SU1013426A1 - Electrical furnace for making glass fiber - Google Patents

Abstract

1. ELECTRIC OVEN FOR DEVELOPING GLASS FIBER, including glass melting vessel with spinnerets, carcass. ten-, uieol shoo and a folding tray, characterized in that, with an increase chain of production by shortening the time of filling the fibers n {the common edge, it is equipped with the axes of the framework installed in the middle section of the axle, shock absorbers , supports and creepers. 2.Electrical & but ri.l, characterized in that the inductors are made in the form of electromagnet and phase shifters. 3. Electric furnace according to claim 1, so that the support is made in the form of a tapered head, with the socket fixed on the stand and the cone on the frame.

Description

The invention relates to the construction materials industry, in particular to the equipment of glass fiber factories.

A famous kiln for the manufacture of glass fibers, comprising a glass melting vessel and heat insulation, comprising a parietal layer and a refractory layer, the parietal layer being made of high-silica fabric 1.

The closest to the technical essence and the achieved result to the proposed is an electric furnace for producing fiberglass, including a glass melting vessel with spinnerets, a frame, thermal insulation and a folding tray 2.

A disadvantage of the known electric furnaces is the low productivity, since with the general breakage of the fibers, a lot of time is spent on their fault.

The aim of the invention is to improve the performance of the njrreM to reduce the time of refilling the fibers with a total gap.

This goal is achieved by the fact that an electric furnace for making glass fibers, including a glass melting vessel, c. the spinnerets, the frame, the thermal insulation and the folding tray, are provided with vibrators, shock absorbers, supports and racks installed in the middle part along the transverse axis of the frame. Vibrators are made in the form of electromagnets and a phase shifter. The supports are made in the form of a conical pair, and the nest is fixed on the stand, and the cone is fixed on the frame.

FIG. 1 schematically shows a longitudinal section of the furnace; in fig. 2 is a view A of FIG. one; in fig. 3 shows a circuit for including vibrators in an electrical circuit; in fig. 4 shows a section BB in FIG. 2

The electric furnace consists of glass-melting vessel 1. with dies 2, frame 3, folding tray 4, heat insulator 5 and power supply 6, while the frame 3 is equipped with vibrators 7, 8 and shock absorbers 9 with supports 10 and pillars P. Vibrators 7 and 8 are made in form elektromagayitov. The electromagnetic vibrator 7 collects oscillations on an electric furnace, for example, a series of oscillations with an electromagnetic vibrator 8.

The windings of electromagnets 12 and 13 Vibro TopOBi are powered by alternating current or single-semi-current through rectifiers 14 and 15, controlled by autotransformers 16 and 17, variable resistances or other known means. In the electric circuit of the electromagnet 13 of one vertical oscillations, turn on the phase shifter 18, which allows us to realize the phase shift of one sinusoidal oscillating system with respect to the other electromagnet 12. When adjusting.

When the phase angle is zero, the electromagnets 12 and 13 will operate in the same mode, i.e. oscillations are equal to one electromagnet.

When a phase shift occurs in the operation mode, they will work alternately. The magnitudes of the oscillation amplitudes are controlled by variable resistances or the Nwi 16 or 17 autotransformer by varying the voltage.

Racks And have orienting-elements in the form of a cone pair 19, consisting of

5 cone jack 20 and floating cone 21.

The rack eliminates emergency situations in case of breakage of the shock absorber 9 and the electric furnace will fall into the socket 20 by a cone 21.

The furnace works as follows.

0 When the thread is broken, the chains of electromagnets 12 and 13 are automatically switched on to refill, which are adjusted to a certain value of the amplitude of oscillations and to a certain mode of simultaneous or alternate operation. At the same time, they fold back into the receiving zone, next to the elementary fibers 22, the folding tray 4.

Thus, the glass mass is transported through the dies 2 under the action of vibration,

0 which, having a certain weight and height of the glass melt, quickly flows through the spinnerets, forming on the tray 4 the coarse strand of Volokna 22, while the coarse fiber strand under its weight is directed to the acceleration device (not shown).

The electric furnace will provide automation of priming the elementary fibers into the strand and shorten the flow time of the die, which is necessary to create a complex of automatic operations that will ensure automatic maintenance of the electric furnace, replacing the operator / operator in the hazardous zone of the furnace and the oil fumes. Thus, now the operator can already automatically receive pd in the shortest possible time.

five

The vibratory electric furnace will make it possible to use it for the assembly of a complex for the maintenance of glass vessels and nama-. and exclude the operator, which will reduce workers, as well as allow the use of more active lubricants that are toxic to humans, which will increase the mechanical characteristics of fiber products, as well as fiberglass.

The proposed electric furnace will increase the reliability and durability of the equipment and reduce the idle operation of the vessels, thereby increasing productivity and reduce waste.

Claims (3)

1. ELECTRIC FURNACE FOR THE PRODUCTION OF GLASS FIBER, including a glass melting vessel with dies, frame, heat. Loyoleolation and a folding tray, characterized in that, in order to increase productivity by reducing the time of fiber filling with a common break, it is equipped with vibrators, shock absorbers, supports and racks installed in the middle part along the transverse axis of the frame. 2. Electric furnace io π. 1, characterized in that the vibrators are made in the form of electromagnets and a phase shifter. 3. An electric furnace according to claim *, which is inconsistent with the fact that the supports are made in the form of a cone lara, moreover, the socket is fixed on the rack, and the cone is on the frame. „1013426