A bezel connection structure and a display. The bezel connection structure comprises a first bezel (10) and a second bezel (30). A first connection portion (20) is provided on the first bezel (10). A second connection portion (40) is provided on the second bezel (30), and the first connection portion (20) is in lap joint with the second connection portion (40). The first bezel (10) abuts against one end of the second connection portion (40). The cooperation of the bezel connection structure is simple, and production and manufacturing are easy, thereby improving a production efficiency of products, and further reducing the production and manufacturing cost of products.

This disclosure relates to a motor vehicle, and in particular a vehicle body structure for a motor vehicle, with an extended roof reinforcement structure. An example vehicle includes an A-pillar, a roof side rail, a dash panel, and a reinforcement structure extending at least partially through the roof side rail and the A-pillar to a front end forward of the dash panel.

The present disclosure relates to a method for producing a motor vehicle component from a 6000-series aluminum alloy having the following method steps: providing a blank made of a 6000-series aluminum alloy, rapid heating of the blank by means of contact plates to a temperature between 450° C. and 600° C. in a time less than 20 seconds, ending of the heating procedure and optional homogenizing when a grain size between 20 and 50 μm has resulted, quenching the blank thus tempered to a temperature less than or equal to 100° C., in a time less than 20 seconds, wherein the rapid heating and quenching of the blank is carried out in a total time of less than 50 seconds, applying a lubricant, at 20° C. to 100° C., forming the cooled blank in a forming tool, wherein the time between beginning the rapid heating and beginning the forming is less than 45 seconds, aging.

Method and Apparatus for fabricating a spacer frame for use in an insulating glass unit. One of a multiple number of possible spacer frame materials is chosen for the spacer frame. An elongated strip of the material is moved to a notching station where notches are formed at corner locations. The character of the notches is adjusted based on the selection of the metal strip material and more particularly to achieve bending of the material in an repeatable, straightforward manner. Better control over the notching process is also achieved by exhaust flow control of a double acting cylinder. A positioning spacer achieve very accurate side to side positioning of a die and anvil to precisely notch and deform the metal strip. Downstream from the notching station the metal strip is bent into a channel shaped elongated frame member having side walls. Further downstream a leading strip of channel shaped material is severed or separated from succeeding material still passing through the notching and bending station.

Method and Apparatus for fabricating a spacer frame for use in an insulating glass unit. One of a multiple number of possible spacer frame materials is chosen for the spacer frame. An elongated strip of the material is moved to a notching station where notches are formed at corner locations. The character of the notches is adjusted based on the selection of the metal strip material and more particularly to achieve bending of the material in an repeatable, straightforward manner. Better control over the notching process is also achieved by exhaust flow control of a double acting cylinder. A positioning spacer achieve very accurate side to side positioning of a die and anvil to precisely notch and deform the metal strip. Downstream from the notching station the metal strip is bent into a channel shaped elongated frame member having side walls. Further downstream a leading strip of channel shaped material is severed or separated from succeeding material still passing through the notching and bending station.

An automobile includes a body side panel including: a first pillar disposed rearward of a door of the automobile; a second pillar disposed rearward of the first pillar; an interior panel connecting the first pillar and the second pillar; a rear quarter panel attached to the exterior of the body side panel and forming a cavity between the rear quarter panel and the interior panel; and a retractable window disposed between the first pillar and the second pillar; wherein the retractable window is configured to move between a first position and a second position, the first position being defined by a roof of the automobile, the first pillar, and the second pillar, and the second position being inside the cavity.

An automobile includes a body side panel including: a first pillar disposed rearward of a door of the automobile; a second pillar disposed rearward of the first pillar; an interior panel connecting the first pillar and the second pillar; a rear quarter panel attached to the exterior of the body side panel and forming a cavity between the rear quarter panel and the interior panel; and a retractable window disposed between the first pillar and the second pillar; wherein the retractable window is configured to move between a first position and a second position, the first position being defined by a roof of the automobile, the first pillar, and the second pillar, and the second position being inside the cavity.

An automobile includes a body side panel including: a first pillar disposed rearward of a door of the automobile; a second pillar disposed rearward of the first pillar; an interior panel connecting the first pillar and the second pillar; a rear quarter panel attached to the exterior of the body side panel and forming a cavity between the rear quarter panel and the interior panel; and a retractable window disposed between the first pillar and the second pillar; wherein the retractable window is configured to move between a first position and a second position, the first position being defined by a roof of the automobile, the first pillar, and the second pillar, and the second position being inside the cavity.

An automobile includes a body side panel including: a first pillar disposed rearward of a door of the automobile; a second pillar disposed rearward of the first pillar; an interior panel connecting the first pillar and the second pillar; a rear quarter panel attached to the exterior of the body side panel and forming a cavity between the rear quarter panel and the interior panel; and a retractable window disposed between the first pillar and the second pillar; wherein the retractable window is configured to move between a first position and a second position, the first position being defined by a roof of the automobile, the first pillar, and the second pillar, and the second position being inside the cavity.

This disclosure relates to a motor vehicle, and in particular a vehicle body structure for a motor vehicle, with an extended roof reinforcement structure. An example vehicle includes an A-pillar, a roof side rail, a dash panel, and a reinforcement structure extending at least partially through the roof side rail and the A-pillar to a front end forward of the dash panel.