The present disclosure relates to a mesh container and a method of making a mesh container that has a first and a second set of opposing side panels, a bottom panel, and a rim directed outwards from the upper edges of the side panels. At least two adjacent sides panels of the container and portion of the rim directed outwardly from the upper edge of the side panels are made from a sheet metal precursor with least one perforated and a stretched portion and unstretched metal portion. The precursor is folded so that the unstretched metal portion joins the two side panels and is bent to form the rim. A notch is cut from the edge of the unstretched metal portion where it is bent at the corner formed by the two side panels.

The present disclosure relates to a mesh container and a method of making a mesh container that has a first and a second set of opposing side panels, a bottom panel, and a rim directed outwards from the upper edges of the side panels. At least two adjacent sides panels of the container and portion of the rim directed outwardly from the upper edge of the side panels are made from a sheet metal precursor with least one perforated and a stretched portion and unstretched metal portion. The precursor is folded so that the unstretched metal portion joins the two side panels and is bent to form the rim. A notch is cut from the edge of the unstretched metal portion where it is bent at the corner formed by the two side panels.

A mold for molding a case of a mobile device includes a first, second, third, fourth and fifth main body, connection slide blocks, and first and second abutment slide blocks. The connection slide blocks and the second abutment slide blocks are inlaid in first and second slide channels of the first and second main bodies. The first abutment slide blocks are inlaid in channels of the connection slide blocks. The third, fourth and fifth main bodies are horizontally movable relative to the first and second main bodies. The first and second main bodies, the connection slide blocks and the first and second abutment slide blocks together define a male mold section and the third, fourth and fifth main bodies together define a female mold section. A metal thin sheet is placed on the male mold section and pressurized and molded by the female mold section to form the case.

A rigid sheet blank includes a first section configured to be bent about a first axis and a second section configured to be bent about a second axis. The first section has a peripheral edge and at least one tab extending from the peripheral edge. The at least one tab is bendable by hand. The second section defines at least one opening configured for receiving a respective one of the at least one tab during bending of the rigid sheet blank.

A rigid sheet blank includes a first section configured to be bent about a first axis and a second section configured to be bent about a second axis. The first section has a peripheral edge and at least one tab extending from the peripheral edge. The at least one tab is bendable by hand. The second section defines at least one opening configured for receiving a respective one of the at least one tab during bending of the rigid sheet blank.

A method for producing a container having an upper part, a lower part and a receiving element such as an electronics module includes the following steps: the lower part is created from a first starting material in a first processing region of a processing device; the upper part is created from a second starting material in a second processing region of the processing device; the receiving element is fed into the first processing region of the processing device; the lower part receives the receiving element in the first processing region of the processing device; the upper part is fed from the second processing region into the first processing region of the processing device; and there the upper part and the lower part are joined together to form the container.

A method for producing a container having an upper part, a lower part and a receiving element such as an electronics module includes the following steps: the lower part is created from a first starting material in a first processing region of a processing device; the upper part is created from a second starting material in a second processing region of the processing device; the receiving element is fed into the first processing region of the processing device; the lower part receives the receiving element in the first processing region of the processing device; the upper part is fed from the second processing region into the first processing region of the processing device; and there the upper part and the lower part are joined together to form the container.

A panel assembly including a main panel, a first side panel, a second side panel, a first tab, a second tab, and an extension. The first tab defines a planar notch into which the extension is positioned to restrict movement of the first side panel and the second side panel.

The present disclosure provides a metal back plate and a manufacturing process thereof, a backlight module and an electronic device. The metal back plate is used for the backlight module. The metal back plate includes a first area and a second area. The grain size of the metal material in the first area is larger than the grain size of the metal material in the second area. The first area is formed with a first opening.

An electrical box comprising a perimeter wall having a plurality of sidewalls and a base wall. Each sidewall of the plurality of sidewalls can be generally orthogonal, and directly adjoined by a rounded touch-safe corner, to another sidewall of the plurality of sidewalls. Additionally, a first end of the perimeter wall can be mechanically interlocked to, and coplanar with, a second end of the perimeter wall so as to provide the perimeter wall with a generally seamless sleeve configuration. The base wall, which may be separate from the perimeter wall, or adjoined to the perimeter wall in a monolithic structure, can be adjoined to at least some portions of the perimeter wall. Further, the base wall and the perimeter wall can define an inner region of the electrical box.