CN204212601U - The energy-conservation auxiliary frame structure of building doors and windows - Google Patents

Abstract

The energy-conservation auxiliary frame structure of building doors and windows, described auxiliary frame structure is arranged along door and window hole inside wall and connect respectively formed by upper and lower, road, left and right four auxiliary frame section bar, and the two ends of described lower road auxiliary frame section bar are connected to left and right twice auxiliary frame section bar respectively; Described at least left and right twice auxiliary frame section bar up and down, in road, left and right four auxiliary frame section bar is energy-conservation auxiliary frame section bar, and they to be connected by the heat insulation of centre by outside section bar and inner side section bar respectively and form; Described upper track auxiliary frame section bar and left and right twice auxiliary frame section bar are energy-conservation auxiliary frame section bar, the outside section bar of this energy-conservation auxiliary frame section bar is provided with dovetail groove at relative link position respectively separately with inner side section bar, described heat insulation is plugged on the dovetail groove on outside section bar and inner side section bar by the slot of inside and outside dual-side, outside section bar and inner side section bar is linked together; It is simple that it has structure, and installation is convenient, can make doorframe and window frame effective location, sound construction, is conducive to the features such as door and window is energy-conservation.

Description

Energy-saving frame structure of building doors and windows

technical field

The utility model relates to an energy-saving frame-attached structure for building doors and windows, which belongs to the technical field of building doors and windows.

Background technique

As a conventional building construction technology, building doors and windows is to open a wall hole on the wall of the building, and install a door and window frame on the wall hole, and configure a special door and window leaf with glass in the door and window frame; this conventional The door and window installation technology of the current door and window installation technology has the disadvantages that the door and window installation cannot be effectively positioned, and the outer wall needs to be sealed and fixed by injecting sealant, which is inconvenient for construction. High-quality door and window structures are not conducive to the energy saving of doors and windows.

Utility model content

The purpose of the utility model is to overcome the deficiencies in the prior art, and provide an energy-saving frame structure for building doors and windows with simple structure, convenient installation and construction, effective positioning of door and window frames, firm structure, and energy saving of doors and windows.

The purpose of this utility model is accomplished through the following technical proposal, an energy-saving attached frame structure for building doors and windows. The two ends of the lower frame-attached profile are respectively connected with two left and right frame-attached profiles, and the upper ends of the left and right two frame-attached profiles are respectively connected with the upper frame-attached profile; At least two left and right frame-attached profiles in the frame profiles are energy-saving frame-attached profiles, which are respectively formed by connecting the outer profile and the inner profile through the middle heat insulation block.

The upper frame-attached profile and the two left and right frame-attached profiles are energy-saving frame-attached profiles, and the outer profile and inner profile of the energy-saving frame-attached profile are respectively provided with dovetail grooves at opposite connection positions, and the heat insulation block passes through The slots on the inner and outer sides are plugged into the dovetail grooves on the outer profile and the inner profile to connect the outer profile and the inner profile.

The upper and lower ends of the two left and right framed profiles are respectively connected to the two ends of the upper and lower framed profiles, and the four corners are connected at right angles or 45 degrees; the lower framed profile is installed under the window sill On the inner wall of the door and window opening, the inner sides of the upper, left and right three frame-attached profiles are respectively connected with door and window frames.

The utility model has the characteristics of simple structure, convenient installation and construction, effective positioning of door and window frames, firm structure, and energy saving of doors and windows.

Description of drawings

Fig. 1 is the structural composition schematic diagram of the present utility model.

Fig. 2 is a schematic diagram of the structure of the energy-saving frame-attached profile of the utility model.

Detailed ways

The utility model will be described in detail below in conjunction with the accompanying drawings: as shown in Figure 1, a kind of energy-saving attached frame structure of building doors and windows described in the utility model, the described attached frame structure is composed of four attached frame profiles 1 up and down, left and right . The upper ends of the frame-attached profiles 3 and 4 are respectively connected with the upper frame-attached profiles 1; at least two of the left and right frame-attached profiles 3 and 4 among the four frame-attached profiles 1, 2, 3, and 4 are energy-saving attachments. Frame profiles, as shown in FIG. 2 , are formed by connecting the outer profile 6 and the inner profile 7 through the heat insulation block 8 in the middle.

As shown in Figure 2, the upper frame-attached profile and the left and right two frame-attached profiles described in the utility model are energy-saving frame-attached profiles, and the outer profile 6 and the inner profile 7 of the energy-saving frame-attached profile are respectively provided with The dovetail groove 9, the heat insulation block 8 is plugged into the dovetail groove 9 on the outer profile 6 and the inner profile 7 through the slots on the inner and outer sides, so as to connect the outer profile 6 and the inner profile 7 together.

The upper and lower ends of the two left and right framed profiles 3 and 4 of the utility model are respectively connected to the two ends of the upper and lower framed profiles 1 and 2, and the four corners are connected at right angles or at a 45-degree angle as shown in Figure 1 The connection, the connection mode can be selected from any existing method, including taking plug-in connectors, etc.; the lower frame-attached profile 2 is installed on the inner wall of the door and window opening 5 under the window sill, and the upper, left and right The inner sides of the three frame-attached profiles 1, 3, and 4 are respectively connected with door and window frames.

Claims (3)

1. the energy-conservation auxiliary frame structure of building doors and windows, described auxiliary frame structure is arranged along door and window hole inside wall and connect respectively formed by upper and lower, road, left and right four auxiliary frame section bar, it is characterized in that the two ends of described lower road auxiliary frame section bar are connected to left and right twice auxiliary frame section bar respectively, the upper end of this left and right twice auxiliary frame section bar is connected to upper track auxiliary frame section bar; Described at least left and right twice auxiliary frame section bar up and down, in road, left and right four auxiliary frame section bar is energy-conservation auxiliary frame section bar, and they to be connected by the heat insulation of centre by outside section bar and inner side section bar respectively and form.

2. the energy-conservation auxiliary frame structure of building doors and windows according to claim 1, it is characterized in that described upper track auxiliary frame section bar and left and right twice auxiliary frame section bar are energy-conservation auxiliary frame section bar, the outside section bar of this energy-conservation auxiliary frame section bar is provided with dovetail groove at relative link position respectively separately with inner side section bar, described heat insulation is plugged on the dovetail groove on outside section bar and inner side section bar by the slot of inside and outside dual-side, outside section bar and inner side section bar is linked together.

3. the energy-conservation auxiliary frame structure of building doors and windows according to claim 1 and 2, is characterized in that the two ends up and down of described left and right twice auxiliary frame section bar are connected with the two ends of upper and lower twice auxiliary frame section bar respectively, and junction, corner is rectangular or miter angle connects; Described lower road auxiliary frame section bar is installed on the door and window hole inside wall under windowsill, and described inner side edge that is upper, road, left and right three auxiliary frame section bar is connected to doorframe and window frame respectively.