A double door gate apparatus having a frame, a main gate and a secondary gate, where the apparatus includes the unique features of a) a latch apparatus between uppermost framework members of the main gate and secondary gate, b) the latch apparatus being weighted to return to a normally closed position, c) each of the main gate and secondary gates having an inverted U-shaped piece engaging the bottommost horizontal member such that each of the main and secondary gates need to be lifted prior to being opened and prior to being closed, and d) a pair of hand wheels on a common shaft that work together to space the double door gate apparatus a desired distance from a vertical surface such as a wall.

A double door gate apparatus having a frame, a main gate and a secondary gate, where the apparatus includes the unique features of a) a latch apparatus between uppermost framework members of the main gate and secondary gate, b) the latch apparatus being weighted to return to a normally closed position, c) each of the main gate and secondary gates having an inverted U-shaped piece engaging the bottommost horizontal member such that each of the main and secondary gates need to be lifted prior to being opened and prior to being closed, and d) a pair of hand wheels on a common shaft that work together to space the double door gate apparatus a desired distance from a vertical surface such as a wall.

[Object] To provide a door frame structure and a method for mounting the door frame structure which improve rigidity, prevent deformation that is caused by relative story displacement of a building in the event of an earthquake, and enable easy mounting. [Solution Means] A door frame structure 1 is indirectly mounted to a wall surface 4 via mounting angles 11 fixed to the first reinforcing members 9. Therefore, the door frame structure 1 does not follow relative story displacement of the wall surface 4 caused by lateral vibration in the event of an earthquake, so that deformation of the door frame structure 1 is minimized, and a door 31 can be opened and closed even in an emergency.

The present invention relates to a door frame, particularly a door frame for a pre-hung door assembly, which is foldable to minimize storage space and to allow for enhanced logistic efficiencies. The door frame contains parallel, spaced apart, vertical jambs and a horizontal header connecting the top ends of the jambs. Each of the jambs and the horizontal header contains a front section and back section that are hingedly joined so that then can be folded on to each other. The hingedly joined front and back sections allow the door fame to be foldable to minimize space occupied during storage.

A shutter assembly includes a frame with a pair of elongate side members and a pair of elongate cross members extending between the side members. The first side member includes an inwardly-facing frame surface in a region between the pair of cross members and further includes a frame-ledge extending inward beyond the inwardly-facing frame surface. The shutter assembly includes a shutter panel having a first stile pivotally coupled to the first side member of the frame, the shutter panel configured to swing between a closed position and an open position relative to the frame. The first stile includes a shutter recessed surface, and a shutter-ledge extending outwardly beyond the shutter recessed surface. For light-blocking purposes the shutter assembly is configured such that the shutter-ledge is positioned adjacent to the frame-ledge when the shutter panel is in the closed position.

A shutter assembly includes a frame with a pair of elongate side members and a pair of elongate cross members extending between the side members. The first side member includes an inwardly-facing frame surface in a region between the pair of cross members and further includes a frame-ledge extending inward beyond the inwardly-facing frame surface. The shutter assembly includes a shutter panel having a first stile pivotally coupled to the first side member of the frame, the shutter panel configured to swing between a closed position and an open position relative to the frame. The first stile includes a shutter recessed surface, and a shutter-ledge extending outwardly beyond the shutter recessed surface. For light-blocking purposes the shutter assembly is configured such that the shutter-ledge is positioned adjacent to the frame-ledge when the shutter panel is in the closed position.

A screen panel is provided. The screen panel can have a screen frame and a screen mesh positioned over the frame. The screen mesh can be attached to the frame with hooks that can be selectively insertable and removable from the frame. The screen mesh can be attached to a portion of the frame and rolled around itself for shipping, and unrolled and attached to the remainder of the frame for use.

A screen panel is provided. The screen panel can have a screen frame and a screen mesh positioned over the frame. The screen mesh can be attached to the frame with hooks that can be selectively insertable and removable from the frame. The screen mesh can be attached to a portion of the frame and rolled around itself for shipping, and unrolled and attached to the remainder of the frame for use.

Disclosed is a multiple component frame and screen system and method which may include lineal components with a hollow body, each lineal component capable of friction locking through the hollow body. The system may further include corner components, each corner component capable of friction locking with the lineal components. The system may further include splice components, each splice component capable of friction locking with the lineal components. The system may further include cross-bar components, each cross bar component capable of friction locking with the lineal components. A multiple component frame and screen may include a screen that interlocks in a screen lock channel of the lineal components, the corner components, the splice components, and the cross-bar components. Further, configuration methods are disclosed wherein the system is configured through the connector components, lineal components, and screen components.

Disclosed is a multiple component frame and screen system and method which may include lineal components with a hollow body, each lineal component capable of friction locking through the hollow body. The system may further include corner components, each corner component capable of friction locking with the lineal components. The system may further include splice components, each splice component capable of friction locking with the lineal components. The system may further include cross-bar components, each cross bar component capable of friction locking with the lineal components. A multiple component frame and screen may include a screen that interlocks in a screen lock channel of the lineal components, the corner components, the splice components, and the cross-bar components. Further, configuration methods are disclosed wherein the system is configured through the connector components, lineal components, and screen components.