EP3088587B1 - Sewing system - Google Patents

Description

The invention relates to a sewing machine with a sewing machine and with a sewing material-transporting device for transporting sewing material from a feed area towards a stitch formation area and from the stitch formation area to a laying area.

Such a sewing unit is known by public prior use of class 911-210 Dürkopp Adler AG. The DE 10 2007 001 666 A1 discloses a sewing unit with a first transport unit for moving workpieces from a preparation station to a sewing station and with a second transport unit for moving the workpieces from the sewing station to a storage station. The DE 10 2009 038 602 A1 discloses a sewing machine with a first robot for removing respectively an upper part and a lower material part and for transport to an insertion station and arrangement in a workpiece holder and with a second robot for removing a workpiece holder from the insertion station and for feeding the Nähguthalters towards a first sewing station. During operation, this sewing unit requires a plurality of material holders.

It is an object of the present invention to further develop a sewing unit of the type mentioned in the introduction such that an efficiency of the sewing process is increased.

This object is achieved by a sewing unit with the features specified in claim 1.

According to the invention, it has been recognized that it is possible to work with exactly one single, property-specific holding frame and at the same time bring about a temporal overlap between the sewing transport and the supply transport of the sewing material. It is not necessary that when using exactly one holding frame, the operator waits until the entire sewing process has been completed, and then manually equipped this holding frame with new material. Due to the temporal overlap according to the invention thus the temporal efficiency of the sewing process is increased. In addition, the sewing unit according to the invention does not require a plurality of material-specific holding frames, which reduces the setup costs of the sewing unit. It can be worked with exactly one holding frame during the entire sewing process.

A gripper robot according to claim 2 can be flexibly adapted to the requirements of different types of sewing material.

A gripper robot according to claim 3 elegantly combines the supply transport function for feeding the material with that for discharging the material.

In a sewing unit according to claim 4, there is a temporal overlap in the material transport on the one hand between a feed supply transport area and a Nähtransport area and on the other hand between the Nähtransport area and a deposit supply transport area. The time efficiency when processing the sewing process is thus increased again.

A fully automatic sewing process according to claim 5 is particularly efficient.

An embodiment will be explained in more detail with reference to the drawing. The single FIGURE schematically shows a sewing unit 1 of a view from above, wherein mainly the different work fabric work areas are shown during processing by the sewing unit 1.

The sewing unit 1 has a sewing machine 2 for sewing two Nähgutteile. This is shown in the figure using the example of a sleeve 3. The sewing machine 2 sews the fabric 3 in a stitch formation region 4 by forming at least one seam 5. For transporting the fabric 3 from a supply region 6 toward the stitch formation region 4 and for transporting the fabric 3 from the stitch formation region 4 toward a deposition region 7 a Nähgut-Nähtransporteinrichtung 8. The latter has exactly one holding frame 9, the edge contour is tuned to a contour of the seam 5 to be formed. The support frame 9 is held guided by a linear guide 10 of the fabric transport device 8. The linear guide 10 extends between the feed area 6 on the stitch formation area 4 to the deposit area 7. These three areas 4, 6 and 7 provide a Nähtransport Area 11

For moving the holding frame 9 between the feed area 6 (see the instantaneous position of Fig.) And the storage area 7 is a Nähtransport drive 12. The latter includes a running in a known manner, controlled drivable xy-coordinate table for generating the contour the seam 5 when sewing.

The sewing unit 1 further has a Nähtgut supply transport device 13. The latter is used to transport the material 3 from a material feed stacking area 14 to the feed area 6 of the Nähgut-transporting 8 and for transporting the material 3 from Laying area 7 of the sewing material-transporting device 8 toward a fabric-depositing-stacking area 15. The fabric supply transport device 13 thus transports the material 3 on the one hand in a feed supply transport area 16 and in a deposit supply transport area 17. The feed supply transport area 16 includes the cloth feeding pile portion 14 and the feeding portion 6. The laying feed conveying portion 17 includes the laying portion 7 and the cloth laying pile portion 15.

The fabric supply transport device 13 is designed as a gripper robot and includes a robot base unit 18 which is connected via a hinge connection 19 with a Nähgutgreifer 20 and controls it. In the illustrated embodiment, one and the same gripper robot 13 is formed, on the one hand, for transporting the material 3 within the feed supply transport region 16 and, on the other hand, within the depositing supply transport region 17.

On the other hand, the sewing material transporting device 8 on the one hand and the sewing material supply transporting device 13 on the other hand are designed such that they transport the sewing material 3 in an overlapping manner during operation of the sewing unit 1. Here, during operation of the sewing unit 1, a temporal overlap takes place both during transport of the material 3 in the supply supply transport area 16 and during transport of the material 3 in the deposit supply area 17 with the transport of the material 3 within the transport area 11. The sewing unit 1 is designed so that a sewing process from the transporting of the material 3 from the material feed stacking area 14 to the feed area 6 of the sewing material transporting device 8 to transporting the material 3 from the storage area 7 of the sewing material-Nähtransporteinrichtung 8 up to the fabric-depositing stack area 15 is done automatically.

In the following, the sewing process is explained by way of example: To prepare the sewing process, a stack of the material 3, that is to say a stack of sleeves, is arranged in the material feed stack area 14. The gripping robot 13 is activated such that the material gripper 20 grips the topmost sleeve 3 of this stack in the material feed stacking area 14 and transfers it to the feed area 6 of the material handling device 8 (see directional arrow 21). Subsequently, the cuff 3 is detected by the holding frame 9 of the sewing material-transporting device 8 and the sewing material or the cuff 3 is transferred to the holding frame 9 towards stitch formation area 4, where by synchronized xy-driving the Nähtransportantriebs 12 the desired contour of the seam 5 through the Sewing machine 2 in the stitching area 4 is generated. Subsequently, the sewing material 3 is transferred to the holding frame 9 by means of the sewing material-Nähtransporteinrichtung 8 towards the deposit area 7. During sewing in the stitch formation area 4, the gripper robot 13 can transfer the next sleeve 3 from the fabric stack in the fabric feed stack area 14 to the feed area 6 of the fabric sewing transport 8. After placing the material 3 in the storage area 7 of the holding frame 9 moves back to the feed area 6 and detects there the next cuff 3, so that the sewing process for the next piece of fabric 3 to produce the seam 5 can follow. While the holding frame 9 detects this next cuff 3 in the feed area 6, the gripper robot 13 can overlap the finished sewn cuff 3 from the depositing area 7 to the fabric depositing stack area 15 overlapping in time, with the finished sewn cuff 3 in turn from the material gripper 20 is detected (see directional arrow 22). The above-described, temporally overlapping processes take so long instead of until the entire stack of sewing material 3 has been processed and finished sewn in the fabric storage stacking area 15 is present stacked. This whole process takes place fully automatically.

Claims (5)

1. Sewing system (1)

   - having a sewing machine (2) for sewing together two sewn goods parts in a stitch-formation region (4) by configuring at least one seam (5);

   - having a sewn-goods sewing transport installation (8) for transporting the sewn goods (3) from an infeed region (6) towards the stitch-formation region (4), and for transporting the sewn goods (3) from the stitch-formation region (4) towards a depositing region (7) ;

   - wherein the sewn-goods sewing transport installation (8) has precisely one holding frame (9), the peripheral contour of the latter being adapted to a contour of the seam (5) to be configured;

   - having a sewn-goods supply transport installation (13)

   - for transporting the sewn goods (3) from a sewn-goods infeed stack region (14) towards the infeed region (6) of the sewn-goods sewing transport installation (8), and/or

   - for transporting the sewn goods (3) from the depositing region (7) of the sewn-goods sewing transport installation (8) towards a sewn-goods depositing stack region (15),

   - wherein the sewn-goods sewing transport installation (8) and the sewn-goods supply transport installation (13) are configured such that said transport installations (8, 13) in the region of the sewing system (1) transport the sewn goods (3) in a temporally overlapping manner.
2. Sewing system (1) according to Claim 1, characterized in that the sewn-goods supply transport installation (13) is configured as a gripping robot.
3. Sewing system (1) according to Claim 2, characterized in that one and the same gripping robot (13) is configured for transporting the sewn goods (3) from the sewn-goods infeed stack region (14) towards the infeed region (6) of the sewn-goods sewing transport installation (8), and for transporting the sewn goods (3) from the depositing region (7) of the sewn-goods sewing transport installation (8) towards the sewn-goods depositing stack region (15).
4. Sewing system (1) according to one of Claims 1 to 3, characterized in that the sewn-goods sewing transport installation (8) and the sewn-goods supply transport installation (13) are configured such that in the operation of the sewing system (1) there is a temporal overlap

   - when transporting the sewn goods (3) from the sewn-goods infeed stack region (14) towards the infeed region (6) of the sewn-goods sewing transport installation (8), as well as when transporting the sewn goods (3) from the depositing region (7) of the sewn-goods sewing transport installation (8) towards the sewn-goods depositing stack region (15) by way of the sewn-goods supply installation (13),

   - with transporting the sewn goods (3) from the infeed region (6) towards the stitch-formation region (4) and transporting the sewn goods (3) from the stitch-formation region (4) towards a depositing region (7) by way of the sewn-goods sewing transport installation (8).
5. Sewing system (1) according to one of Claims 1 to 4, characterized in that the sewing system (1) is conceived such that a sewing process from transporting the sewn goods (3) from the sewn-goods infeed stack region (14) towards the infeed region (6) of the sewn-goods sewing transport installation (8) up to transporting the sewn-goodss (3) from the depositing region (7) of the sewn-goods sewing transport installation (8) towards the sewn-goods depositing stack region (50) is performed automatically.

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