequently, the evaporation rate of the remaining moisture after dehydration sharply increases.

The use of the proposed device for dewatering and drying mica paper will allow to intersify the dewatering process, shorten the drying process and improve the electrical insulation characteristics of mica paper.

Claims (1)

DEVICE FOR DEHYDRATING AND DRYING Mica PAPER, containing a conveyor grid, suction boxes with a perforated lid located under it, a heater and a drying unit i characterized in that, in order to intensify the dewatering process, the heater is made in the form of a magnetic circuit, in the grooves of which the winding is placed, and the protrusions are made with through holes, and the second magnetic circuit enclosing it with openings aligned with the openings of the first magnetic circuit, and is located under the perforated cover. FIG. 1