A packaging structure of the disclosure includes: a box in which a component is stored; and a holding member installed in the box, the holding member being configured to hold the component. The holding member includes: an undersurface portion that has a first opening portion into which the component is inserted and is placed on a bottom surface of the box; a top surface portion that has a second opening portion into which the component is inserted and is placed above the undersurface portion; and a first side surface portion connecting the undersurface portion and the top surface portion in an up-and-down direction. The holding member is formed by being bent along boundary lines between the first side surface portion, the undersurface portion, and the top surface portion, and is formed into two kinds of three-dimensional shapes that are mirror symmetric to each other, according to bending directions of the boundary line.

A cover assembly is disclosed. The cover assembly may cover a gap between a first container and a second container. The cover assembly may have a first rigid element. The cover assembly may also have a second rigid element. Further, the cover assembly may have an elastic body. The elastic body may be positioned between the first rigid element and the second rigid element. The cover assembly may also have a bolt. The bolt may connect the first rigid element with the second rigid element.

Structure (310) for transporting and hoisting a turbomachine (312), said structure comprising a hoisting interface (328) arranged on a rigid hoisting arm (318) which extends over the turbomachine and is connected to a rigid transport arm (316) which extends over a lateral side of the turbomachine, this transport arm being connected to at least two engine mounts (340) solid with the turbomachine. The transport arm (316), or one of the engine mounts connected to this transport arm, comprises a transport interface (324) that can be supported by a bearing element (332) of a truck (326) used for transporting the turbomachine.

An outboard motor packaging assembly includes a container configured to receive an outboard motor therein; a carrier configured to hold the outboard motor securely within the container; and at least one auxiliary element configured to be coupled to the carrier so as to mount the carrier, the container, and the outboard motor to a vertical support structure and/or so as to transport the carrier, the container, and the outboard motor over a supporting surface.

A stand for an engine is provided. The stand includes a base member having a first end and a second end. The base member also includes a front post fixedly connected to the base member at the first end. The base member further includes a rear support system fixedly connected to the base member at the second end. The rear support system includes two sleeve members and two rear posts, such that each rear post is slidably coupled to a sleeve member, and such that each rear post includes a clamp configured to hold a rear mount of the engine.

A packaging structure of the disclosure includes: a box in which a component is stored; and a holding member installed in the box, the holding member being configured to hold the component. The holding member includes: an undersurface portion that has a first opening portion into which the component is inserted and is placed on a bottom surface of the box; a top surface portion that has a second opening portion into which the component is inserted and is placed above the undersurface portion; and a first side surface portion connecting the undersurface portion and the top surface portion in an up-and-down direction. The holding member is formed by being bent along boundary lines between the first side surface portion, the undersurface portion, and the top surface portion, and is formed into two kinds of three-dimensional shapes that are mirror symmetric to each other, according to bending directions of the boundary line.

A shipping jig for an e-motor includes a central axis, an annular disk arranged for fixing to a cover of the e-motor, and a cylindrical portion extending axially from the annular disk and arranged for axially and radially positioning a rotor carrier of the e-motor relative to a stator of the e-motor. The annular disk includes a first plurality of holes distributed about a first bolt circle and a second plurality of holes distributed about a second bolt circle, smaller than the first bolt circle. The cylindrical portion may also be arranged for radially positioning a portion of a resolver relative to the stator. The first plurality of holes may each have a same third diameter and the second plurality of holes may each have a same fourth diameter, greater than the same third diameter.

A modular shipping skid for an engine is provided. The skid includes a base sized to receive an engine thereon, at least one alignment member projecting from the base, and a plurality of vertically extending support members extending from the base. The skid includes a fixture plate having an opening to fit a profile of the at least one alignment member and secure the fixture plate onto the base. The engine is mounted to a fixture on the fixture plate, and different fixture plates are provided with different fixtures to accommodate different sized engines on the same base.

A packaging structure disclosed herein includes a box in which a component is accommodated and a lower layer tray and a middle layer tray formed of a cardboard sheet. The lower layer tray is provided inside the box. The middle layer tray is provided above the lower layer tray inside the box. The lower layer tray includes a lower layer opening into which the component is inserted and fixed, and a lower layer first tab provided at an edge of the lower layer opening and folded downward. The middle layer tray includes a middle layer opening into which the component is inserted and fixed, and a middle layer first tab provided at an edge of the middle layer opening, folded downward, and engaged with the lower layer opening in a state of overlapping the lower layer first tab.

[Problem to be Solved] To provide a cushioning member for protecting a packed object, the cushioning member being designed to have an excellent cushioning effect with a small form and advantageously reduce industrial waste.

[Solution] A cushioning member is disposed inside a side of a packing frame surrounding a packed object, the cushioning member being provided to protect the packed object secured on an inner bottom of the packing frame, the cushioning member comprising: a first cushioning member that has a front face disposed adjacent to the packed object and a back side opposite to the front face; and a second cushioning member that has an upper end in contact with the back side of the first cushioning member and a bottom disposed near the side of the packing frame, wherein the first cushioning member is made of a foam material, and the second cushioning member comprises a corrugated board assembly.