CN216110293U - Embedded external window mounting structure for ultra-low energy consumption building - Google Patents

Abstract

The utility model relates to an embedded type outer window mounting structure for an ultra-low energy consumption building, which comprises a concrete structure layer, an energy-saving auxiliary frame, an outer window frame and outer window glass, wherein the concrete structure layer is provided with a window opening, the surface of the concrete structure layer faces outdoors, and the back of the concrete structure layer faces indoors; the surface of the concrete structure layer is provided with a wall heat-insulating layer, the surface of the wall heat-insulating layer is provided with a concrete protective layer, and the surface of the concrete protective layer is provided with a concrete mortar leveling layer; the energy-saving auxiliary frame is arranged in the window opening, a heat-insulating block is further arranged in the window opening, one side of the heat-insulating block is tightly attached to the energy-saving auxiliary frame, and the other end of the heat-insulating block faces the indoor space; be provided with waterproof ventilated membrane between rock wool and the energy-conserving subframe, be provided with waterproof gas barrier membrane between heat preservation piece and the energy-conserving subframe.

Description

Embedded external window mounting structure for ultra-low energy consumption building

Technical Field

The utility model relates to the field of ultra-low energy consumption buildings, in particular to an embedded type external window mounting structure for an ultra-low energy consumption building.

Background

In recent years, with the continuous acceleration of urbanization, the building industry in China faces a small challenge while meeting a large development opportunity, the requirements of people on living environment are gradually increased, the implementation of a sustainable development strategy is combined, the building technology is innovated, the introduction of equipment and concepts in the aspect of energy conservation is more the requirements of the development of the building industry in China, and in order to further reduce the difference between the development of the building in the western developed country and improve the modernization development level of the building in China, the defects in the development process of the current passive ultra-low energy consumption building are actively made up, so that more vitality and guarantee are provided for the brisk development of the building industry in China.

The ultra-low energy consumption building is one of main means of 'carbon peak reaching and carbon neutralization' in the building field, a relatively complete technical system is formed after more than ten years of development, a great amount of Germany practice is used for reference by node construction in the technical system, and the following structural design is adopted when an outer window is installed:

(1) the outer window is installed in an externally hung mode, and the inner surface of the window frame is flush with the outer surface of the outer wall structure layer;

(2) the external hanging type installation method of the external window is realized by adopting an L-shaped metal piece, one side of the L-shaped metal piece is fixed on the window frame of the external window, and the other side of the L-shaped metal piece is fixed on the wall body;

(3) designing an external thermal insulation pressing frame of an external wall;

(4) the outer window is constructed outdoors by adopting measures such as a hanging basket and the like.

There are mainly the following problems:

the outer hanging type installation has potential safety hazards, long-time validity inspection is not carried out, a plurality of high-rise buildings exist in the building of China, high wind pressure of the high-rise buildings is high, the outer window falling damage is larger, and the potential safety hazards of the outer hanging type installation are larger.

The replacement cost of the external window of the external hanging type installation method is high, and the external window is represented as follows:

(1) the external thermal insulation system of the external wall needs to be damaged in the replacement process of the external window.

(2) The outer window can not be unfolded indoors, and needs to be installed outdoors by means of construction tools such as a hanging basket, and the construction measure cost is obviously increased.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an embedded type external window installation structure for an ultra-low energy consumption building, which can effectively reduce the installation heat bridge effect of an external window and can realize replacement at the indoor side.

The purpose of the utility model is realized as follows:

an embedded outer window mounting structure for an ultra-low energy consumption building comprises a concrete structure layer, an energy-saving auxiliary frame, an outer window frame and outer window glass, wherein a window opening is formed in the concrete structure layer, the surface of the concrete structure layer faces outdoors, and the back of the concrete structure layer faces indoors;

the surface of the concrete structure layer is provided with a wall heat-insulating layer, the surface of the wall heat-insulating layer is provided with a concrete protective layer, and the surface of the concrete protective layer is provided with a concrete mortar leveling layer;

the energy-saving auxiliary frame is arranged in the window opening, a heat-insulating block is further arranged in the window opening, one side of the heat-insulating block is tightly attached to the energy-saving auxiliary frame, and the other end of the heat-insulating block faces the indoor space;

the outer window frame is arranged in the energy-saving auxiliary frame, and the outer window glass is arranged in the outer window frame;

rock wool is arranged above the wall heat-insulating layer and the concrete protective layer, one side of the rock wool is tightly attached to the energy-saving auxiliary frame, and the other side of the rock wool faces the concrete mortar leveling layer;

the window frame is connected with the outer window frame, and the other end of the water-scraping plate extends out of the room and is located above the concrete mortar leveling layer;

be provided with waterproof ventilated membrane between rock wool and the energy-conserving subframe, be provided with waterproof gas barrier membrane between heat preservation piece and the energy-conserving subframe.

According to the utility model, the energy-saving auxiliary frame is arranged, then the outer window is as close to the outdoor side as possible at the position of the hole, and then the heat insulation block is arranged at the indoor side.

The utility model has the advantages of ingenious design, convenience, practicability, no need of dismantling a large number of heat preservation systems in the replacement process of the outer window, capability of realizing replacement at the indoor side, no need of measures of using a hanging basket, reduction of replacement cost, realization of embedded installation of the outer window, and improvement of safety in the service process of the outer window.

The aim of the utility model can also be solved by the following technical measures:

furthermore, a pre-pressing sealing strip is arranged between the water-batching plate and the concrete mortar leveling layer.

Further, the heat preservation block is a high-density graphite polystyrene board or an extruded polystyrene board.

Further, the height of the heat preservation block is the same as that of the energy-saving auxiliary frame.

Further, the surface of the outer window frame is flush with the surface of the concrete structural layer.

Furthermore, the thickness of rock wool is 50mm, and the width of rock wool is the sum of the width of wall heat preservation and concrete protective layer.

The utility model has the following beneficial effects:

according to the utility model, the energy-saving auxiliary frame is arranged, then the outer window is as close to the outdoor side as possible at the position of the hole, and then the heat insulation block is arranged at the indoor side.

The outdoor window replacement system is ingenious in design, convenient and practical, the heat preservation system does not need to be removed in a large quantity in the replacement process of the outdoor window, replacement can be achieved indoors, construction platforms such as hanging baskets are not needed, replacement cost is reduced, embedded installation of the outdoor window is achieved, and safety in the service process of the outdoor window is improved.

Drawings

Fig. 1 is a schematic view of an in-line exterior window installation structure for an ultra low energy building.

Detailed Description

The utility model is further described with reference to the following figures and examples:

in an embodiment, referring to fig. 1, an embedded external window installation structure for an ultra-low energy consumption building includes a concrete structure layer 1, an energy-saving auxiliary frame 2, an external window frame 3 and external window glass 4, wherein the concrete structure layer 1 is provided with a window opening 11, the surface of the concrete structure layer 1 faces outdoors, and the back of the concrete structure layer 1 faces indoors;

a wall heat-insulating layer 5 is arranged on the surface of the concrete structure layer 1, a concrete protective layer 6 is arranged on the surface of the wall heat-insulating layer 5, and a concrete mortar leveling layer 7 is arranged on the surface of the concrete protective layer 6;

energy-conserving subframe 2 sets up in window opening 11, still be provided with insulating block 8 in the window opening 11, energy-conserving subframe 2 is hugged closely to insulating block 8 one side, and the insulating block 8 other end is indoor towards, insulating block 8 is high density graphite polyphenyl board or extruded polystyrene board.

The outer window frame 3 is arranged in the energy-saving auxiliary frame 2, the outer window glass 4 is arranged in the outer window frame 3, and the surface of the outer window frame 3 is flush with the surface of the concrete structure layer 1.

The energy-saving wall is characterized in that rock wool 9 is arranged above the wall heat-insulating layer 5 and the concrete protective layer 6, the energy-saving auxiliary frame 2 is tightly attached to one side of the rock wool 9, the other side of the rock wool 9 faces the outside, the thickness of the rock wool 9 is 50mm, the width of the rock wool 9 is the sum of the wall heat-insulating layer 5 and the concrete protective layer 6, and the height of the heat-insulating block 8 is the same as that of the energy-saving auxiliary frame 2.

The window frame is characterized by further comprising a water-batching plate 10, wherein one end of the water-batching plate 10 is connected with the outer window frame 3, and the other end of the water-batching plate 10 extends out of the room and is located above the concrete mortar leveling layer 7;

be provided with waterproof ventilated membrane 12 between rock wool 9 and the energy-conserving vice frame 2, be provided with waterproof gas barrier membrane 14 between heat preservation piece 8 and the energy-conserving vice frame 2.

A pre-pressing sealing strip 13 is arranged between the water batching plate 10 and the concrete mortar leveling layer 7.

According to the utility model, the energy-saving auxiliary frame 2 is arranged, then the outer window is as close to the outdoor side as possible at the position of the hole, and then the heat insulation block 8 is arranged at the indoor side.

The outdoor window replacement system is ingenious in design, convenient and practical, the heat preservation system does not need to be removed in a large quantity in the replacement process of the outdoor window, replacement can be achieved indoors, construction platforms such as hanging baskets are not needed, replacement cost is reduced, embedded installation of the outdoor window is achieved, and safety in the service process of the outdoor window is improved.

Claims (6)

1. The utility model provides an embedded exterior window mounting structure for ultralow energy consumption building which characterized in that: the energy-saving window comprises a concrete structure layer, an energy-saving auxiliary frame, an outer window frame and outer window glass, wherein the concrete structure layer is provided with a window opening, the surface of the concrete structure layer faces outdoors, and the back of the concrete structure layer faces indoors;

the surface of the concrete structure layer is provided with a wall heat-insulating layer, the surface of the wall heat-insulating layer is provided with a concrete protective layer, and the surface of the concrete protective layer is provided with a concrete mortar leveling layer;

the energy-saving auxiliary frame is arranged in the window opening, a heat-insulating block is further arranged in the window opening, one side of the heat-insulating block is tightly attached to the energy-saving auxiliary frame, and the other end of the heat-insulating block faces the indoor space;

the outer window frame is arranged in the energy-saving auxiliary frame, and the outer window glass is arranged in the outer window frame;

rock wool is arranged above the wall heat-insulating layer and the concrete protective layer, one side of the rock wool is tightly attached to the energy-saving auxiliary frame, and the other side of the rock wool faces the concrete mortar leveling layer;

the window frame is connected with the outer window frame, and the other end of the water-scraping plate extends out of the room and is located above the concrete mortar leveling layer;

be provided with waterproof ventilated membrane between rock wool and the energy-conserving subframe, be provided with waterproof gas barrier membrane between heat preservation piece and the energy-conserving subframe.

2. The in-line exterior window installation structure for ultra-low energy consumption buildings according to claim 1, wherein: and a pre-pressing sealing strip is arranged between the water batching plate and the concrete mortar leveling layer.

3. The in-line exterior window installation structure for ultra-low energy consumption buildings according to claim 1, wherein: the heat preservation block is a high-density graphite polystyrene board or an extruded polystyrene board.

4. The in-line exterior window installation structure for ultra-low energy consumption buildings according to claim 1, wherein: the height of the heat preservation block is the same as that of the energy-saving auxiliary frame.

5. The in-line exterior window installation structure for ultra-low energy consumption buildings according to claim 1, wherein: the surface of the outer window frame is flush with the surface of the concrete structure layer.

6. The in-line exterior window installation structure for ultra-low energy consumption buildings according to claim 1, wherein: the thickness of rock wool is 50mm, and the width of rock wool is the sum of the width of wall body heat preservation and concrete protective layer.

Images