CN214006931U - Anti-falling device for opening leaf of aluminum alloy sliding door - Google Patents

Abstract

An anti-falling device for an opening sash of an aluminum alloy sliding door belongs to the field of aluminum alloy doors and windows and comprises a lower door frame, a lower sash frame, glass, an upper sash frame, an anti-falling element and an upper door frame; the lower frame of the door frame is the lower frame of the door frame, is arranged at the bottom of a doorway of an aluminum alloy sliding door and is fixedly connected with the ground of a house; the lower frame of the sash frame is a lower frame of the opening sash frame, the bottom of the lower frame of the sash frame is placed on the lower frame of the door frame, is clamped with the lower frame of the door frame and can do linear motion along the lower frame of the door frame; has the characteristic of preventing the opening fan from falling off.

Description

Anti-falling device for opening leaf of aluminum alloy sliding door

Technical Field

The utility model belongs to the housing construction field, in particular to sliding door's of aluminum alloy fan anticreep device that opens.

Background

In a house building, a sliding door and a sliding window are one of the structures for opening and closing the door and the window, and have the advantages of convenience in opening and closing, no occupation of indoor space and the like; the existing sliding doors and windows are mostly composed of door frames and opening leaves, and a double-leaf door under general conditions can be manufactured into two opening leaves which can be opened and closed; because the shapes of the door frame section and the sash frame section are fixed, and in order to ensure that the opening sash is convenient to install and detach at any time, the overlapped part of the guide groove of the opening sash frame and the guide strip on the door frame is less, and the installation and the detachment are difficult if the overlapped part is more; in daily use, because the area of opening the fan is great, the live time has been long can the output wearing and tearing and warp, when opening and closing, if meet energetically or assault, will cause to open and fall off from gib block (track), cause to open the fan and damage, and the derailment of regularity can cause the inconvenience in the use.

Disclosure of Invention

To the above-mentioned problem that current aluminum alloy push-and-pull door exists, the utility model provides a can prevent structure that aluminum alloy push-and-pull door drops, during its concrete technical scheme, an aluminum alloy push-and-pull door opens a anticreep device, its characterized in that: comprises a lower doorframe frame, a lower sash frame, glass, an upper sash frame, an anti-drop element and an upper doorframe frame; the lower frame of the door frame is the lower frame of the door frame, is arranged at the bottom of a doorway of an aluminum alloy sliding door and is fixedly connected with the ground of a house; the lower frame of the sash frame is a lower frame of the opening sash frame, the bottom of the lower frame of the sash frame is placed on the lower frame of the door frame, is clamped with the lower frame of the door frame and can do linear motion along the lower frame of the door frame; the glass is arranged in the opening sash frame and is fixedly and hermetically connected with the opening sash frame; the upper frame of the sash frame is an upper frame of the opening sash frame, and the upper frame of the sash frame is clamped with the upper frame of the door frame and can do linear motion along the upper frame of the door frame; the anti-falling element is arranged on the upper frame of the fan frame and is fixedly connected with the upper frame of the fan frame; the anti-falling element is sleeved in the upper frame of the door frame and can slide in the upper frame of the door frame; the door frame upper frame is an upper frame of the door frame, is arranged on the upper wall of the doorway and is fixedly connected with the upper wall of the doorway; the door frame upper ledge below be provided with C type groove, the shape and the size in C type groove match with the anticreep component, guarantee that the anticreep component can not follow this C type inslot and drop to the anticreep component can slide in this C type inslot.

Furthermore, the upper frame of the door frame is made of aluminum alloy sections, and the aluminum alloy sections of the upper frame of the door frame comprise a left clamping groove, a left side plate, a left cavity, a heat insulation bridge, a right cavity, a right side plate and a right clamping groove; the left clamping groove is arranged at the lower part of the left cavity, has a downward opening and is fixedly connected with the left cavity; the left side plate is arranged on the left side of the left cavity and is fixedly connected with the left cavity; the left cavity is arranged on the right side of the left side plate and is enclosed by the peripheral side wall to form a cavity; the heat insulation bridge is arranged between the left cavity and the right cavity, and two ends of the heat insulation bridge are respectively connected with the left cavity and the right cavity; (if energy-saving heat insulation aluminum profiles are not adopted, heat insulation bridges are not needed); the right cavity is arranged on the right side of the heat insulation bridge and is surrounded by the peripheral side wall to form a cavity body; the right side plate is arranged on the right side edge of the right cavity and is fixedly connected with the right cavity; the right clamping groove is arranged at the lower part of the right cavity, has a downward opening and is fixedly connected with the right cavity; the distance between the left clamping groove and the right clamping groove is matched with the thickness and the adjacent distance of the two opening fans.

Furthermore, the left clamping groove, the left side plate, the left cavity, the right side plate and the right clamping groove are of symmetrical structures.

Furthermore, the anti-drop element comprises an upper transverse support, a vertical support, a middle transverse support, a lower transverse support and a screw seat; the upper cross brace is arranged at the upper end of the vertical brace and is vertically and fixedly connected with the vertical brace; the vertical support is arranged between the upper transverse support and the lower transverse support and is vertically and fixedly connected with the upper transverse support, the middle transverse support and the lower transverse support; the middle cross brace is arranged below the upper cross brace, is parallel to the upper cross brace and is vertically and fixedly connected with the vertical brace; the lower transverse support is arranged at the lower end of the vertical support and is vertically and fixedly connected with the vertical support; the screw seat is arranged on the lower cross arm and is fixedly connected with the lower cross arm, and the size of the screw seat is matched with that of the fixing screw.

Furthermore, the length of the upper cross brace is smaller than the inner width of a C-shaped groove on the upper frame of the door frame and larger than the opening width of the C-shaped groove.

Furthermore, the length of the middle cross arm is less than or equal to the width of the inner cavity of the upper frame section of the sash frame.

Advantageous effects

The beneficial effects of the utility model reside in that, can prevent to open the fan slippage, use reliably firmly, the installation is dismantled conveniently.

Drawings

FIG. 1 is a schematic view of the cross-sectional structure of the present invention

1. The anti-drop door comprises a lower door frame, 2 a lower sash frame, 3 glass, 4 a upper sash frame, 5 an anti-drop element and 6 an upper door frame.

FIG. 2 is a schematic cross-sectional view of the upper frame of the door frame

61. The heat insulation structure comprises a left clamping groove, 62 parts of a left side plate, 63 parts of a left cavity, 64 parts of a heat insulation bridge, 65 parts of a right cavity, 66 parts of a right side plate and 67 parts of a right clamping groove.

FIG. 3 is a schematic cross-sectional view of the anti-separation element

51. An upper transverse support, 52 vertical supports, 53 middle transverse support, 54 lower transverse support and 55 screw seats.

Detailed Description

In order to better explain the technical scheme of the invention, the specific implementation mode of the invention will be further explained with reference to the attached drawings; like 1-3, the energy-saving aluminum alloy sliding door is taken as an example in the embodiment; in this embodiment, the anti-dropping element is made of aluminum alloy; the upper cross brace 51 is arranged at the upper end of the vertical brace 52 and is vertically and fixedly connected with the vertical brace 52; the vertical support 52 is arranged between the upper transverse support 51 and the lower transverse support 54 and is vertically and fixedly connected with the upper transverse support 51, the middle transverse support 52 and the lower transverse support 54; arranging the middle cross brace 53 below the upper cross brace 51, parallel to the upper cross brace 51 and vertically and fixedly connected with the vertical brace 52, and ensuring that the minimum distance between the middle cross brace 53 and the upper cross brace 51 is greater than the thickness of an opening of a C-shaped groove on the door frame upper frame 6; the lower cross brace 55 is arranged at the lower end of the vertical brace 52 and is vertically and fixedly connected with the vertical brace 52; the screw seat structure on the aluminum alloy section material commonly used in the industry is selected as the screw seat 55, the screw seat 55 is arranged on the lower cross brace 54 and is fixedly connected with the lower cross brace 54, in this example, 2 screw seats 55 are selected and are respectively positioned at two end parts of the lower cross brace 54, the section is manufactured into a die, and the aluminum alloy is drawn or pressed to be formed to a certain thickness, so that the implementation of the anti-falling element 5 is completed.

In this example, the upper frame 6 of the door frame is made of aluminum alloy section, and the left clamping groove 61 is arranged at the lower part of the left cavity 63, is a C-shaped groove with a downward opening, and is fixedly connected with the left cavity 63; the left side plate 62 is arranged on the left side of the left cavity 63 and is fixedly connected with the left cavity 63; the left cavity 63 is arranged on the right side of the left side plate 62 and is enclosed by the peripheral side wall to form a hollow cavity, and the shape of the hollow cavity is rectangular in the embodiment, so that the manufacturing process is simple; selecting two heat insulation bridges 64 which are commonly used in the industry and are made of aluminum alloy, mounting the heat insulation bridges 64 between the left cavity 63 and the right cavity 65, arranging heat insulation bridge clamping grooves on the right side of the left cavity 63 and the left side of the right cavity 65, and respectively connecting two ends of each heat insulation bridge 64 with the left cavity 63 and the right cavity 65; if the energy-saving heat-insulating aluminum profile is not adopted, a heat-insulating bridge is not needed, and only the left cavity 63 and the right cavity 65 are directly connected; in this example, the right cavity 65 is arranged to have the same structure and size as the left cavity 63, is located on the right side of the heat insulation bridge 64, and is surrounded by the peripheral side wall to form a rectangular cavity; the right panel 66 is arranged on the right side edge of the right cavity 65 and is fixedly connected with the right cavity 65; in the embodiment, the right clamping groove 67 and the left clamping groove 61 adopt the same structure, so that the variety of anti-falling elements can be reduced, and the universality is high; the right clamping groove 67 is arranged at the lower part of the right cavity 65, and is opened downwards and fixedly connected with the right cavity 65; the distance between the left clamping groove 61 and the right clamping groove 67 is matched with the thicknesses of the two opening fans and the adjacent distance of the two opening fans; and (3) taking the section formed by the structure as the section of the aluminum alloy section, manufacturing a die, drawing and forming the aluminum alloy, and cutting the aluminum alloy into corresponding length when in use, thereby completing the implementation of the upper frame 6 of the door frame.

In the embodiment, a door frame lower frame of an aluminum alloy sliding door with a heat insulation bridge, which is commonly used in the industry, is selected as the door frame lower frame 1 in the embodiment, the door frame lower frame 1 is a lower frame of a door frame, and the door frame lower frame 1 is arranged at the bottom of a door opening of the aluminum alloy sliding door and is fixedly connected with the ground of a house; in the embodiment, a sash frame of an aluminum alloy sliding door with a heat insulation bridge, which is commonly used in the industry, is selected as a sash frame of an opening sash, the lower sash frame 2 is a lower opening sash frame, the bottom of the lower sash frame 2 is placed on the lower doorframe frame 1 and clamped with the lower doorframe frame 1, and the lower sash frame can linearly move along the doorframe lower frame 1; in the embodiment, toughened laminated hollow glass which is universal in the industry is selected as glass 3, and the glass 3 is arranged inside an opening fan frame 2 and fixedly and hermetically connected with the opening fan frame 2 by adopting fastening and sealing elements such as glass pressing lines, adhesive tapes and the like which are universal in the industry; the upper frame 4 of the sash frame is an upper frame of the opening sash frame, and the upper frame 4 of the sash frame is clamped with the upper frame 6 of the door frame and can do linear motion along the upper frame 6 of the door frame; the screw seat 55 of the anti-drop element 5 is fixedly arranged at the end part of the upper frame 4 of the fan frame by adopting a tapping screw and is fixedly connected with the upper frame 4 of the fan frame; the upper cross brace 51 of the anti-falling element 5 is sleeved in the left clamping groove 61 and the right clamping groove 67 of the door frame upper frame 6, and the middle cross brace 53 is clamped in the section bar inner cavity of the sash frame upper frame 4, so that the anti-falling element 5 and the sash frame upper frame 4 are ensured to be fixed and move together, and the anti-falling element 5 can slide in the door frame upper frame 6; the door frame upper frame 6 is an upper frame of the door frame, and the door frame upper frame 6 is arranged on the upper wall of the doorway and is fixedly connected with the upper wall of the doorway; thus, the utility model is implemented.

When the door frame is applied, the anti-falling element 5 is ensured not to fall off from the door frame upper frame 6 due to the action of the anti-falling element 5, and the anti-falling element 5 is fixedly connected with the fan frame upper frame 4, so that the fan frame is ensured not to fall off from the door frame upper frame 6, and the opening fan is ensured not to fall off from the door frame; meanwhile, the anti-falling element 5 is fixed by two screws, so that the installation is simple, the disassembly of the opening fan can be easily realized only by disassembling the two fixing screws, and the device is convenient, quick, safe and reliable.

The directional indicators in this example are all based on the direction facing the view.

Claims (3)

1. The utility model provides an aluminum alloy sliding door opens a anticreep device which characterized in that: comprises a lower doorframe frame, a lower sash frame, glass, an upper sash frame, an anti-drop element and an upper doorframe frame; the lower frame of the door frame is the lower frame of the door frame, is arranged at the bottom of a doorway of an aluminum alloy sliding door and is fixedly connected with the ground of a house; the lower frame of the sash frame is a lower frame of the opening sash frame, the bottom of the lower frame of the sash frame is placed on the lower frame of the door frame, is clamped with the lower frame of the door frame and can do linear motion along the lower frame of the door frame; the glass is arranged in the opening sash frame and is fixedly and hermetically connected with the opening sash frame; the upper frame of the sash frame is an upper frame of the opening sash frame, and the upper frame of the sash frame is clamped with the upper frame of the door frame and can do linear motion along the upper frame of the door frame; the anti-falling element is arranged on the upper frame of the fan frame and is fixedly connected with the upper frame of the fan frame; the anti-falling element is sleeved in the upper frame of the door frame and can slide in the upper frame of the door frame; the door frame upper frame is an upper frame of the door frame, is arranged on the upper wall of the doorway and is fixedly connected with the upper wall of the doorway; the door frame upper ledge below be provided with C type groove, the shape and the size in C type groove match with the anticreep component, guarantee that the anticreep component can not follow this C type inslot and drop to the anticreep component can slide in this C type inslot.

2. The aluminum alloy sliding door opening leaf anti-falling device according to claim 1, wherein: the upper doorframe frame is made of aluminum alloy sections, and the aluminum alloy sections of the upper doorframe frame comprise a left clamping groove, a left side plate, a left cavity, a heat insulation bridge, a right cavity, a right side plate and a right clamping groove; the left clamping groove is arranged at the lower part of the left cavity, has a downward opening and is fixedly connected with the left cavity; the left side plate is arranged on the left side of the left cavity and is fixedly connected with the left cavity; the left cavity is arranged on the right side of the left side plate and is enclosed by the peripheral side wall to form a cavity; the heat insulation bridge is arranged between the left cavity and the right cavity, and two ends of the heat insulation bridge are respectively connected with the left cavity and the right cavity; the right cavity is arranged on the right side of the heat insulation bridge and is surrounded by the peripheral side wall to form a cavity body; the right side plate is arranged on the right side edge of the right cavity and is fixedly connected with the right cavity; the right clamping groove is arranged at the lower part of the right cavity, has a downward opening and is fixedly connected with the right cavity; the distance between the left clamping groove and the right clamping groove is matched with the thickness and the adjacent distance of the two opening fans.

3. The aluminum alloy sliding door opening leaf anti-falling device according to claim 2, wherein: the left clamping groove, the left side plate, the left cavity, the right side plate and the right clamping groove are of symmetrical structures.

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