CN211666180U

CN211666180U - Passive ultralow energy consumption window installation is with supplementary fixing device

Info

Publication number: CN211666180U
Application number: CN201922272882.8U
Authority: CN
Inventors: 任旭红; 谢志成; 张宁; 杨玉栋; 杨立新; 张瑞英; 李飚
Original assignee: Datong Tairui Group Construction Co ltd
Current assignee: Datong Tairui Group Construction Co ltd
Priority date: 2019-12-18
Filing date: 2019-12-18
Publication date: 2020-10-13
Anticipated expiration: 2029-12-18

Abstract

The utility model particularly relates to an installation of passive form ultra-low energy consumption window is with supplementary fixing device has solved the unable relatively poor problem of just the gas tightness of satisfied and hanging load existence when the installation of current passive form ultra-low energy consumption window. A passive window frame is arranged on one outdoor side of the square steel frame, a support skid is arranged on one outdoor side of a lower cross beam of the square steel frame, fixed corner connectors are arranged on the vertical cross beam of the square steel frame and one outdoor side of an upper cross beam of the square steel frame, concrete batten walls are arranged on the left side and the right side of the vertical cross beam of the square steel frame, steel pipe bundle shear walls are arranged on the left side and the right side of the concrete batten walls, and an I-shaped steel beam is fixed at the upper end of the upper cross beam of the square steel frame; a waterproof and air-proof die is arranged between the inner side of the square steel frame and the outer side of the passive window frame, and a waterproof and air-permeable film is arranged between the outdoor side of the square steel frame and the outer side of the passive window frame. The utility model discloses satisfied the load that hangs of passive window, strengthened heat preservation heat-proof quality and gas tightness moreover.

Description

Passive ultralow energy consumption window installation is with supplementary fixing device

Technical Field

The utility model relates to a fixing device for the construction specifically is an auxiliary fixture for installation of passive form ultralow energy consumption window.

Background

In passive form ultra-low energy consumption building, in order to ensure the gas tightness of building, the window generally adopts outer hanging installation, and the difference is installed with the stopper mouth in the ordinary window: a window is arranged at the inner plug opening, and the self weight of the window is supported by a wall body below the window; and outer hanging installation passive ultralow energy consumption window (passive window), its dead weight hangs by the peripheral wall body of passive window and supports, but its bearing capacity of the concrete slat wall of passive window both sides can not satisfy passive window and hang the load, has very big potential safety hazard, and the gas tightness of passive window is relatively poor moreover.

Disclosure of Invention

The utility model discloses a have when solving the installation of the super low energy consumption window of current passive form and hang the load and can't be satisfied and the relatively poor problem of gas tightness, provide a supplementary fixing device is used in the installation of the super low energy consumption window of passive form.

The utility model discloses an adopt following technical scheme to realize: a passive auxiliary fixing device for mounting a window with ultra-low energy consumption comprises a square steel frame, wherein a vertical cross beam of the square steel frame extends downwards to extend out of the lower end of the square steel frame, a passive window frame is arranged on one outdoor side of the square steel frame, a support skid for supporting the passive window frame is arranged on one outdoor side of a lower cross beam of the square steel frame, fixed corner connectors connected with the passive window frame are arranged on the vertical cross beam of the square steel frame and one outdoor side of an upper cross beam of the square steel frame, concrete batten walls connected with the vertical cross beam of the square steel frame are arranged on the left side and the right side of the vertical cross beam of the square steel frame, steel pipe bundle shear walls are arranged on the left side and the right side of the concrete batten walls, and an I-shaped steel beam connected with the steel pipe bundle; a waterproof air-proof film which is bonded with the inside of the square steel frame and the outside of the driven window frame is arranged between the inside of the square steel frame and the outside of the driven window frame, a waterproof air-proof film which is bonded with the outside of the driven window frame is arranged between the outdoor side of the square steel frame and the outside of the driven window frame, and the waterproof air-proof film outside the driven window frame covers the waterproof air-proof film.

When the passive ultra-low energy consumption window is installed, the welded square steel frame is hoisted to the position of the I-shaped steel beam for fixing, then the passive window frame is temporarily fixed with the upper surface and the side surface of the square steel frame by using a fixed angle bracket, the passive window frame is fastened after being corrected, and then the support skid is fixedly supported at the bottom of the passive window frame to complete the auxiliary fixing of the passive window; and prevent that indoor humidity from losing through setting up waterproof ventilative membrane, and prevent that outdoor rainwater from soaking through setting up waterproof ventilated membrane, make things convenient for the interior moisture of wall to distribute. The problem that the hanging load cannot be met and the air tightness is poor when an existing passive ultralow-energy-consumption window is installed is solved.

The square steel frame is provided with a heat insulation base plate on one outdoor side, expansion bolts penetrating through the heat insulation base plate and connected with the square steel frame are arranged on the fixed angle codes, and self-compacting concrete is arranged in the vertical cross beam and the upper and lower cross beams of the square steel frame.

The filling of self-compaction concrete strengthens its bearing capacity in this structural design, reduces the potential safety hazard of external passive window, and the setting of thermal-insulated backing plate has reduced heat-conduction simultaneously, reduces the indoor heat loss of building, has increased heat preservation heat-proof quality.

A window board is arranged on one side of the lower cross beam of the passive window frame, the window board is connected with the passive window frame through self-tapping screws, a connecting plate is arranged between the steel pipe bundle shear wall and the I-shaped steel beam, and the connecting plate is connected with the steel pipe bundle shear wall and the I-shaped steel beam through high-strength bolts.

The utility model has the advantages of reasonable design reliably, satisfied the load that hangs of passive window through the reinforcing bearing capacity, avoided the whole change of non-bearing peripheral revetment, when reinforcing heat preservation heat-proof quality and gas tightness moreover, reduced the loss of indoor humidity, help keeping constant temperature, the characteristic of constant humidity in the building, have simple structure, the high and reduce cost's of installation effectiveness advantage.

Drawings

FIG. 1 is a schematic structural view of the outdoor side of the present invention;

fig. 2 is a schematic structural view of the indoor side of the present invention.

In the figure: the method comprises the following steps of 1-square steel frame, 2-passive window frame, 3-support skid, 4-fixed corner connectors, 5-concrete batten wall, 6-steel tube bundle shear wall, 7-I-shaped steel beam, 8-expansion bolt, 9-window board, 10-connecting plate and 11-high-strength bolt.

Detailed Description

A passive auxiliary fixing device for mounting an ultra-low energy consumption window comprises a square steel frame 1, wherein a vertical cross beam of the square steel frame 1 extends downwards to extend out of the lower end of the square steel frame 1, a passive window frame 2 is arranged on one outdoor side of the square steel frame 1, a support skid 3 for supporting the passive window frame 2 is arranged on one outdoor side of a lower cross beam of the square steel frame 1, fixing corner connectors 4 connected with the passive window frame 2 are arranged on the vertical cross beam of the square steel frame 1 and one outdoor side of an upper cross beam, concrete batten walls 5 connected with the vertical cross beam are arranged on the left side and the right side of the vertical cross beam of the square steel frame 1, steel pipe bundle shear walls 6 are arranged on the left side and the right side of each concrete batten wall 5, and an I-shaped steel beam 7 connected with the steel pipe bundle shear walls 6 is fixed at the upper end of the upper cross;

a waterproof and air-proof module which is bonded with the inside of the square steel frame 1 and the outside of the driven window frame 2 is arranged between the inside of the square steel frame 1 and the outside of the driven window frame 2, a waterproof and air-proof film which is bonded with the outside of the square steel frame 1 and the outside of the driven window frame 2 is arranged between the outdoor side of the square steel frame 1 and the outside of the driven window frame 2, and the waterproof and air-proof film at the outside of the driven window frame 2 covers the waterproof.

The square steel frame is characterized in that a heat insulation base plate is arranged on one outdoor side of the square steel frame 1, expansion bolts 8 penetrating through the heat insulation base plate and connected with the square steel frame 1 are arranged on the fixed angle connectors 4, and self-compacting concrete is arranged in the vertical cross beam and the upper and lower cross beams of the square steel frame 1.

A window board 9 is arranged on one side of the lower beam outdoor of the driven window frame 2, the window board 9 is connected with the driven window frame 2 through self-tapping screws, a connecting plate 10 is arranged between the steel pipe bundle shear wall 6 and the I-shaped steel beam 7, and the connecting plate 10 is connected with the steel pipe bundle shear wall 6 and the I-shaped steel beam 7 through high-strength bolts 11.

In the specific implementation process, the waterproof breathable film on the outdoor side of the square steel frame 1 covers the fixed corner connectors 4, the supporting skids 3 and the expansion bolts 8, so that outdoor rainwater is prevented from entering the square steel frame, and meanwhile, moisture in the wall body and the decorative layer is convenient to dissipate; the inner side surface of the square steel frame 1 and the outer side surface of the passive window frame 2 are positioned on the same plane.

Claims

1. The utility model provides an installation of passive form ultralow energy consumption window is with supplementary fixing device which characterized in that: the steel tube bundle shear wall comprises a square steel frame (1), wherein a vertical cross beam of the square steel frame (1) extends downwards to extend out of the lower end of the square steel frame (1), a driven window frame (2) is arranged on one outdoor side of the square steel frame (1), a support skid (3) for supporting the driven window frame (2) is arranged on one outdoor side of a lower cross beam of the square steel frame (1), fixed corner connectors (4) connected with the driven window frame (2) are arranged on the vertical cross beam of the square steel frame (1) and one outdoor side of an upper cross beam of the square steel frame, concrete batten walls (5) connected with the vertical cross beam of the square steel frame (1) are arranged on the left side and the right side of the vertical cross beam of the square steel frame (1), steel tube bundle shear walls (6) are arranged on the left side and the right side of the concrete batten walls (5), and I-shaped steel beams (7) connected with the steel;

a waterproof air-proof film which is bonded with the square steel frame (1) and the driven window frame (2) is arranged between the inner side of the square steel frame (1) and the outer side of the driven window frame (2), a waterproof air-proof film which is bonded with the square steel frame (1) and the driven window frame (2) is arranged between the outdoor side of the square steel frame (1) and the outer side of the driven window frame, and the waterproof air-proof film which is arranged on the outer side of the driven window frame (2) covers the waterproof air-proof film which is.

2. The auxiliary fixing device for the installation of the passive ultra-low energy consumption window of claim 1, wherein: the square steel frame is characterized in that a heat insulation base plate is arranged on one outdoor side of the square steel frame (1), expansion bolts (8) penetrating through the heat insulation base plate and connected with the square steel frame (1) are arranged on the fixed angle connectors (4), and self-compacting concrete is arranged in the vertical cross beam and the upper and lower cross beams of the square steel frame (1).

3. A passive ultra-low energy consumption window mounting auxiliary fixture according to claim 1 or 2, wherein: a window board (9) is arranged on one outdoor side of a lower cross beam of the passive window frame (2), the window board (9) is connected with the passive window frame (2) through self-tapping screws, a connecting plate (10) is arranged between the steel pipe bundle shear wall (6) and the I-shaped steel beam (7), and the connecting plate (10) is connected with the steel pipe bundle shear wall (6) and the I-shaped steel beam (7) through high-strength bolts (11).