CN211038409U - Passive door system of high-rise ultralow-energy-consumption house - Google Patents

Abstract

A high-rise ultra-low energy consumption residential passive door system comprises a basic structure and an external structure; the foundation structure comprises a door frame, a heat insulation wood block, angle steel and a rubber heat insulation pad; the door frame is arranged in a reserved door opening of the foundation wall body, and the heat insulation wood block is embedded between the door frame and the foundation wall body; the angle steel is arranged on the inner side of the heat insulation wood block, one side of the angle steel is anchored with the heat insulation wood block, and the other side of the angle steel is anchored with the foundation floor at the bottom; the rubber heat insulation pad is arranged between the angle steel and the foundation floor slab; the inner side of the foundation structure is laid with a waterproof vapor-barrier film, and the outer side is laid with a waterproof vapor-permeable film; the external structure comprises indoor concrete cast on the inner side of the waterproof vapor-barrier membrane in a cast-in-place mode and a heat-insulating layer arranged on the outer side of the waterproof vapor-permeable membrane. The utility model discloses a passive formula door system of compound of passive formula door + angle steel + thermal-insulated billet, simple structure, construction convenience adopts and glues the anchor combination, uses the anchor to be the fixed mode of giving first place to, has improved the system bearing effect, accords with the passive door construction requirement of ultralow energy consumption, has heat insulating ability, fire proofness and durability simultaneously.

Description

Passive door system of high-rise ultralow-energy-consumption house

Technical Field

The utility model relates to a passive door technology system, concretely relates to passive door system of high-rise ultralow energy consumption house.

Background

The passive type ultralow-energy-consumption residential building adopts the high-heat-preservation energy-saving passive heat-preservation sealed door, the heat preservation performance is improved by 2-3 times compared with the traditional outer door, the temperature difference between the surface of the passive type ultralow-energy-consumption residential building and the indoor temperature is not more than 3 ℃, and the indoor comfortable temperature environment is maintained.

The existing guide of passive ultra-low energy consumption green building technology (trial) (residential building) definitely satisfies the specified requirements of passive doors. The outer door and window should have good airtight, watertight and wind pressure resistance, and according to the national standard GB/T7106 of Classification and detection method for airtight, watertight and wind pressure resistance of the outer door and window of buildings, the airtight grade should not be lower than 8 grade, the watertight grade should not be lower than 6 grade, and the wind pressure resistance grade should not be lower than 9 grade. The outer door and the door should adopt heat-insulating airtight doors, and the heat-insulating performance should not be lower than the related requirements of the outer window. The outer door of the building in the severe cold area is designed with a door hopper; the outer door facing the main wind direction in winter in cold areas is provided with a door hopper or a double-layer outer door; in other areas, the outer door is preferably designed with a door hopper or other measures for reducing cold air penetration are adopted.

At present, the installation structure of the passive door is generally complex, the installation strength is not easy to guarantee, the construction requirements of the passive door with ultralow energy consumption are met, and simultaneously simplicity, heat preservation, fire resistance and durability cannot be fully considered.

SUMMERY OF THE UTILITY MODEL

The utility model aims at relating to a high-rise ultralow energy consumption house passive form door system, solve among the prior art technical problem that simplicity, heat insulating ability and fire behavior can not compromise completely when the installation structure is general complicated, installation intensity is difficult for guaranteeing, satisfies the construction requirement of the passive door of ultralow energy consumption.

In order to achieve the technical purpose, the utility model adopts the following technical scheme:

the utility model provides a high-rise ultra-low energy consumption house passive door system which characterized in that: comprises a basic structure and an external structure;

the foundation structure comprises a passive door frame, a heat insulation wood block, angle steel and a rubber heat insulation pad; the passive door frame is arranged in a reserved door opening of the foundation wall body, and a passive door leaf is arranged in the passive door frame; the heat insulation wood block is embedded between the passive door frame and the foundation wall; the angle steel is arranged on the inner side of the heat insulation wood block, one side of the angle steel is anchored with the heat insulation wood block through a first connecting piece, and the other side of the angle steel is anchored with the foundation floor at the bottom through a second connecting piece; the rubber heat insulation pad is arranged between the angle steel and the foundation floor slab;

the inner side of the foundation structure is provided with a waterproof vapor-barrier film, and the outer side of the foundation structure is provided with a waterproof vapor-permeable film;

the external structure comprises indoor concrete cast on the inner side of the waterproof vapor-barrier membrane in a cast-in-place mode and an outer wall heat-insulating layer arranged on the outer side of the waterproof vapor-permeable membrane.

The bottom of the waterproof vapor-barrier film extends to cover the inner side surface of the joint of the foundation slab and the rubber heat-insulating pad.

Furthermore, the bottom of the outer wall heat-insulating layer is covered with a connecting seam between the heat-insulating wood block and the base wall, and the top of the outer wall heat-insulating layer is covered with a connecting seam between the heat-insulating wood block and the door frame.

Furthermore, the outer side surface of the waterproof breathable film is flush with the outer side surface of the foundation wall.

Further, the angle steel and the upper surface of the heat insulation wood block are arranged in parallel and level; the upper surface of the indoor concrete is flush with the upper surface of the waterproof and steam-proof membrane laid on the inner side of the foundation structure.

Furthermore, the first connecting piece is a bolt, and the second connecting piece is an expansion bolt.

Furthermore, the rubber heat insulation pad is an ethylene propylene diene monomer rubber heat insulation pad.

Compared with the prior art, the utility model discloses a technical advantage lies in:

1. the utility model discloses a compound passive door system of passive door + angle steel + thermal-insulated billet adopts thermal-insulated billet at ultralow energy consumption passive outer door bottom, and the inboard sets up angle steel, waterproof vapour barrier membrane and indoor concrete, and the outside sets up waterproof ventilative membrane and heat preservation, adopts ethylene propylene diene monomer heat insulating mattress to carry out thermal-insulated processing in the middle of angle steel and structural floor, and simple structure, construction convenience when reaching the construction requirement of ultralow energy consumption passive door, both satisfied thermal insulation performance and satisfied fire prevention requirement;

2. the utility model discloses a passive door + angle steel + thermal-insulated billet compound passive door system adopts and glues anchor combination, takes the anchor as the fixed mode of giving first place to, and the angle steel adopts bolted connection with thermal-insulated billet, angle steel and structural floor, has improved the system and has born the weight of the effect, has solved how to carry out the reliable problem of installing structurally with ultra-low energy consumption building passive door system;

3. the utility model discloses a compound passive door system of passive door + angle steel + thermal-insulated billet, the steam problem that the ultra-low energy consumption building indoor outer difference in temperature that solves through waterproof vapour barrier membrane, waterproof ventilative membrane leads to produces the outside discharge of waterproof ventilative membrane unilateral that steam can adopt through the outdoor side, and the waterproof vapour barrier membrane that the indoor side adopted can prevent steam to get into indoorly to promote passive door system's durability.

Drawings

The above and/or other aspects and advantages of the present invention will become more apparent and more readily appreciated from the detailed description taken in conjunction with the following drawings, which are given by way of illustration only and not by way of limitation, wherein:

fig. 1 is a schematic structural diagram of the high-rise ultra-low energy consumption residential passive door system of the present invention.

Reference numerals: 1-passive door frame, 2-heat insulation wood block, 3-angle steel, 4-rubber heat insulation pad, 5-first connecting piece, 6-indoor concrete, 7-waterproof vapor permeable membrane, 8-second connecting piece, 9-waterproof vapor barrier membrane, 10-outer wall heat insulation layer, 11-foundation wall, 12-foundation floor slab and 13-passive door leaf.

Detailed Description

Hereinafter, embodiments of the high-rise ultra-low energy consumption residential passive door system of the present invention will be described with reference to the accompanying drawings. The embodiments described herein are specific embodiments of the present invention, and are intended to be illustrative of the concepts of the present invention, which are intended to be illustrative and exemplary, and should not be construed as limiting the scope of the embodiments of the present invention. In addition to the embodiments described herein, those skilled in the art will be able to employ other technical solutions which are obvious based on the disclosure of the claims and the specification of the present application, and these technical solutions include technical solutions which make any obvious replacement or modification for the embodiments described herein.

The drawings in the present specification are schematic views to assist in explaining the concept of the present invention, and schematically show the shapes of the respective portions and the mutual relationships thereof. It should be noted that for the sake of clarity in showing the structures of the various components of the embodiments of the present invention, the drawings are not drawn to the same scale. Like reference numerals are used to denote like parts. The principles and features of the present invention are described below in conjunction with the following drawings, the examples given are only intended to illustrate the present invention and are not intended to limit the scope of the present invention. Fig. 1 shows a bottom node structure of a passive door system of a high-rise ultra-low energy consumption residence, wherein the left side of the bottom node structure is indoor, and the right side of the bottom node structure is outdoor, and the bottom node structure comprises a basic structure and an external structure.

The foundation structure comprises a passive door frame 1, a heat insulation wood block 2, angle steel 3 and a rubber heat insulation pad 4, wherein the passive door frame 1 is arranged in a reserved door opening of a foundation wall body 11, a passive door leaf 13 is installed in the passive door frame, the heat insulation wood block 2 is embedded between the passive door frame 1 and the foundation wall body 11, the number of the heat insulation wood block is 3 per door frame, the size of a single block is 150mm × 150mm × 50mm, the size of the single block is 150mm 89150 mm × mm, the angle steel 3 is arranged on the inner side of the heat insulation wood block 2, one side of the angle steel 3 is anchored with the heat insulation wood block 2 through a first connecting piece 5, the other side of the angle steel is anchored with a foundation floor slab 12 at the bottom through a second connecting piece 8, the angle steel is 10 × 10 angle steel, the bolt adopts 10mm × 10mm × 3mm, the first connecting piece 5 adopts an M8 bolt, the second connecting piece 8 adopts a floor slab phi 10 expansion bolt, the connection meets requirements of various passive doors, the rubber heat insulation pad 4 is arranged between.

The external structure comprises indoor concrete 6 cast on the inner side of the waterproof vapor-barrier membrane 9 in a cast-in-place mode and an outer wall heat-insulating layer 10 arranged on the outer side of the waterproof vapor-permeable membrane 7. Wherein, the bottom of the waterproof vapor-proof film 9 extends to cover the inner side surface of the joint of the foundation slab 12 and the rubber heat insulation pad 4. The bottom of the outer wall heat-insulating layer 10 is covered with a connecting seam of the heat-insulating wood block 2 and the foundation wall 11, and the top is covered with a connecting seam of the heat-insulating wood block 2 and the door frame 6. The outer side surface of the waterproof and breathable film 7 is flush with the outer side surface of the foundation wall 11.

In addition, the angle steel 3 is flush with the upper surface of the heat insulation wood block 2; the upper surface of the indoor concrete 6 is flush with the upper surface of the waterproof and vapor-barrier membrane 9 laid on the inside of the base structure.

During the specific construction, the construction method comprises the following construction steps:

(1) and (4) measuring and paying off, and marking the position of each heat insulation wood block 2 and the punching position of the angle steel 3.

(2) And sticking angle steel 3 according to the paying-off position, adding an ethylene propylene diene monomer rubber heat insulation pad, and fixing by using expansion bolts.

(3) The installation heat insulation wood block 2 is fixed with the angle steel 3 by bolts.

(4) The passive door is fixed on the heat insulation wood block 2 by a screw when the passive door frame 1 is installed.

(5) A waterproof vapor-barrier film 9 and a waterproof breathable film 7 are stuck.

(6) And pouring indoor concrete 6, and maintaining until the construction is finished.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (7)

1. The utility model provides a high-rise ultra-low energy consumption house passive door system which characterized in that: comprises a basic structure and an external structure;

the foundation structure comprises a passive door frame (1), a heat insulation wood block (2), angle steel (3) and a rubber heat insulation pad (4); the passive door frame (1) is arranged in a reserved door opening of the foundation wall body (11), and a passive door leaf (13) is arranged in the passive door frame; the heat insulation wood block (2) is embedded between the passive door frame (1) and the foundation wall body (11); the angle steel (3) is arranged on the inner side of the heat insulation wood block (2), one side of the angle steel is anchored with the heat insulation wood block (2) through a first connecting piece (5), and the other side of the angle steel is anchored with a foundation floor (12) at the bottom through a second connecting piece (8); the rubber heat insulation pad (4) is arranged between the angle steel (3) and the foundation floor slab (12);

the inner side of the foundation structure is provided with a waterproof vapor-proof membrane (9), and the outer side is provided with a waterproof vapor-permeable membrane (7);

the external structure comprises indoor concrete (6) cast on the inner side of the waterproof vapor-barrier membrane (9) in a cast-in-place manner and an external wall heat-insulating layer (10) arranged on the outer side of the waterproof vapor-permeable membrane (7).

2. The high rise, ultra low energy residential passive door system of claim 1, wherein: the bottom of the waterproof vapor-proof film (9) extends to cover the inner side surface of the joint of the foundation slab (12) and the rubber heat-insulating pad (4).

3. The high rise, ultra low energy residential passive door system of claim 1, wherein: the bottom of the outer wall heat-insulating layer (10) is covered with a connecting seam of the heat-insulating wood block (2) and the base wall body (11), and the top of the outer wall heat-insulating layer is covered with a connecting seam of the heat-insulating wood block (2) and the door frame (1).

4. The high rise, ultra low energy residential passive door system of claim 1, wherein: the outer side surface of the waterproof and breathable film (7) is flush with the outer side surface of the foundation wall body (11).

5. The high rise, ultra low energy residential passive door system of claim 1, wherein: the angle steel (3) is flush with the upper surface of the heat insulation wood block (2); the upper surface of the indoor concrete (6) is flush with the upper surface of the waterproof and steam-proof membrane (9) laid on the inner side of the foundation structure.

6. The high rise, ultra low energy residential passive door system of claim 1, wherein: the first connecting piece (5) is a bolt, and the second connecting piece (8) is an expansion bolt.

7. The high rise, ultra low energy residential passive door system of claim 1, wherein: the rubber heat insulation pad (4) is an ethylene propylene diene monomer rubber heat insulation pad.

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