CN221032154U - Connection structure of energy-saving door and window of large-span - Google Patents

Abstract

The utility model discloses a connecting structure of a large-span energy-saving door and window, which comprises an aluminum alloy vertical frame, an aluminum alloy frame, a steel auxiliary frame and an aluminum alloy profile, wherein the aluminum alloy vertical frame is fixedly arranged on the aluminum alloy frame, a glass panel component is arranged on one side of the aluminum alloy vertical frame and one side of the aluminum alloy frame, which faces outdoors, the glass panel component is fixedly connected with the aluminum alloy profile through an adhesive tape, the aluminum alloy profile is fixedly connected with the aluminum alloy frame, the downward end part of the glass panel component is arranged at the connecting position of the aluminum alloy profile and the aluminum alloy frame through an aluminum alloy glass supporting strip, an aluminum alloy window connecting piece is arranged on the aluminum alloy frame, a group of aluminum alloy toothed plates are arranged on the aluminum alloy window connecting piece, tooth grooves II which are matched with tooth grooves I of the aluminum alloy toothed plates in size are formed on the aluminum alloy window connecting piece, a group of long holes are formed on the aluminum alloy window connecting piece, and the distance between the steel auxiliary frame and the aluminum alloy frame is adjusted through adjusting the positions of the bolt component on the long holes.

Description

Connection structure of energy-saving door and window of large-span

Technical Field

The utility model relates to the technical field of building door and window installation, in particular to a connecting structure of a large-span energy-saving door and window.

Background

The common practice of the window system is that steel sheets made of Q235 with the thickness of 1.5mm are used for connecting the steel subframe and the main structure, the number of the steel sheets is large, and the steel sheets are inconvenient to adjust the structural deviation according to the on-site structural deviation, so that the adjustment of the main structure deviation is often adjusted through a cushion block between the steel subframe and the window frame, and the connection between the window frame and the subframe is generally self-tapping and self-drilling nails. When the deviation of the main structure is large, the distance between the window frame and the steel auxiliary frame is large, the self-tapping self-drilling nails connected between the window frame and the steel auxiliary frame are required to bear not only shearing force but also bending moment generated by the large distance between the window frame and the steel auxiliary frame, the self-tapping self-drilling nails are not stressed, and the large-span window system is subjected to larger load, so that the requirement on connected components is higher.

Therefore, the utility model provides a connecting structure of a large-span energy-saving door and window, which is convenient for adjusting the distance between the window frame and the steel auxiliary frame.

Disclosure of utility model

In view of the problems existing in the prior art, the utility model aims to provide a connecting structure of a large-span energy-saving door and window, which is characterized in that a window frame and a steel auxiliary frame are firmly connected, and meanwhile, the installation and the adjustment of the connecting structure of the span energy-saving door and window are convenient.

The technical scheme of the utility model is as follows:

The utility model provides a connection structure of energy-saving door and window of large-span, includes aluminum alloy mullion, aluminum alloy frame, steel pair frame and aluminum alloy section bar, the fixed aluminum alloy mullion that is equipped with on the aluminum alloy frame, wherein aluminum alloy mullion and aluminum alloy frame are equipped with glass panel component towards outdoor one side, glass panel component passes through the adhesive tape fixedly with aluminum alloy section bar, aluminum alloy section bar and aluminum alloy frame fixed connection, and wherein the decurrent tip of glass panel component passes through aluminum alloy glass support strip and sets up in the junction of aluminum alloy section bar and aluminum alloy frame, be equipped with aluminum alloy window connecting piece on the aluminum alloy frame, be equipped with a set of aluminum alloy pinion rack on the aluminum alloy window connecting piece, offer tooth's socket two with aluminum alloy pinion rack one size assorted on the aluminum alloy window connecting piece, and offered a set of slot that is used for adjusting steel pair frame upper and lower position on it, one of aluminum alloy pinion rack meshes with two phases of aluminum alloy window connecting piece, and passes aluminum alloy pinion rack and slot and steel pair frame through the bolt assembly and fixes tooth's socket.

Further, the aluminum alloy frame comprises an outer frame and an inner frame, and the outer frame and the inner frame are fixedly connected through heat insulation strips.

Further, the inner frame comprises an inner frame body, two sides of the bottom end of the inner frame body are symmetrically provided with bending parts, and the two bending parts form a first mounting groove for mounting an aluminum alloy window connecting piece; the inner frame body is provided with a first connecting groove for connecting the aluminum alloy glass supporting strip towards the side part of the glass assembly.

Further, a bolt assembly groove for connecting the aluminum alloy section is formed in the side portion, facing the outdoor, of the outer frame.

Further, the aluminum alloy window connecting piece is composed of a connecting piece horizontal plate and a connecting piece vertical plate perpendicular to the bottom of the connecting piece horizontal plate, and the long hole is formed in the length direction of the connecting piece vertical plate and used for adjusting the upper and lower positions of the steel auxiliary frame; and the tooth groove II is arranged on the surface of the connecting piece vertical plate facing one side of the aluminum alloy toothed plate.

Further, the aluminum alloy window connecting piece is connected with the inner frame through the matching of the connecting piece horizontal plate and the first mounting groove; the steel auxiliary frame is arranged on one side, facing the room, of the connecting piece vertical plate.

Further, through holes are formed in the aluminum alloy toothed plates, and the aluminum alloy toothed plates and the aluminum alloy window connecting piece are meshed with the tooth grooves through the first tooth grooves and the second tooth grooves and then penetrate through the through holes, the long holes and the steel auxiliary frame through the bolt assemblies to be fixed.

Further, a glass backing plate is arranged between the steel auxiliary frame and the horizontal plate of the connecting piece; the steel auxiliary frame steel adapter is fixedly connected with the embedded part on the main body.

Further, the end part of the aluminum alloy glass connecting support strip is arranged in the first connecting groove, and a glass backing plate is arranged before the glass panel and the aluminum alloy glass connecting support strip.

Further, a group of screw holes are formed in the inner frame body, and the aluminum alloy mullion and the inner frame are fixed through the screw holes through screws.

Compared with the prior art, the utility model has the following beneficial effects:

1) According to the aluminum alloy window connecting piece, the group of long holes are formed in the aluminum alloy window connecting piece, and the distance between the steel auxiliary frame and the aluminum alloy frame can be adjusted on one hand, and the installation deviation can be adjusted on the other hand by adjusting the positions of the bolt assemblies on the upper side and the lower side of the long holes;

2) Compared with the traditional method that the window frame and the auxiliary frame are connected through self-tapping and self-drilling nails, the aluminum alloy window connecting piece and the inner frame are connected through the matching of the connecting piece horizontal plate and the first mounting groove, the steel auxiliary frame is arranged on the side, facing the indoor, of the connecting piece vertical plate, the damage of the connecting self-tapping and self-drilling nails on the section of the Kong Duichuang frame section bar is avoided, and the processing of process holes is reduced;

3) According to the utility model, the first tooth groove of the aluminum alloy toothed plate is meshed with the second tooth groove of the aluminum alloy window connecting piece, so that the bolt component is prevented from moving;

4) The aluminum alloy frame and the steel auxiliary frame are firmly connected, and the distance between the aluminum alloy frame and the steel auxiliary frame is convenient to adjust.

Drawings

FIG. 1 is a view showing the construction of the whole vertical section of the door and window of the present utility model;

FIG. 2 is a cross-sectional view of a bezel of the present utility model;

FIG. 3 is a perspective view of a frame connector according to the present utility model;

fig. 4 is a schematic view of a toothed plate structure of a frame connector according to the present utility model.

In the figure: 1. an aluminum alloy mullion; 2. an aluminum alloy frame; 201. an outer frame; 2011. a bolt assembly slot; 202. an inner frame; 2021. a bending part; 2022. a first mounting groove; 2023. a first connecting groove; 203. a heat insulating strip; 2024. screw holes; 3. a steel subframe; 4. an aluminum alloy profile; 5. aluminum alloy glass supporting strips; 6. an aluminum alloy window connecting piece; 601. a connecting piece horizontal plate; 602. a connector vertical plate; 6021. a long hole; 6022. tooth grooves II; 7. aluminum alloy toothed plates; 701. tooth sockets I; 702. a through hole; 8. a glass backing plate.

Detailed Description

The utility model will be further described with reference to the accompanying drawings, but the scope of protection of the utility model is not limited to the described scope.

As shown in fig. 1, a connection structure of a large-span energy-saving door window comprises an aluminum alloy vertical frame 1, an aluminum alloy frame 2, a steel auxiliary frame 3 and an aluminum alloy section bar 4, wherein the aluminum alloy vertical frame 1 is fixedly arranged on the aluminum alloy frame 2, a glass panel component is arranged on one side, facing outdoors, of the aluminum alloy vertical frame 1 and the aluminum alloy frame 2, the glass panel component is fixed with the aluminum alloy section bar 4 through an adhesive tape, the aluminum alloy section bar 4 is fixedly connected with the aluminum alloy frame 2, and the downward end part of the glass panel component is arranged at the connection part of the aluminum alloy section bar 4 and the aluminum alloy frame 2 through an aluminum alloy glass supporting strip 5.

The aluminum alloy frame 2 is provided with an aluminum alloy window connecting piece 6, the aluminum alloy window connecting piece 6 is provided with a group of aluminum alloy toothed plates 7, the aluminum alloy window connecting piece 6 is provided with tooth grooves II 6022 which are matched with the tooth grooves I701 of the aluminum alloy toothed plates 7 in size, and a group of long holes 6021 are formed in the aluminum alloy window connecting piece for adjusting the upper and lower positions of the steel auxiliary frame 3.

The first tooth groove 701 of the aluminum alloy toothed plate 7 is meshed with the second tooth groove 6022 of the aluminum alloy window connecting piece 6, and the aluminum alloy toothed plate 7 passes through the bolt assembly to be fixed with the long hole 6021 and the steel subframe 3. The steel auxiliary frame 3 is fixed with the embedded part on the main body through a steel adapter.

According to actual conditions, the positions of the bolt assemblies above and below the long holes 6021 are adjusted, so that the distance between the steel auxiliary frame 3 and the aluminum alloy frame 2 is adjusted; according to the utility model, the first tooth groove 701 of the aluminum alloy toothed plate 7 is meshed with the second tooth groove 6022 of the aluminum alloy window connecting piece 6, so that the bolt component is prevented from moving.

As shown in fig. 2, the aluminum alloy frame 2 includes an outer frame 201 and an inner frame 202, the outer frame 201 and the inner frame 202 are fixedly connected through a heat insulation strip 203, and a bolt assembly groove 2011 is provided on the side of the outer frame 201 facing the outdoor for connecting the aluminum alloy section 4.

In this embodiment, the inner frame 202 includes an inner frame body, two sides of the bottom end of the inner frame body are symmetrically provided with bending parts 2021, and two bending parts 2021 form a mounting groove one 2022 for mounting the aluminum alloy window connecting piece 6; the side part of the inner frame body facing the glass component is provided with a first connecting groove 2023 for connecting the aluminum alloy glass supporting strip 5, and further, the end part connected with the aluminum alloy glass supporting strip 5 is arranged in the first connecting groove 2023.

In addition, a set of screw holes 2024 are formed in the inner frame body, and the aluminum alloy mullion 1 and the inner frame 202 are fixed through the screw holes 2024 by screws.

As shown in fig. 3, the aluminum alloy window connecting piece 6 is composed of a connecting piece horizontal plate 601 and a connecting piece vertical plate 602 perpendicular to the bottom of the connecting piece horizontal plate 601, and a long hole 6021 is formed in the length direction of the connecting piece vertical plate 602 and is used for adjusting the upper and lower positions of the steel subframe 3; and the tooth socket II 6022 is arranged on the surface of the connecting piece vertical plate 602 facing the aluminum alloy toothed plate 7 side.

The aluminum alloy window connecting piece 6 is matched with the inner frame 202 through the connecting piece horizontal plate 601 and the first mounting groove 2022 to realize connection; the steel subframe 3 is provided on the side of the connector vertical plate 602 facing the room.

As shown in fig. 4, the aluminum alloy toothed plate 7 is provided with a through hole 702, and the aluminum alloy toothed plate 7 and the aluminum alloy window connecting piece 6 are meshed with the tooth socket two 6022 through the tooth socket one 701 and then are fixed through the through hole 702, the long hole 6021 and the steel subframe 3 through the bolt component.

In this embodiment, a glass backing plate 8 is provided between the steel subframe 3 and the connector horizontal plate 601.

The utility model relates to a method for installing a connecting structure of a large-span energy-saving door and window, which comprises the following steps:

firstly, the aluminum alloy vertical frame 1 and the aluminum alloy side frame 2 are assembled, after the assembly is completed, the aluminum alloy window connecting piece 6 is placed in the side frame clamping groove, and then the aluminum alloy window connecting piece 6 and the aluminum alloy toothed plate 7 are connected with the steel auxiliary frame 3 through bolts, so that the connection firmness is ensured, and the adjustment between the auxiliary frame and the side frame is convenient.

Claims (10)

1. The utility model provides a connection structure of energy-saving door and window of large-span, includes aluminum alloy mullion (1), aluminum alloy frame (2), steel vice frame (3) and aluminum alloy section bar (4), fixed aluminum alloy mullion (1) that is equipped with on aluminum alloy frame (2), wherein aluminum alloy mullion (1) and aluminum alloy frame (2) are equipped with glass panel components towards outdoor one side, glass panel components passes through the adhesive tape to be fixed with aluminum alloy section bar (4), aluminum alloy section bar (4) and aluminum alloy frame (2) fixed connection, and wherein the decurrent tip of glass panel components passes through aluminum alloy glass support strip (5) to be set up in the junction of aluminum alloy section bar (4) and aluminum alloy frame (2), characterized in that be equipped with aluminum alloy window connecting piece (6) on aluminum alloy frame (2), be equipped with a set of aluminum alloy pinion rack (7) on aluminum alloy window connecting piece (6), set up on aluminum alloy window connecting piece (6) with first (701) small tooth groove phase-gap matched with two tooth sockets (6022) of aluminum alloy pinion rack (7), and set up on one set of aluminum alloy window rack (3) and two tooth sockets (6022) are used for adjusting on aluminum alloy frame (6021) and two tooth sockets (606), and the bolt component passes through the aluminum alloy toothed plate (7) to be fixed with the long holes (6021) and the steel auxiliary frame (3).

2. The connecting structure of the large-span energy-saving door and window according to claim 1, characterized in that the aluminum alloy frame (2) comprises an outer frame (201) and an inner frame (202), and the outer frame (201) and the inner frame (202) are fixedly connected through a heat insulation strip (203).

3. The connecting structure of the large-span energy-saving door and window according to claim 2, characterized in that the inner frame (202) comprises an inner frame body, two sides of the bottom end of the inner frame body are symmetrically provided with bending parts (2021), and two bending parts (2021) form a first mounting groove (2022) for mounting an aluminum alloy window connecting piece (6); the side part of the inner frame body, which faces the glass component, is provided with a first connecting groove (2023) for connecting an aluminum alloy glass supporting strip (5).

4. A connection structure of a large span energy saving door and window according to claim 3, characterized in that the side of the outer frame (201) facing the outdoor is provided with a bolt assembly groove (2011) for connecting with the aluminum alloy section bar (4).

5. The connecting structure of the large-span energy-saving door and window according to claim 4, wherein the aluminum alloy window connecting piece (6) is composed of a connecting piece horizontal plate (601) and a connecting piece vertical plate (602) perpendicular to the bottom of the connecting piece horizontal plate (601), and the long hole (6021) is formed in the length direction of the connecting piece vertical plate (602) and is used for adjusting the upper and lower positions of the steel subframe (3); and the tooth groove II (6022) is arranged on the surface of the connecting piece vertical plate (602) facing to one side of the aluminum alloy tooth plate (7).

6. The connecting structure of the large-span energy-saving door and window according to claim 5, wherein the aluminum alloy window connecting piece (6) and the inner frame (202) are matched with each other through a connecting piece horizontal plate (601) and a mounting groove I (2022) to realize connection; the steel subframe (3) is arranged on one side of the connecting piece vertical plate (602) facing the indoor.

7. The connection structure of the large-span energy-saving door and window according to claim 6, wherein the aluminum alloy toothed plate (7) is provided with a through hole (702), and the aluminum alloy toothed plate (7) and the aluminum alloy window connecting piece (6) are meshed with a tooth slot II (6022) through a tooth slot I (701) and then are fixed through the through hole (702), the long hole (6021) and the steel auxiliary frame (3) through a bolt assembly.

8. The connecting structure of the large-span energy-saving door and window according to claim 7, which is characterized in that a glass backing plate (8) is arranged between the steel auxiliary frame (3) and the connecting piece horizontal plate (601); the steel auxiliary frame (3) is fixedly connected with the embedded part on the main body.

9. The connecting structure of the large-span energy-saving door and window according to claim 8, characterized in that the end part of the connecting aluminum alloy glass supporting strip (5) is arranged in the connecting groove I (2023), and a glass backing plate (8) is arranged before the glass panel and the connecting aluminum alloy glass supporting strip (5).

10. A connection structure of a large-span energy-saving door and window according to claim 3, characterized in that a group of screw holes (2024) are arranged in the inner frame body, and the aluminum alloy mullion (1) and the inner frame (202) are fixed through the screw holes (2024) by screws.