The present invention relates to a process for preparing a piecing operation in an air jet spinning arrangement, which comprises a drafting device, whose main drafting zone is bordered on its entry side by an apron roller pair connected to a first drive and on its exit side by a delivery roller pair connected to a second drive, whereby when the spinning process is interrupted the delivery of a closed staple fibre strand is stopped in the main drafting zone and a new starting end of the staple fibre strand, which is to be pieced with a thread already spun, is created, in that the apron roller pair is shut down while the delivery roller pair continues to run.
A process of this type is described in U.S. Pat. No. 5,809,764. This publication discloses, amongst others, a variation in which the apron roller pair is immediately shut down subsequent to an end break while the delivery roller pair continues to run, so that a staple fibre strand can no longer be fed to the delivery roller pair. The delivery of a closed staple fibre strand in the main drafting zone is thus inevitably stopped. As the point of separation of the staple fibre strand is deemed as unsuitable for a piecing operation according to the known publication, it is provided additionally for the preparation of a piecing operation that after the apron roller pair is stopped, but while the delivery roller pair is still running, a new starting end of the staple fibre strand is created. This occurs in that the apron roller pair starts up briefly and is then stopped again. Thus a break point is again created in the main drafting zone in the staple fibre strand, which is now considered suitable for the piecing operation. Only subsequent thereto does the actual piecing operation begin with the starting-up of the apron rollers and the rollers of the drafting device arranged upstream thereto. It is evident that because of the starting-up again of the apron roller pair and its being stopped again, that the cycle length of the piecing operation is extended. Attention is also drawn to the fact that a delicate handling of the staple fibre strand is not possible, as the delivery roller pair, as mentioned above, runs continuously at operating speed while the drive of the apron roller pair can only be switched on or off.
It is an object of the present invention to optimize the process of the above mentioned type with regard to the cycle time and the quality of the new starting end of the staple fibre strand as preparation for a piecing operation in an air jet spinning arrangement.
This object has been achieved in accordance with the present invention such that during an interruption in the spinning process, the apron roller pair and the delivery roller pair are controlled separately and are stopped one after the other in such a way that, in the main drafting zone a new starting end of the staple fibre strand is on hand and is suitable for piecing.
In the process according to the present invention, a new starting end of the staple fibre strand suitable for piecing is already created at the first stopping of the apron roller pair. A repeated starting-up and stopping of the apron roller pair is not necessary, thus reducing the length of the cycle. Because both the apron roller pair and the delivery roller pair are stopped in a controlled way, although at different times, a better quality separation point of the staple fibre strand, that is, the new starting end of the staple fibre strand, can be directly created. Both the apron roller pair and the delivery roller pair are ultimately stopped, namely in such a way that a required amount of fibres necessary for the spinning process are held nipped by the apron roller pair. As the delivery roller pair also comes to a standstill, it can be opened, which facilitates the preparation work for the piecing operation. It is a prerequisite of the present invention that individually controlled drives are provided separately for both the apron roller pair and the delivery roller pair.
In an embodiment of the present invention, it is provided that the new starting end of the staple fibre strand suitable for piecing is pulled very slightly backwards in the opposite direction to its operational rotational direction in which the apron roller pair is temporarily driven. After the separation point suitable for piecing is created, the starting end of the staple fibre strand is withdrawn to such a degree that it is just barely visible. The starting end of the staple fibre strand suitable for piecing is protected, for example against airstreams, which are necessary in practice for the feeding back of a thread end to which the staple fibre strand is to be pieced. The subsequent starting-up also takes place in a controlled way. Only after a defined starting-up time are the normal drafting speeds, that is the constant operational speeds for the apron roller pair and the delivery roller pair achieved.
In an embodiment of the present invention it is further provided that the delivery roller pair is opened shortly before it finally comes to standstill. This prevents the starting end of the staple fibre strand suitable for a piecing operation from being adversely effected, as long as the delivery roller pair is still running. Damage would occur if the delivery roller, while running down, were to turn backwards by several angular minutes directly before it came to a complete standstill, which is often the case when the drive uses a drive belt which is under tension, and this tension lessens when the drive force is discontinued. Before this can occur, the delivery roller pair is opened in order to protect the separation point of the staple fibre strand, the delivery roller pair only then being brought to a standstill.
Because of the process according to the present invention, a better quality new starting end of the staple fibre strand is generated, which quality remains after the apron roller pair and the delivery roller pair are shut down.
These and further objects, features and advantages of the present invention will become more readily apparent from the following detailed description thereof when taken in conjunction with the accompanying drawings, wherein:
FIGS. 2 to 5 show the individual phases of the process, according to the present invention, for preparing a piecing operation, and
The air jet spinning arrangement shown in
The partially shown drafting device 4 has an entry roller pair (not shown), further an additional apron roller pair 5, 6 which is looped conventionally by guiding aprongs 7 and 8, as well as a delivery roller pair 9, 10 at which the main drafting zone 11 of the drafting device 4 ends.
The staple fibre strand 2 is drafted in the drafting device 4 in drafting direction A to the desired degree of fineness, as is known in the art.
Each roller pair of the drafting device 4 includes a driven bottom roller and a spring-loaded top roller. For the drive of the apron roller pair 5, 6 as well as for the entry roller pair (not shown), a first drive in the form of a joint drive motor 12 is provided, and for the delivery roller pair 9, 10 a second drive is provided in the form of a drive motor 13. The respective operational rotational directions are denoted by B and C.
The airjet assembly 3 includes a feed channel 14 to which the drafted but still twist-free staple fibre strand in the form of a thin fibre sliver 15 is fed, for receiving its spinning twist. The air jet assembly 3 also includes a thread withdrawal channel 16 for the spun thread 1. In the inside of the air jet assembly 3, air jet nozzles 17 are arranged, whose exit openings 18 lead into a vortex chamber 19, in which the actual twisting process takes place, as described for example in the above mentioned US published U.S. Pat. No. 5,809,764. The withdrawal direction of the thread 1 is denoted by the letter D.
For a variety of reasons, for example an end break, the normal spinning process can be interrupted. In this case, the spinning process must be begun again by using a piecing process.
The preparations for such a piecing process are described as follows:
In the case of an end break, to prevent further staple fibre strand 2 from being fed to the drafting device 4, which could lead to clogging, it is provided that the drive motors 12 and 13 are shut down under the control of a yarn break detector (not shown) in a way to be described below. The compressed air feed to the compressed air nozzles 17 is also shut-off. The timing of the shutdown is controlled in such a way that the staple fibre strand 2 does not tear between the entry roller pair (not shown) and the apron roller pair 5,6, but rather remains threaded into the respective nipping lines. In the main drafting zone 11, between the guiding aprons 7, 8 and the delivery roller pair 9, 10, however, the staple fibre strand 2 is cut through by the control system in a way described below. The point of separation with the new starting end of the staple fibre strand 2 is denoted in
A suction tube 21 for the purposes of the process according to the present invention, is arranged to the driven delivery roller 9, which suction tube 21 is suctioned according to the suction direction E. The suction tube 21 serves during normal spinning operation to keep the driven delivery roller 9 constantly free of fibre fly.
The drawn length of the arrows B and C shown is not to be understood as a scale, but rather shows whether a roller rotates rapidly or slowly.
After an end break occurs, the fibre flow between the staple fibre strand 2 and the thread 1 is interrupted. Both must be joined together again in a piecing process, and in a way which results in the best quality. For this reason, the delivery of a closed staple fibre strand 2 is stopped after an interruption in the spinning process, and a new starting end 20 of the staple fibre strand 2 is generated, which new starting end 20 is pieced to an end of an already spun thread.
By using the controlled shut-down of the apron roller pair 5, 6 and the delivery roller pair 9, 10, a good quality new starting end 20 of the staple fibre strand 2 having a fibre tuft suitable for piecing can be achieved on the first shut-down. Directly before the drive motor 13 is shut down finally, the delivery roller pair 9, 10 is already opened, so that the spring-loaded top roller 10 achieves the position 10′ denoted by the dot-dash line. This prevents, in a way described above, the starting end 20 of the staple fibre strand 2 being in any way impaired when the delivery roller 9 of the delivery roller pair 9, 10, jerks backwards by several angular minutes at the moment of the shut-down.
According to
According to
In order to piece the end 26 of the piecing thread 24 located in the suction device 25 to the starting end 20 of the staple fibre strand 2, the re-closed delivery roller pair 9, 10 and the withdrawal roller pair (not shown) and the winding device (not shown) are, in a first phase, started up at initially a reduced speed. In this phase the end 26 of the piecing thread 27 is pulled out of the suction tube 25. A sensor (not shown) establishes when the end 26 of the piecing thread 27 has left the suction tube 25. This is the timing signal for the drive motor 12, by which the starting end 20 of the staple fibre strand 2 is fed to the delivery roller pair 9, 10 at a correctly timed interval. The starting end 20 of the staple fibre strand 2 and the end 26 of the piecing thread 27 can join together in the area of the delivery roller pair 9, 10 and respectively the air jet aggregate 3. For this purpose the compressed air necessary for imparting the spinning twist is also switched on.
To achieve a good piecing process, not only a good quality new starting end 20 of the staple fibre strand 2 must be created, but also a good quality end 26 of the piecing thread 27. The end 26 is therefore advantageously formed as a thread brush (not shown).
As soon as the new starting end of the staple fibre strand 2 is joined to the end 26 of the piecing thread 27, the drive motors 12 and 13 are started up in a controlled way to their normal operational speeds, after which the operational state is reached as shown in
Number | Date | Country | Kind |
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10 2004 050 968.9 | Oct 2004 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP05/10995 | 10/13/2005 | WO | 4/13/2007 |