CS276521B6 - Blown shaft for cooling chemical fibers - Google Patents

Abstract

The blowing shaft for cooling chemical fibers with a transverse cooling principle, combined with a blowing slot (65) for intensive cooling of chemical fibers, is provided with a system of control flaps (21, 22, 66), between which are located baffles (30, 41). The control flaps (21, 22) are mechanically coupled to each other with a control disc (59) and the control flap (66) with the front control disc (79), which is provided with a connecting screw (81) with a knurled nut (85).

Description

1 CS 276 521 B6

A larger number of specially controlled dampers, which are equipped with each shaft, a complex and lengthy adjustment of air parameters in individual vertical bands. The requirements for the operation of the shafts are increased and the provision of standard cooling conditions in operation where several blowing shafts are installed in the spinning line is withdrawn.

These problems are almost cured by the solution of the present invention, with excellent uniformity of blowing. Simple and responsive is the regulation of the amount of air-damper regulating flaps that are coupled by an inventive mechanism.

SUMMARY OF THE INVENTION The subject of the present invention is a blowing chamber for combining chemical fibers combined with a blowing slot consisting of a front passage, a supply pressure channel, side walls and a pressure chamber provided with at least one partition, dividing the pressure chamber into at least two pressure channels, at least two regulating flaps are arranged in the lower pressure channel leading to the vertical sieve frame and are at least one regulating flap mechanically coupled to the front actuating disk provided with the associated actuating disk and in the upper pressure channel; bolt and knurled nut.

The regulating flaps in the lower pressure channel are mounted on axes on which the toothed wheels are mounted, coupled by a tubular toothed body mounted in bearings. The tubular body is joined by a torsion tube mounted in the outer bearings with no control knob. Similarly, a regulating flap in the upper pressure channel has a gearwheel on the axis, into which a gear shaft engages, coupled with a torsion bar and a front control disk. The toothed wheels with the toothed shaft and the tubular toothed body together form a closed gearbox with helical or helical gearing. The front and rear control discs have 10 ° lines on the circumference so that the position of the control dampers is clearly opposite the arrow. The front control disc is provided with a connecting screw and a knurled nut, the screw head being inserted in the groove of any control disc. When loosening the knurled nut, it is possible to either rotate one or the front control disc to control the lower and upper pressure control dampers of the blowing shaft.

The novelty and advantages of the design of the blowing shaft according to the present invention is that it allows for an increase in cooling performance, since the cooling of the thicker fineness of the chemical fibers with higher unit fineness is controlled. The ingenious mechanism of controlling the air damping control flaps into the individual pressure channels of the blowing shaft combined with the blowing slot fulfills the requirements of light and easy operation, high precision and reproducibility of the shaft parameter setting from the technology point of view.

In the accompanying drawing, FIG. 1 shows a blowing chamber for cooling chemical fibers combined with a slot provided with a control damper system. FIG. 2 shows a detail of the mechanism for actuating the flaps.

The blowing shaft according to the invention, shown in vertical side section in FIG. 1, consists of a front passage 10, a supply pressure passage 20, a pressure chamber 40 and side walls 90. The pressure chamber 40 is provided with one partition 41 which divides the pressure chamber 40 into two pressure channels. The lower pressure channel 42 extends to the vertical screen 45 and comprises two regulating flaps 21, 22 between which a baffle 70 is provided.

On the axes of the regulating flaps 21, 22, gears 48 are attached, coupled to the tubular toothed body 50, which is mounted in the bearings 21, 52 of the transmission. The tubular toothed body 50 is connected to any control disk 22 by means of a torsion tube 55 attached to the outer bearings 56, 57. Similarly, the upper pressure channel 62 extending into the blowing slot65 comprises at least one regulating flap 66 on which it is toothed the wheel 67 with the associated toothed shaft 68 connected by the torsion beam 75 to the front control disc 79. The torsion rod 75 is rotatably mounted in the torsion tube 55. The front and rear control discs 79, 59 are numbered on their circumference by numbered lines, according to which, evidently, the position of the flaps is opposite the arrow 86. The front control disc 79 comprises a connecting screw 81 with a knurled nut 85. The head of the connecting screw 81 is housed in the groove of any control disc 59.

Claims (2)

CS 276 521 B6 2 Blow shaft combined with a fiber intensive cooling slot provided with two control damper systems coupled to each other via a 1 easy-to-operate mechanism, meets the technological requirements of high precision and reproducibility of cooling shaft parameters in the spinning line. The amount of air-cooled cooling air supplied to the cooling shaft inlet 20 is divided into the lower pressure channel 42 and into the upper pressure channel 62 according to the respective regulating flaps 21, 22 and 66. The turbulence of the air on the regulating flaps is reduced by the baffle plate. a dividing baffle 41 and a resistance member 32 in the form of a perforated sheet on which the air parameters can be adjusted by a pressure gauge based on the differential pressure measurement. The front control disc 79 adjusts the amount of air to the upper pressure channel 62 leading to the blow gap 65. No control disc 59 adjusts the flaps 21, 22 of the lower pressure channel 42 extending to the vertical screen frame 45. The cooling air parameters are adjusted such that the cooling the effect of the blowing slot 65 under the spinneret was dominant. The connecting screw 81 with the knurled nut 85 allows the front and none of the control discs 79, 59 to be coupled readily so that both regulating damper systems can be readily opened or closed. Upon releasing the knurled nut 85, the front 79 or rear 59 actuating disc can be independently rotated so that the regulating flap 21, 22 of the lower pressure channel 62 leading into the blow gap 65 can be set independently. The blow shaft has been functionally tested in spinning polypropylene fibers. BACKGROUND OF THE INVENTION A blowing chamber for the cooling of chemical fibers combined with a blowing slot consisting of a front passageway, a pressure feed channel, a pressure chamber and sidewalls, wherein the pressure chamber is provided with at least one partition wall dividing the pressure chamber into at least two pressure vessels. characterized in that at least two regulating flaps (21, 22) are mechanically coupled to no control disc (59) and a burner in the lower pressure channel (42) leading to the vertical sieve frame (45) at least one regulating flap (66), mechanically coupled to the front actuating disc (79), provided with a pressure channel (62) extending into the blow-through slot (65), which is provided with a reinforcement ring (81) and a knurled nut (85). 2 drawings