CN215255614U - Aluminum alloy energy-saving door and window with double-clamping structure - Google Patents

Abstract

The utility model discloses an aluminum alloy energy-saving door and window with a double-clamping structure, which comprises a window frame section bar, a window sash frame section bar and a filler strip which are connected by hinges; the window frame section bar is provided with a window frame clamping groove, the window sash frame section bar is provided with a window sash frame clamping groove, the window frame clamping groove and the window sash frame clamping groove are respectively formed by connecting a first vertical body, a second vertical body and a transverse body to form a groove with an opening, the tail ends of the first vertical body and the second vertical body, which are far away from the transverse body, respectively extend inwards and reversely to form a clamping block, a limiting spacer block extends inwards from the vertical body between the clamping block and the transverse body, and the limiting spacer block divides the groove into a clamping cavity and a screw extension cavity from the outside to the inside; the clamping cavity is matched with the filler strip in size, and the filler strip can be arranged in the clamping cavity; one end of the hinge is movably connected with the window frame section bar through the filler strip, and the other end of the hinge is movably connected with the window sash frame section bar through the filler strip. The utility model discloses solved the production technology defect that current material exists effectively, the not enough scheduling problem of watertight performance, its structural integrity, reasonable in design need not originally structurally punch at window frame and casement and be connected, and connect reliable and stable, is showing the leakproofness that has improved whole window.

Description

Aluminum alloy energy-saving door and window with double-clamping structure

Technical Field

The utility model belongs to the technical field of aluminum alloy door and window, concretely relates to energy-conserving door and window of aluminum alloy with two clamping structure.

Background

The aluminum alloy door and window is made of aluminum alloy extruded sections and is made of frames, stiles and sash materials, and is called aluminum door and window for short. The quality of the aluminum alloy door and window can be roughly judged from the aspects of material selection of raw materials (aluminum profiles), surface treatment and internal processing quality of the aluminum profiles, the price of the aluminum alloy door and window and the like, and the aluminum alloy is always the preferred material for building external windows due to high strength, light weight, high precision, durability and easy processability. Before assembly and forming, the aluminum alloy door and window need to be subjected to the processing procedures of material selection and blanking, frame and mullion processing, sash processing, hardware assembly, frame and sash assembly, glass installation, sealant bonding, finished product inspection and the like. Each procedure of the aluminum alloy door and window processing procedure is important, the opening form and the installation fitting form of each section are more important, and the air tightness and the water tightness of the aluminum alloy door and window are directly influenced by the installation tightness of the frame and the sash.

At present, the following defects exist for the existing window frame and sash section materials: the existing aluminum alloy window frame and the window sash frame are not provided with notches, and the hinges can only be directly fixed on the window sash frame by self-tapping screws when being connected with the window sash frame, so that the connection mode is very dangerous, the thickness of the section material wall of the window material is thin, the engagement with the screws is generally a screw pitch, the screws are easy to loosen under the long-term load effect, and the acid-base liquid in the air corrodes and oxidizes the screw hole section material, thereby influencing the sealing property of the aluminum alloy door and window.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a simple structure, convenient to use, safe and reliable, improve aluminum alloy door and window leakproofness, water proofness and life's aluminum alloy energy-saving door and window with two clamping structure.

In order to realize the purpose, the technical scheme of the utility model is that: the aluminum alloy energy-saving door and window with the double-clamping structure comprises a window frame profile and a window sash frame profile which are connected through a hinge, and further comprises a filler strip; the window frame is characterized in that a window frame clamping groove is formed in the window frame sectional material, a window sash frame clamping groove is formed in the window sash frame sectional material, the window frame clamping groove and the window sash frame clamping groove are respectively formed by connecting a first vertical body, a second vertical body and a transverse body to form a groove with an opening, the tail ends of the first vertical body and the second vertical body, far away from the transverse body, respectively extend inwards and reversely to form a clamping block, a limiting spacer block extends inwards from the vertical body between the clamping block and the transverse body, and the limiting spacer block divides the groove into a clamping cavity and a screw extension cavity from outside to inside; the clamping cavity is matched with the filler strip in size, the filler strip can be arranged in the clamping cavity, and the position can be freely adjusted by sliding the filler strip in the clamping cavity according to the requirements of different hinges; one end of the hinge is movably connected with the window frame section bar through the filler strip, and the other end of the hinge is movably connected with the window sash frame section bar through the filler strip.

Further, the hinge comprises a hinge frame mounting piece and a hinge fan frame mounting piece.

Further, the hinge frame installation piece and the hinge fan frame installation piece are respectively connected with the cushion strip through screws.

Further, all set up the screw hole on the filler strip.

Further, the backing strip is an aluminum backing strip or a stainless steel backing strip.

The utility model discloses energy-conserving door and window of aluminum alloy with two clamping structure has following beneficial effect:

1. the utility model discloses solved the production technology defect that current material exists effectively, the not enough scheduling problem of watertight performance, its structural integrity, reasonable in design need not originally structurally punch at window frame and casement and be connected, and connect reliable and stable, is showing the leakproofness that has improved whole window.

2. The utility model discloses hinge frame installation piece and hinge fan frame installation piece are all through the filler strip, centre gripping formula recess is connected with the frame underframe and the fan frame underframe centre gripping that correspond, the connected mode filler strip through this kind of structure slides in the centre gripping intracavity, even the construction workman can not leave the hole of abandoning the usefulness on the aluminium alloy structure face after the mistake installation yet, the hidden danger of leaking does not have, do not harm the window form, make the long service life of window form, the atress scope has been increased, such connected mode makes the hinge more firm, difficult not hard up, it is more nimble to adjust, and is simple and convenient.

Drawings

FIG. 1 is a schematic structural view of a window frame profile of an aluminum alloy energy-saving door/window with a double-clamping structure according to the present invention;

FIG. 2 is a schematic structural view of a sash frame profile of an aluminum alloy energy-saving door/window with a double-clamping structure according to the present invention;

FIG. 3 is a schematic structural view of the assembled aluminum alloy energy-saving door/window with a double-clamping structure of the present invention;

FIG. 4 is a schematic cross-sectional view of the hinge of the aluminum alloy energy-saving door/window with a double-clamping structure of the present invention;

FIG. 5 is a schematic structural view of the hinge of the aluminum alloy energy-saving door/window with a double-clamping structure of the present invention;

in the figure: 1. window frame profiles; 1-1, a window frame clamping groove; 1-2, a screw extension cavity; 1-3, limiting spacer blocks; 1-4, a window frame clamping cavity; 1-5, a fixture block; 1-6, a transverse body; 2. a sash frame profile; 2-1, a window sash frame clamping groove; 2-2, a window sash frame clamping cavity; 2-3, limiting spacer blocks; 2-4, a screw extension cavity; 3. a filler strip; 4. a hinge; 4-1, hinge frame mounting pieces; 4-2, hinge fan frame mounting pieces; 4-3, screw holes; 4-4, screw holes; 5. stainless steel screws.

Detailed Description

For the purpose of explaining the technical content and the structural features of the aluminum alloy energy-saving door and window with the double-clamping structure in detail, the following description is further made with reference to the accompanying drawings in combination with the embodiments.

As shown in fig. 1, 2, 3, 4, and 5, the aluminum alloy energy-saving door and window with double-clamping structure of the present invention comprises a window frame section bar 1, a window sash frame section bar 2, a filler strip 3, a hinge 4, and a stainless steel screw 5.

The window frame section bar 1 is provided with a window frame clamping groove 1-1, the window sash frame section bar 2 is provided with a window sash frame clamping groove 2-1, and the window frame clamping groove 1-1 and the window sash frame clamping groove 2-1 are connected by a first vertical body, a second vertical body and a transverse body 1-6 to form a groove with an opening; as shown in fig. 1, the ends of the first vertical body and the second vertical body on the window frame clamping groove 1-1, which are far away from the transverse body, respectively extend inwards and reversely to form a fixture block 1-5, the vertical body between the fixture block and the transverse body extends inwards to form a limiting spacer block 1-3, and the limiting spacer block 1-3 divides the groove from outside to inside into a window frame clamping cavity 1-4 and a screw extension cavity 1-2; the window frame clamping cavity 1-4 is matched with the filler strip 3 in size, the window frame clamping cavity 1-4 is used for placing and clamping the aluminum (or stainless steel) filler strip 3, and the filler strip 3 is arranged in the window frame clamping cavity 1-4. As shown in fig. 2, the ends of the first vertical body and the second vertical body on the window sash frame clamping groove 2-1, which are far away from the transverse body, respectively extend inwards and reversely to form a fixture block, a limiting spacer block 2-3 extends inwards from the vertical body between the fixture block and the transverse body, and the limiting spacer block 2-3 divides the groove from outside to inside into a window sash frame clamping cavity 2-2 and a screw extending cavity 2-4; the window sash frame clamping cavity 2-2 is matched with the filler strip 3 in size, the window sash frame clamping cavity 2-2 is used for placing and clamping the filler strip 3, and the aluminum (or stainless steel) filler strip 3 is arranged in the window sash frame clamping cavity 2-2. The window frame clamping cavity 1-4 and the window sash frame clamping cavity 2-2 are determined according to the size of the filler strip 3, so that the aluminum (or stainless steel) filler strip can be conveniently penetrated and clamped.

As shown in fig. 5, the hinge 4 includes a hinge frame mounting piece 4-1 and a hinge fan frame mounting piece 4-2, the hinge frame mounting piece 4-1 is provided with a screw hole 4-3, and the hinge fan frame mounting piece 4-2 is provided with a screw hole 4-4. The gasket strip 3 is also provided with screw holes corresponding to the positions of the screw holes 4-3 and the screw holes 4-4, so that the connection mode reduces unnecessary holes on the window body section when a worker mistakenly installs the hinge.

As shown in fig. 3, one end of the hinge 4 is connected with the backing strip 3 through a hinge frame mounting piece 4-1 by a stainless steel screw 4, and the other end of the hinge 4 is connected with the backing strip 3 through a hinge fan frame mounting piece 4-2 by a stainless steel screw 5. The stainless steel screw 5 is used for fixing the hinge 4 on the window frame and the window sash frame and bears the dead weight

When the window frame is installed, the positions of holes of the hinges on the window frame section bar 1 and the window sash frame section bar 2 are marked, then the gasket strips 3 are punched (threaded holes) corresponding to the positions of the holes marked on the window frame and the window sash frame, and then the gasket strips 3 are respectively inserted into the window frame clamping grooves 1-1 and the window sash frame clamping grooves 2-1. The hinge 4 adjusts and aligns the hinge frame mounting piece 4-1 and the hinge fan frame mounting piece 4-1 respectively according to the opening mode of figure 5, and then is screwed tightly by the stainless steel screw 5.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the scope of the invention, therefore, the present invention is not limited by the appended claims.

Claims (5)

1. The utility model provides an energy-conserving door and window of aluminum alloy with two clamping structure, includes window frame section bar and casement frame section bar with hinged joint, its characterized in that: also comprises a pad strip; the window frame is characterized in that a window frame clamping groove is formed in the window frame sectional material, a window sash frame clamping groove is formed in the window sash frame sectional material, the window frame clamping groove and the window sash frame clamping groove are respectively formed by connecting a first vertical body, a second vertical body and a transverse body to form a groove with an opening, the tail ends of the first vertical body and the second vertical body, far away from the transverse body, respectively extend inwards and reversely to form a clamping block, a limiting spacer block extends inwards from the vertical body between the clamping block and the transverse body, and the limiting spacer block divides the groove into a clamping cavity and a screw extension cavity from outside to inside; the clamping cavity is matched with the filler strip in size, and the filler strip can be placed in the clamping cavity; one end of the hinge is movably connected with the window frame section bar through the filler strip, and the other end of the hinge is movably connected with the window sash frame section bar through the filler strip.

2. The aluminum alloy energy-saving door and window with double-clamping structure as claimed in claim 1, wherein: the hinge comprises a hinge frame mounting piece and a hinge fan frame mounting piece.

3. The aluminum alloy energy-saving door and window with double-clamping structure as claimed in claim 2, wherein: the hinge frame mounting piece and the hinge fan frame mounting piece are respectively connected with the cushion strip through screws.

4. The aluminum alloy energy-saving door and window with double-clamping structure as claimed in claim 3, wherein: and the filler strip is provided with screw holes.

5. The aluminum alloy energy-saving door and window with double-clamping structure as claimed in claim 1 or 4, wherein: the filler strip is an aluminum filler strip or a stainless steel filler strip.

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