An addition to additive manufacturing sews a number of printed substrate sheets together using industrial sewing machine technology. Portions of the final 3D object that will be solid are sewn together into bundles of the object with a needle protruding through the top of the bundle via a sewing machine with a looping mechanism connecting the thread loops under each bundle of printed substrate sheet layers. This will result in many well connected stack bundles that are then stacked in alignment to form the final stack. During heat and compression, the stitch thread may bunch together and become entangled with the cooled plastic of the final solid 3D object. Removal of the excess substrate may proceed as usual, since the sewing is applied only in the solid portions of the final object. The end result will be a part with much higher strength in the Z axis.

An addition to additive manufacturing sews a number of printed substrate sheets together using industrial sewing machine technology. Portions of the final 3D object that will be solid are sewn together into bundles of the object with a needle protruding through the top of the bundle via a sewing machine with a looping mechanism connecting the thread loops under each bundle of printed substrate sheet layers. This will result in many well connected stack bundles that are then stacked in alignment to form the final stack. During heat and compression, the stitch thread may bunch together and become entangled with the cooled plastic of the final solid 3D object. Removal of the excess substrate may proceed as usual, since the sewing is applied only in the solid portions of the final object. The end result will be a part with much higher strength in the Z axis.

An addition to additive manufacturing sews a number of printed substrate sheets together using industrial sewing machine technology. Portions of the final 3D object that will be solid are sewn together into bundles of the object with a needle protruding through the top of the bundle via a sewing machine with a looping mechanism connecting the thread loops under each bundle of printed substrate sheet layers. This will result in many well connected stack bundles that are then stacked in alignment to form the final stack. During heat and compression, the stitch thread may bunch together and become entangled with the cooled plastic of the final solid 3D object. Removal of the excess substrate may proceed as usual, since the sewing is applied only in the solid portions of the final object. The end result will be a part with much higher strength in the Z axis.

An addition to additive manufacturing sews a number of printed substrate sheets together using industrial sewing machine technology. Portions of the final 3D object that will be solid are sewn together into bundles of the object with a needle protruding through the top of the bundle via a sewing machine with a looping mechanism connecting the thread loops under each bundle of printed substrate sheet layers. This will result in many well connected stack bundles that are then stacked in alignment to form the final stack. During heat and compression, the stitch thread may bunch together and become entangled with the cooled plastic of the final solid 3D object. Removal of the excess substrate may proceed as usual, since the sewing is applied only in the solid portions of the final object. The end result will be a part with much higher strength in the Z axis.

An addition to additive manufacturing sews a number of printed substrate sheets together using industrial sewing machine technology. Portions of the final 3D object that will be solid are sewn together into bundles of the object with a needle protruding through the top of the bundle via a sewing machine with a looping mechanism connecting the thread loops under each bundle of printed substrate sheet layers. This will result in many well connected stack bundles that are then stacked in alignment to form the final stack. During heat and compression, the stitch thread may bunch together and become entangled with the cooled plastic of the final solid 3D object. Removal of the excess substrate may proceed as usual, since the sewing is applied only in the solid portions of the final object. The end result will be a part with much higher strength in the Z axis.

Systems and methods relate generally to textile patch attachment to a textile material. In an example, a method relating generally to textile patch attachment to a textile material is disclosed. In such a method, design and coloring of a textile patch and the textile material is detected. This detection includes: capturing images of the textile patch and the textile material with a camera; sending the images to a programmed computer system in communication with the camera for image processing; determining thickness and colors of the textile patch and the textile material from the image processing of the images; and determining position of the textile patch relative to a pattern of the textile material from the image processing of the images. After the detecting, data obtained from the detecting is displayed on a display screen of the programmed computer system.

Systems and methods relate generally to textile patch attachment to a textile material. In an example, a method relating generally to textile patch attachment to a textile material is disclosed. In such a method, design and coloring of a textile patch and the textile material is detected. This detection includes: capturing images of the textile patch and the textile material with a camera; sending the images to a programmed computer system in communication with the camera for image processing; determining thickness and colors of the textile patch and the textile material from the image processing of the images; and determining position of the textile patch relative to a pattern of the textile material from the image processing of the images. After the detecting, data obtained from the detecting is displayed on a display screen of the programmed computer system.

An automated system that can be used for prosthetic heart valve manufacturing or suturing procedures. The system can include a first automated fixture that includes an articulating arm and a target device holder. The system can also include one or more additional automated fixtures, which can be configured as one or more suturing arms that include another articulating arm and a needle holder. The first automated fixture can be configured to rotate a target device held by the holder to allow the one or more additional automated fixtures to perform operations such as form sutures on the target device without intervention of a human operator. The system can include a display system configured to display status information of a suturing procedure.

A sewing machine includes an image capture portion, a conveyance portion, a processor and a memory. The conveyance portion is configured to convey an object to be captured relative to the image capture portion. The memory is configured to store computer-readable instructions that, when executed by the processor, instruct the processor to perform processes. The processes include identifying a target range that is wider than an image capture range and calculating a minimum number of times of conveyance in a first direction. The processes include setting a specified range and the relative position corresponding to the specified range, on the basis of color information of reference image data representing a reference image. The processes include controlling the image capture portion and the conveyance portion and synthesizing the plurality of generated partial image data to generate composite image data representing the whole of the target range.

A sewing machine includes an image capture portion, a conveyance portion, a processor and a memory. The conveyance portion is configured to convey an object to be captured relative to the image capture portion. The memory is configured to store computer-readable instructions that, when executed by the processor, instruct the processor to perform processes. The processes include identifying a target range that is wider than an image capture range and calculating a minimum number of times of conveyance in a first direction. The processes include setting a specified range and the relative position corresponding to the specified range, on the basis of color information of reference image data representing a reference image. The processes include controlling the image capture portion and the conveyance portion and synthesizing the plurality of generated partial image data to generate composite image data representing the whole of the target range.