An elongate web of wrapping material having a longitudinal axis and a series of lines of weakening spaced from each other in a direction along the axis is disclosed. Each line of weakening is configured to form an extraction opening for the removal of smoking articles from a bundle of smoking articles wrapped in a longitudinal section of the wrapping material cut from the web. A portion of each line of weakening extends in a longitudinal direction, and at least a part of said portion extends at an angle to the longitudinal axis. A method of manufacturing an elongate web of wrapping material is also disclosed.

A debris collection component, a debris collection assembly, a battery case packaging structure and a battery case packaging method are described. The debris collection component is configured to be arranged between two adjacent workpieces stacked in a direction of gravity. The debris collection component comprises a collection tray and a retaining member. The collection tray is configured to receive debris falling from the workpiece above. The retaining member is arranged on the collection tray and configured to retain the debris. The debris collection component can collect the debris falling from the workpiece above so as to reduce the amount of the debris attached to the workpiece, and reduce the impact of the debris on the subsequent assembly process of the workpiece and the safety performance during the use of the workpiece.

A debris collection component, a debris collection assembly, a battery case packaging structure and a battery case packaging method are described. The debris collection component is configured to be arranged between two adjacent workpieces stacked in a direction of gravity. The debris collection component comprises a collection tray and a retaining member. The collection tray is configured to receive debris falling from the workpiece above. The retaining member is arranged on the collection tray and configured to retain the debris. The debris collection component can collect the debris falling from the workpiece above so as to reduce the amount of the debris attached to the workpiece, and reduce the impact of the debris on the subsequent assembly process of the workpiece and the safety performance during the use of the workpiece.

A container for produce, and specifically for fruits such as apples that provides a secure and well ventilated shipping enclosure, allowing the purchaser to visually inspect the contents, while preventing the enclosed produce from being removed or dropping out of the container. The container is preferably constructed from bio-degradeable materials such as a kraft paper or cardboard, and includes a bottom tray into which the produce is placed. A top tray is placed over the produce contained in the bottom tray, with trays including pairs of corner-holes near the four corners of both trays, each pair connected by corner slots. An elastic band is then placed around both the top tray and the bottom tray, received into each set of corner holes and held within each corner slot. Preferably two elastic band are used, one located proximate to each end of the container.

A container for produce, and specifically for fruits such as apples that provides a secure and well ventilated shipping enclosure, allowing the purchaser to visually inspect the contents, while preventing the enclosed produce from being removed or dropping out of the container. The container is preferably constructed from bio-degradeable materials such as a kraft paper or cardboard, and includes a bottom tray into which the produce is placed. A top tray is placed over the produce contained in the bottom tray, with trays including pairs of corner-holes near the four corners of both trays, each pair connected by corner slots. An elastic band is then placed around both the top tray and the bottom tray, received into each set of corner holes and held within each corner slot. Preferably two elastic band are used, one located proximate to each end of the container.

A design kit for producing an automatic sliding door for a building, includes at least the following assemblies: at least one door assembly with a number of door assembly elements for at least one sliding door leaf, a drive assembly with a number of drive assembly elements, a motor assembly with a number of motor assembly elements, wherein the design kit is divided into a number of packages.

A design kit for producing an automatic sliding door for a building, includes at least the following assemblies: at least one door assembly with a number of door assembly elements for at least one sliding door leaf, a drive assembly with a number of drive assembly elements, a motor assembly with a number of motor assembly elements, wherein the design kit is divided into a number of packages.

A deposition mask package according to the present embodiment includes a receiving portion, a lid portion that faces the receiving portion, a deposition mask that is arranged between the receiving portion and the lid portion and has an effective region in which a plurality of through-holes is formed. The receiving portion has a first opposing surface facing the lid portion and a concave portion provided on the first opposing surface. The concave portion is covered by a first flexible film. The effective region of the deposition mask is arranged on the concave portion with the first flexible film interposed therebetween.

The present invention discloses an asymmetric packaging belt, which beaks the conventional art and creatively designs diagonal parallel ridge combinations composed of deep diagonal parallel ridges and shallow diagonal parallel ridges which are inclined in different directions and are arranged on the front surface and the back surface of the packaging belt, such that the tensile properties of the packaging belt can be improved in the case of the same gram weight, thereby solving the existing problems in the prior art. The present invention provides an asymmetric packaging belt, provided with a front surface and a back surface, further comprising diagonal parallel ridge combinations, each diagonal parallel ridge combination comprises deep diagonal parallel ridges inclined towards one side and shallow diagonal parallel ridges inclined towards the other side; the height of the diagonal parallel ridges protruding from the surface of the packaging belt is defined to be h, the height of the deep diagonal parallel ridges is h.sub.1, and the height of the shallow diagonal parallel ridges is h.sub.2, wherein h.sub.1>h.sub.2; the diagonal parallel ridge combinations are arranged on both the front surface and the back surface.

The present invention discloses an asymmetric packaging belt, which beaks the conventional art and creatively designs diagonal parallel ridge combinations composed of deep diagonal parallel ridges and shallow diagonal parallel ridges which are inclined in different directions and are arranged on the front surface and the back surface of the packaging belt, such that the tensile properties of the packaging belt can be improved in the case of the same gram weight, thereby solving the existing problems in the prior art. The present invention provides an asymmetric packaging belt, provided with a front surface and a back surface, further comprising diagonal parallel ridge combinations, each diagonal parallel ridge combination comprises deep diagonal parallel ridges inclined towards one side and shallow diagonal parallel ridges inclined towards the other side; the height of the diagonal parallel ridges protruding from the surface of the packaging belt is defined to be h, the height of the deep diagonal parallel ridges is h.sub.1, and the height of the shallow diagonal parallel ridges is h.sub.2, wherein h.sub.1>h.sub.2; the diagonal parallel ridge combinations are arranged on both the front surface and the back surface.