A pile knit fabric for internal materials of vehicles may include a knit layer prepared by weaving ground yarns, on one surface thereof, and a pile layer prepared by interweaving pile yarns with ground yarn loops of the knit layer, on the other surface thereof and, thus, has excellent physical coupling force between the ground yarns and the pile yarns and has excellent abrasion resistance, scratch resistance and formability as well as soft tactility.

A loom including a drive transmission shaft connected to a warp beam via a gear member inside a loom frame and inserted in a through-hole formed in a side frame, and a support structure for supporting the drive transmission shaft, the support structure including a first bearing and a second hearing externally fitted to the drive transmission shaft at an interval in an axis line direction. The support structure includes a first bearing case configured to accommodate therein the first bearing and attached to the side frame inside the loom frame and a second bearing case configured to accommodate therein the second bearing and attached to the side frame outside the loom frame.

An intermediate receiving mechanism includes a base member capable of supporting both shaft end portions, a lever member for clamping both shaft end portions, and two beam support sets arranged side by side, corresponding to respective warp beams. Each beam support sets is constituted by two or more supporting rollers on the base member side and a contact part including one or more contact rollers on the lever member side. The lever member includes a swing member swings about a swing shaft and supports both the contact parts. Support positions on the swing member for both the contact parts are positions where a line segment connecting the support position for one contact part and a shaft center of the swing shaft forms an angle with respect to a line segment connecting the support position for the other contact part and the shaft center.

An intermediate receiving mechanism includes a base member capable of supporting both shaft end portions, a lever member for clamping both shaft end portions, and two beam support sets arranged side by side, corresponding to respective warp beams. Each beam support sets is constituted by two or more supporting rollers on the base member side and a contact part including one or more contact rollers on the lever member side. The lever member includes a swing member swings about a swing shaft and supports both the contact parts. Support positions on the swing member for both the contact parts are positions where a line segment connecting the support position for one contact part and a shaft center of the swing shaft forms an angle with respect to a line segment connecting the support position for the other contact part and the shaft center.

A pile knit fabric for internal materials of vehicles may include a knit layer prepared by weaving ground yarns, on one surface thereof, and a pile layer prepared by interweaving pile yarns with ground yarn loops of the knit layer, on the other surface thereof and, thus, has excellent physical coupling force between the ground yarns and the pile yarns and has excellent abrasion resistance, scratch resistance and formability as well as soft tactility.

A pile knit fabric for internal materials of vehicles may include a knit layer prepared by weaving ground yarns, on one surface thereof, and a pile layer prepared by interweaving pile yarns with ground yarn loops of the knit layer, on the other surface thereof and, thus, has excellent physical coupling force between the ground yarns and the pile yarns and has excellent abrasion resistance, scratch resistance and formability as well as soft tactility.

The monitoring device for a weaving machine includes at least one camera and a weft-thread beat-up device. The weft-thread beat-up device includes at least one reed and/or a batten and the reed and/or the batten extends in a longitudinal direction of the weft-thread beat-up device. The at least one camera apparatus is fastened to the weft-thread beat-up device and includes sensor elements arranged adjacent to one another. The camera is designed to record an image using the sensor elements, wherein the sensor elements are arranged in a row that extends substantially parallel to the longitudinal direction of the weft-thread beat-up device.

The monitoring device for a weaving machine includes at least one camera and a weft-thread beat-up device. The weft-thread beat-up device includes at least one reed and/or a batten and the reed and/or the batten extends in a longitudinal direction of the weft-thread beat-up device. The at least one camera apparatus is fastened to the weft-thread beat-up device and includes sensor elements arranged adjacent to one another. The camera is designed to record an image using the sensor elements, wherein the sensor elements are arranged in a row that extends substantially parallel to the longitudinal direction of the weft-thread beat-up device.

Disclosed in the present invention is a medical paper production apparatus. The apparatus comprises a yarn mesh forming unit, a yarn mesh gluing unit, a yarn mesh, upper-layer medical paper, and lower-layer medical paper combining forming unit, an upper-layer medical paper unwinding unit, a lower-layer medical paper unwinding unit, and a composite medical paper winding unit which are sequentially provided on a rack; and the described units are respectively electrically connected to a PLC controller. According to the apparatus, a yarn is first woven into a grid-type yarn mesh; then the two surfaces of the yarn mesh are coated with a glue; then the yarn mesh is sandwiched between an upper-layer medical paper and a lower-layer medical paper; and then a pair of medical paper combining rolls are used to combine, by means of heating and pressurizing, the upper-layer medical paper, the yarn mesh, and the lower-layer medical paper into a medical multi-layer absorbent fiber reinforced material. The apparatus has a high degree of automation, can continuously produce medical tissues in batches, and can ensure firm combination of the yarn mesh to the upper-layer paper and the lower-layer paper, and uniform yarn grids; and the material forms a specific wrinkled effect by means of bidirectional shrinkage.

An intermediate receiving mechanism includes a base member capable of supporting both shaft end portions, a lever member for clamping both shaft end portions, and two beam support sets arranged side by side, corresponding to respective warp beams. Each beam support sets is constituted by two or more supporting rollers on the base member side and a contact part including one or more contact rollers on the lever member side. The lever member includes a swing member swings about a swing shaft and supports both the contact parts. Support positions on the swing member for both the contact parts are positions where a line segment connecting the support position for one contact part and a shaft center of the swing shaft forms an angle with respect to a line segment connecting the support position for the other contact part and the shaft center.