DE2432528A1 - EQUIPMENT FOR THE PRODUCTION OF YARNS FROM CHEMICAL AND NATURAL FIBERS - Google Patents

Description

Z E L L: · I; ϊ I N

P 8 .VJ-Ch γ. ·? 2

Instytut Wlokiennictwa, July 4, 1974

Lodz / Poland BZ / Hu

Pl 2162

Device for the production of yarns from chemical and natural fibers

The invention relates to a device for producing yarns from natural and chemical fibers by the air-jet spinning process.

The previously known devices used in the pneumatic spinning in the stationary vortex have in the generating of the Spinning chamber and arranged tangentially to the inner wall of this chamber Nozzles open. The tangentially arranged nozzles cause the swirling of the air flow sucked into the spinning chamber. The air sucked into the cylindrical spinning chamber in these devices changes when it emerges from the nozzle their direction of flow in the spinning chamber. In the nozzles, the air flow has a direction of movement that is in the direction of the axis the chamber is perpendicular "plane and this direction changes when entering the chamber in a direction of movement, which lies in a plane inclined to the axis of the chamber. In addition, the linear movement of the air in the changes Nozzles in a helical movement around the spinning chamber axis outside the nozzles.

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In such devices, the energy consumption is very high and they do not allow it in the turbulence zone to achieve high turbulence speeds.

The object of the invention is to provide a device for the production of yarns from natural and chemical fibers according to the Specify air-jet spinning that makes it possible to reduce energy consumption per unit of yarn produced and the higher speeds due to the reduction in air flow losses in the stationary turbulence zone and thus to achieve higher quality and greater performance.

The object is achieved in that in a device for producing yarns from natural and chemical fibers using the air-jet spinning process with one on one side from a sliding partition, which has a channel for leading out the spun yarn, and on the other Side bounded by an air suction line, non-rotatable cylindrical spinning chamber and with tangential or axial Eohstoffzufuhrkanal arranged to the spinning chamber, according to the invention in the spinning chamber between the inner wall of the spinning chamber and the outer wall of the air suction line, the outer diameter of which is smaller than the inner diameter of the cross section the spinning chamber is, helical air nozzles are provided, the number and size of the mouths of the helical Air nozzles and their angles of inclination to the cross-sectional plane of the spinning chamber from the diameter of the spinning chamber and from

-3-409883 / 1102

- 3 -
Diameter of the air suction line are dependent.

This arrangement and configuration of the nozzles changes the

in
Air flow sucked in through the nozzles / the chamber does not have its direction of movement, but rather has the same flow direction in the direction of the partition wall both in the nozzles and in the chamber.

The nozzles arranged at the base of the spinning chamber can be used in spinning devices with tangential as well as with axial raw material feed can be used.

The air suction line preferably ends at the same height the helical. Air nozzles or protrudes beyond this in the direction of the partition.

An advantageous embodiment is characterized in that the inner diameter of the spinning chamber in the area of the helical Air nozzles equal to or larger than the inner diameter of the spinning chamber in the area of the stationary fiber entanglement is.

According to further preferred embodiments, the

Helical air supplying air into the spinning chamber into the chamber

nozzles the same or in the direction of the air inlet / tapering Cross-sections on.

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The invention is described below on the basis of exemplary embodiments with details of further advantages of the invention and with reference to the drawing. Show it

Fig. 1 shows a device according to the invention with an axial fuel supply,

Fig. 2 ^ 3 and 4 different embodiments of the invention Facilities with tangential raw material supply.

A device consists of a non-rotatable cylindrical spinning chamber 1, which has a displaceable partition wall 2 on one side, which has a coaxial channel 5 for leading the spun yarn 8 out of the chamber 1. A channel 4- for the supply of Höhstoff 9 is arranged tangentially or axially to the spinning chamber Λ . In the spinning chamber 1 there is an air suction line 5, which is arranged coaxially to the spinning chamber 1 and has a round cross section, the outside diameter of which is smaller than the inside diameter of the spinning chamber 1. Between the inner wall of the spinning chamber 1 and the outer wall of the air suction line 5, helical air nozzles 6 are arranged, which are designed in such a way that they ensure a helical vortex movement of the air flow sucked into the chamber 1. The number and size of the mouth of the helical air nozzles 6 and their angle of inclination to the cross-sectional plane of the spinning chamber Λ depend on the size of the diameter of the spinning chamber 1 and the air suction line 5.

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By arranging the nozzles 6 at the base of the chamber 1 and their formation does not change the direction of movement of the air flow emerging from the nozzles when it enters the air chamber. In the nozzles 6 and in the chamber 1, the air flow moves helically around the axis of the chamber 1 the partition 2 to.

In the embodiment shown in Fig. 2, the air suction line 5 protrudes over the mouth of the helical Air nozzles in Eichtung on the partition wall 2. This arrangement of the air suction line 5 ensures that the confusion r Feeling zone is limited and that the air flows emerging from the nozzles almost completely reach the swirling zone and thus cause an increase in the intensity of the turbulence.

In the embodiment shown in Fig. 3 is the Inner diameter of the spinning chamber 1 in the area of the helical Air nozzles larger than the inner diameter of the spinning chamber 1 in the area of the stationary turbulence of the fibers 7 of the raw material 9 »whereby the transition from the larger to the smaller Diameter is frustoconical. Such an embodiment is used when it is necessary to introduce larger amounts of air into the chamber 1.

In the embodiment shown in Fig. 4, the cross-sections of the helical air nozzles 6, the feed the air into the spinning chamber 1, in the direction of the air

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Entrance into the spinning chamber 1. Through the tapered
Cross sections is achieved that the air in the spinning chamber
arrives at the required speed and with significantly smaller air pressure losses.

The use of the devices according to the invention reduces the air flow losses by eliminating the change the air flow direction and allows higher speeds to be achieved with the stationary I fiber entanglement in the spinning chamber and thereby reduces the energy consumption per unit of yarn produced.

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Claims (3)

Οΰ;:,.: _N : 9 4th July 1974- EZ / Hu PL 2162 Patent claims (1. · Device for the production of yarns from natural and chemical pas according to the air-jet spinning process, with a on one side of a sliding partition, which has a channel for leading out the spun yarn, and on the other side of an air suction line limited, non-rotatable cylindrical spinning chamber and with raw material arranged tangentially or axially to the spinning chamber supply channel, characterized in that that in the spinning chamber (1) between the inner wall of the spinning chamber (1) and the outer wall of the air suction line (5) any outside diameter smaller than the inside diameter of the cross section of the spinning chamber (1), helical air nozzles (6) are provided, the number and Size of the mouths of the helical air nozzles (6) and their angle of inclination to the cross-sectional plane of the spinning chamber (1) are dependent on the diameter of the spinning chamber (1) and the diameter of the air suction line (5). 2. Device for the production of yarns from natural or chemical fibers according to claim 1, characterized in that that the air suction line (5) at the same height as the 4098 8 3/1102 helical air nozzles (6) ends or in the direction of the Partition wall (2) protrudes beyond this. 3. Facility for the production of natural yarn or chemical fibers according to claim 1 or 2, characterized in that that the inner diameter of the spinning chamber (1) in the area of the helical air nozzles (6) is equal to or is greater than the inner diameter of the spinning chamber in the area of the stationary fiber intermingling (7). 4-. Device for the production of yarn from natural or chemical fibers according to one of the preceding claims, characterized in that the air enters the spinning chamber (1) feeding helical air nozzles (6) same into the chamber or have tapering cross-sections in the direction of the air inlet s /. 409883/1102 Blank page