DE1091298B - Device for the production of fibers or webs from hot-plastic, mineral or inorganic substances, in particular glass - Google Patents

Description

Device for the production of fibers or webs from in the heat plastic, mineral or inorganic substances, in particular glass devices for the production of fibers or webs from mineral that are plasticized in the heat or inorganic substances, in particular glass, with an open top and bottom Slingshot body, namely the inner surface of the material made plastic fed and thrown off at the lower edge are known. Compared to this known device is the simplification and technical progress of the Invention is that the surface of the slinger is inclined at an angle to the horizontal is. This inclined position allows the fibers to form a body of the desired cross-section and the desired dimensions. Another feature of the invention consists in the fact that the stripping point on the side of the annealing furnace applied Slingshot is, furthermore, that the bearings for the slingshot laterally are protected by it, furthermore that the lower opening of the slinger is covered by a cover plate to form a slot, further therein, that the cover plate is held centrally from above by an elbow tube, around the undivided To enable removal of the glass threads, furthermore that to regulate the flow of material a platinum nozzle heated by this is arranged in the annealing furnace, furthermore in that an endless belt with drivers arranged in connection with a winding device is, further in the fact that below the slingshot one with your endless belt cooperating suction device is arranged.

The liquid glass mass fed into the funnel from above can be used directly let drip onto the edge of the funnel, from which it is thrown off into threads and is discharged at the bottom uncut.

Then the thread mass is either already compressed into an oval shape in an oval funnel and then combined on the underside of the funnel to form an endless thread bundle or the thread ring mass, which has sunk downwards, is accelerated by supplying air downwards as it descends and is fed to an endless belt and from there united in an endless bundle of threads. The main direction of the endless belt is roughly parallel to the transverse axis of the centrifugal body. The threads, as they arise from the centrifugal body 17 , are gripped eccentrically on your outer circumference of the ring body formed according to this example. It is also new according to the invention, soft nuggets known per se, such as, for example, silicones, to which the glass threads immediately after their exit from the centrifugal body 17, e.g. B. add by spraying.

An exemplary embodiment of the invention is shown schematically in the drawing, namely Fig. 1 shows the device in a section; FIG. 2 shows a plan view according to the plan view of FIG. 1 in the direction of the arrow; FIG. 3 shows a top view of the funnel 34. One sees at 1 a base plate arranged on any carrier in a machine room, on which the fireclay furnace 2 for the molten glass 3 with the opening 4 stands.

The opening 4 is narrowed by a nozzle 6, in particular made of platinum, embedded in the fireclay body at 5 , so that the outflow of the liquid glass 3 is regulated to the desired uniform strength through this through the firebrick body with heated platinum nozzle 6.

The base plate 1 is followed by the fire tube 7 at the bottom, made of steel, lined with fireclay on the inside and attached to the base plate 1 or hinged to a plate 12 in a lever piece 8. A chassis 10 with a support column 11 carries a plate 12 which is expediently attached to the part 10 at 14 and to the column 11 at 15 . In this plate 12 ball bearings 13 are provided and an opening 16 opposite the opening of the part 7, so that in the plate 12 the centrifugal body 17 arranged in the opening 16 can rotate in the ball bearings 13.

The centrifugal body 17 consists of two iron rings, an outer 19 and an inner 18, which are expediently exchangeable. Between the insert ring 17 and the ring 18 there is a firebrick layer 27. Grooves 20 in the ring 19 accommodate a drive belt for connection to a drive motor 21 in order to bring about the desired rotation of the centrifugal body. The entire chassis 10 with its structure including the funnel 7 can be moved on corresponding rails opposite the opening 4.

On the side of the funnel 7 at 35 , the cover plate 23 is replaceably fastened at 24 with a pair of water-cooled elbow tubes 22 protruding into the funnel space 7. The cover plate 23 is thus fixed and leaves a gap on its circumference at 25 to the adjacent inner surface of the centrifugal body 17 so that the heating gases fed from the funnel 7 through the channel 36 must use this space for discharge and thus the glass mass hitting the inner wall of the centrifugal body 17 heat high.

At the point 25 , the glass mass is thrown off and sinks down, possibly supported by an air stream. This air flow can be generated by in einfachster manner that the distance, holders are provided 26 similar between the iron rings 18 and 19 provided with a fan known per se fins.. In this way, air is sucked in in the direction of the arrows 29 through this space at 26 and guided downward, this air on the one hand cools the outer ring 19 and protects the bearings 13; on the other hand, it presses the thrown-off glass thread mass 28 downward in the direction of the endless belt 30, which is expediently attached indirectly to the chassis 10.

The exit point of the glass away from the centrifugal body 17 is at the point 25 where openings in the form of holes or the like are provided in the free edge of the part 17 , the number of which is adapted to the number of desired threads. Likewise, the running speed of the endless belt 30 is regulated according to the amount of thread produced.

The endless belt 30 can be provided with roughening or barbs 32 in order to remove the glass mass 28 falling on it in the direction of arrow 31 . The drivers 32 are only very narrow, corresponding to the desired thread thickness, so that on the endless belt one behind the other your spacing of the barbs results in corresponding thread bundles, each individual thread bundle can contain hundreds of individual threads.

The decrease of the first thread of the endless belt 30 can be done manually by lifted from the carriers 32 of the thread on the right side of the endless belt (in the drawing) and is drawn from a bobbin 33 for winding. The remaining threads of the N-drivers following behind the first driver 32 lie on the fleece formed by the first threads and are therefore inevitably wound up at 33.

The bobbin 33 can be used simultaneously in a known manner for twisting the individual threads by moving and adjusting its axis of rotation during winding.

By arranging a funnel with a rectangular outlet opening below the centrifugal body 17 , lUan can ensure that the glass filaments collected at-ZD ZD are brought into the shape (without bulging) which is most suitable for delivery to the endless belt 30 .

A suction funnel 34 is provided on the chassis 10 , on the upper edge surface of which the thrown-off thread rings 28 are sucked up through openings 37 so that at 38 they are grasped on one side by the endless belt 30 and carried away.

Claims (1)

PATENT CLAIM: Device for the production of fibers or webs from hot-plastic, mineral or inorganic substances, in particular glass, with a centrifugal body open at the top and bottom, namely the inner surface of which the plasticized substance is fed and thrown off at the lower edge, characterized in this that the surface of the slinger (12) is inclined obliquely to the horizontal. Documents considered: German Patent No. 615 804; "Excerpts from German patent applications" Vol. 15, p. 393 (excerpt from unpublished German patent specification No. 763 839).