CN215213254U - Low-energy-consumption node connecting structure with external sunshade door and window - Google Patents

Abstract

The utility model discloses a have outer sunshade door and window low energy consumption node connection structure contains and is located the peripheral entrance to a cave periphery structure of door and window, connects in the outside wall body of entrance to a cave periphery structure, connect in the fire prevention heat preservation inboard respectively with the wall body and the outdoor waterproof vapour proof membrane between the peripheral structure of entrance to a cave, connect the thermal-insulated cushion between thermal-insulated strip and glass below and the entrance to a cave periphery structure between fire prevention heat preservation and entrance to a cave periphery structure. The utility model is beneficial to forming an integral heat preservation system and a fixed connection system around the door and window opening through the arrangement of the inner fireproof heat preservation layer and the outer fireproof heat preservation layer; through the arrangement of the blind, the shade bracket component and the water dripping line plate, the sun shading, the heat preservation and the water drainage are facilitated while the ventilation of lighting is further ensured; the bearing support is arranged, so that the fixed connection of the curtain cover support component is facilitated, and the heat insulation strip is connected between the bearing support and the peripheral structural body of the opening, so that the heat insulation performance of the joint is ensured.

Description

Low-energy-consumption node connecting structure with external sunshade door and window

Technical Field

The utility model belongs to the building construction field, in particular to have outer sunshade door and window low energy consumption nodal connection structure.

Background

In the use process of house buildings, doors and windows are always important modes for ventilation and lighting in the buildings, but energy consumption and energy loss at the openings of the doors and windows are also important points needing attention in building energy conservation. Few conventional house door and window facilities are arranged

The specific measures of external heat preservation, external sunshade, connection fixation and the like are that facilities such as heat preservation, a sunshade curtain and the like are usually arranged in a room, so that certain loss is caused. Nowadays, under the background of design and popularization and use of green buildings, ultralow-energy-consumption buildings and the like, the original design concept and measures are not enough to meet the requirements of people on energy conservation and consumption reduction of buildings at present, and the targeted integrated design is needed.

SUMMERY OF THE UTILITY MODEL

The utility model provides a have outer sunshade door and window low energy consumption node connection structure for solve the reduction energy consumption of door and window connected node department, keep warm thermal-insulated design and the sealed fixed connection scheduling technical problem of node.

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

a low-energy-consumption node connecting structure with an external sunshade door and window comprises a hole peripheral structure body positioned on the periphery of a door and window opening, a wall body connected to the outside of the hole peripheral structure body, a fireproof heat-insulating layer and an external decoration layer connected to the outer sides of the wall body and the hole peripheral structure body, a windowsill outer plate and a windowsill inner plate connected to two sides below a window opening, glass connected to the inside of the window opening, and a blind correspondingly connected to the outer side of the glass, the structure comprises a curtain cover support assembly connected to the outer side of the top of the blind, a water dripping line plate connected between the curtain cover support assembly and the outer side of the fireproof heat-insulating layer, an outdoor waterproof vapor-barrier film connected between the inner side of the fireproof heat-insulating layer and a wall body and a hole peripheral structure body respectively, an indoor waterproof vapor-barrier film connected between the periphery of the glass and the hole peripheral structure body, and a heat-insulating strip connected between the fireproof heat-insulating layer and the hole peripheral structure body and a heat-insulating cushion block connected between the lower side of the glass and the hole peripheral structure body.

Furthermore, the fire-proof heat-insulating layer comprises an inner fire-proof heat-insulating layer and an outer fire-proof heat-insulating layer, the outer fire-proof heat-insulating layer is provided with a frame facing the outside and the outside, the frame is further connected with connecting nails, and the connecting nails sequentially penetrate through the frame, the inner fire-proof heat-insulating layer, the outer fire-proof heat-insulating layer and the wall body.

Furthermore, the lower part of the blind is connected to the windowsill outer plate and positioned in the middle of the outer fireproof heat-insulating layer, and the upper part of the blind is connected with the detachable curtain cover support assembly and the line pipe; the thickness of the curtain cover bracket component is not more than that of the outer fireproof heat-insulating layer, and a sealing belt is connected between the top of the curtain cover bracket component and the frame of the outer fireproof heat-insulating layer.

Furthermore, the curtain cover support assembly comprises an inverted U-shaped curtain cover box support and an inverted U-shaped blind curtain cover box with two side edge bottom ends provided with hooks, and the curtain cover support assembly is connected with the peripheral structure of the opening through a bearing support.

Furthermore, the bearing support is in an inverted L shape, the vertical part is connected with the peripheral structural body of the opening through a strip connecting piece, and the transverse part penetrates through the inner fireproof heat-insulating layer to be connected with the top of the curtain cover support assembly through a bolt; the heat insulation strips and the strip connecting pieces are also connected between the inner fireproof heat insulation layer and the opening peripheral structure body.

Furthermore, a heat insulation strip is connected between the vertical part of the bearing support and the peripheral structure body of the opening, the height of the heat insulation strip is not less than that of the vertical part, the lateral part of the bearing support and the curtain cover support assembly are connected with an outer side support glue at the position of the fireproof heat preservation layer, and the inner side of the bearing support is connected with a support glue sealing.

Furthermore, the water dripping line plate is a triangular plate and is obliquely arranged, and the inclination angle is suitable for the designed water dripping angle; one end of the dripping line board is provided with a right-angle notch and is correspondingly connected with the frame of the outer fireproof heat-insulating layer.

Further, a heat insulation cushion block is connected between the bottom of the glass and the inner fireproof heat insulation layer, and an outdoor waterproof vapor-proof film is arranged between the heat insulation cushion block and the fireproof heat insulation layer; the heat insulation cushion block is connected with the peripheral structure body of the hole opening through a cushion connecting piece; and sealant is also connected between the frame of the heat insulation cushion block and the outer fireproof heat insulation layer.

Furthermore, the wall body and the hole periphery structure body are also provided with an airtight layer at one indoor side, and an L-shaped corner protector is arranged at a corner.

The beneficial effects of the utility model are embodied in:

1) the utility model is beneficial to forming an integral heat preservation system and a fixed connection system around the door and window opening by arranging the inner fireproof heat preservation layer and the outer fireproof heat preservation layer on the outer side of the wall body; an outdoor waterproof vapor-barrier film is arranged between the inner fireproof heat-insulation layer and the wall body and between the inner fireproof heat-insulation layer and the peripheral structural body of the opening, so that heat insulation is further ensured;

2) the utility model is beneficial to sun shading, heat preservation and water drainage while ensuring the ventilation of lighting by arranging the blind, the curtain cover bracket component and the water dripping line board, and the blind bracket component is beneficial to fixing the blind, and the arrangement of the line pipe is beneficial to installing the automatic control circuit of the blind;

3) the utility model is beneficial to the fixed connection of the curtain cover bracket component through the arrangement of the bearing bracket, and the heat insulation strip is connected between the bearing bracket and the peripheral structural body of the opening, thereby ensuring the heat insulation performance of the joint; in addition, the lower part of the glass is also provided with a heat insulation cushion block which can also ensure the heat insulation performance around the glass joint;

in addition, the sealing performance of the door and window opening can be further ensured by arranging the sealant, the sealing belt and the airtight layer; additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention; the primary objects and other advantages of the invention may be realized and attained by the structure particularly pointed out in the written description.

Drawings

FIG. 1 is a construction schematic view of a low-energy consumption node connecting structure of an external sunshade door and window;

FIG. 2 is a schematic view of the construction of the lower part of the low-energy-consumption node connecting structure of the external sunshade door and window;

FIG. 3 is a schematic view of the partial construction of the lower part of the low-energy-consumption node connecting structure of the external sunshade door and window;

FIG. 4 is a schematic construction view of the upper part of the low-energy-consumption node connecting structure of the external sunshade door and window;

FIG. 5 is a schematic view of the upper part of the connection structure of the low-energy consumption node of the external sunshade door and window.

Reference numerals: 1-wall body, 2-opening peripheral structure, 3-fireproof heat preservation layer, 31-inner fireproof heat preservation layer, 32-outer fireproof heat preservation layer, 4-outer decoration layer, 5-connecting nail, 6-windowsill outer plate, 7-glass, 8-shutter curtain, 9-curtain cover bracket component, 10-water-dropping line plate, 11-heat insulation strip, 12-heat insulation cushion block, 13-sealant, 14-outdoor waterproof vapor-barrier film, 15-air-barrier layer, 16-indoor waterproof vapor-barrier film, 17-windowsill inner plate, 18-sealant belt, 19-cushion connecting component, 20-strip connecting component, 21-corner protector, 22-line pipe, 23-bracket connecting adhesive, 24-bracket sealing adhesive and 25-bearing bracket.

Detailed Description

As shown in figures 1 to 5, the low-energy-consumption node connecting structure with the external sunshade door and window comprises a hole peripheral structure body 2 positioned at the periphery of the door and window opening, a wall body 1 connected to the outside of the hole peripheral structure body 2, a fireproof heat-insulating layer 3 and an external decorative layer 4 connected to the wall body 1 and the outside of the hole peripheral structure body 2, a windowsill outer plate 6 and a windowsill inner plate 17 connected to two sides below a window, glass 7 connected to the inside of the window, a blind 8 correspondingly connected to the outside of the glass 7, a blind bracket assembly 9 connected to the outside of the top of the blind 8, a water dripping line plate 10 connected between the blind bracket assembly 9 and the outside of the fireproof heat-insulating layer 3, an outdoor waterproof vapor-insulating film 14 connected between the inside of the fireproof heat-insulating layer 3 and the wall body 1 and the hole peripheral structure body 2 respectively, an indoor waterproof vapor-insulating film 16 connected between the periphery of the glass 7 and the hole peripheral structure body 2, And the heat insulation strips 11 are connected between the fireproof heat insulation layer 3 and the opening peripheral structural body 2, and the heat insulation cushion blocks 12 are connected between the lower part of the glass 7 and the opening peripheral structural body 2.

In this embodiment, fire prevention heat preservation 3 contains interior fire prevention heat preservation 31 and outer fire prevention heat preservation 32, and outer fire prevention heat preservation 32 is provided with the frame towards outdoor and outside, still is connected with even nail 5 on the frame, and even nail 5 cross-under frame, interior fire prevention heat preservation 31, outer fire prevention heat preservation 32 and wall body 1 in proper order. Wherein the inner fireproof heat-insulating layer 31 is a 100mm rock wool belt, and the outer fireproof heat-insulating layer 32 is a 150mm rock wool belt.

In this embodiment, the lower part of the blind 8 is connected to the windowsill outer panel 6 and is positioned in the middle of the outer fireproof insulating layer 32, and the upper part of the blind 8 is connected with the detachable shade support assembly 9 and the conduit 22; the thickness of the curtain cover bracket assembly 9 is not more than that of the outer fireproof heat-insulating layer 32, and a sealing belt 18 is connected between the top of the curtain cover bracket assembly 9 and the frame of the outer fireproof heat-insulating layer 32. The curtain cover bracket assembly 9 is made of steel parts, the height of the curtain cover bracket assembly is 209mm, the curtain cover bracket assembly comprises an inverted U-shaped curtain cover box bracket and an inverted U-shaped blind 8 cover box with two side bottom ends provided with back hooks, and the curtain cover bracket assembly 9 is connected with the hole periphery structural body 2 through a bearing bracket 25.

In this embodiment, the support bracket 25 is made of inverted L-shaped hot-dip galvanized steel bars, the vertical portion is connected with the peripheral structure 2 of the opening through the bar connecting member 20, and the horizontal portion passes through the inner fireproof insulating layer 31 and is connected with the top bolt of the curtain cover bracket assembly 9. The heat insulation strips 11 and the strip connecting pieces 20 are further connected between the inner fireproof heat insulation layer 31 and the opening peripheral structure body 2, wherein the heat insulation strips 11 are polyurethane heat insulation strips 11, and the strip connecting pieces 20 are expansion bolts.

In this embodiment, a heat insulating strip 11 is further connected between the vertical portion of the bearing support 25 and the opening peripheral structure 2, the height of the heat insulating strip 11 is not less than that of the vertical portion, the lateral portion of the bearing support 25 and the curtain cover support assembly 9 are connected with an outer support connecting glue 23 at the inner fireproof heat insulating layer 31, and the inner side is connected with a support sealing glue 24.

In the embodiment, the water dripping line plate 10 is made of galvanized steel plates, the water dripping line plate 10 is a triangular plate and is obliquely arranged, and the inclination angle is suitable for the designed water dripping angle; the high one end of drip line board 10 is provided with the rectangular shape breach and corresponds the frame of connecting outer fire prevention heat preservation 32.

In this embodiment, a heat insulating pad 12 is further connected between the bottom of the glass 7 and the inner fireproof heat insulating layer 31, and an outdoor waterproof vapor-barrier film 14 is arranged between the heat insulating pad 12 and the fireproof heat insulating layer 3. The heat insulation cushion block 12 is connected with the hole periphery structural body 2 through a cushion connecting piece 19; and a sealant 13 is also connected between the heat insulation cushion block 12 and the frame of the outer fireproof heat insulation layer 32, the heat insulation cushion block 12 is a high-strength polyurethane heat insulation cushion block 12, and the cushion connecting piece 19 is a special expansion bolt. The wall body 1 and the opening peripheral structure body 2 are further provided with an airtight layer 15 at one indoor side, L-shaped corner protectors 21 are arranged at corners, and the corner protectors 21 are made of galvanized steel pieces.

The above description is only for the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any changes or substitutions that can be considered by those skilled in the art within the technical scope of the present invention should be covered by the protection scope of the present invention.

Claims (9)

1. The utility model provides a have outer sunshade door and window low energy consumption node connection structure, a serial communication port, contain the entrance to a cave periphery structure (2) that is located the door and window mouth periphery, connect in wall body (1) of entrance to a cave periphery structure (2) outside, connect in fire prevention heat preservation (3) and outer decorative layer (4) in wall body (1) and entrance to a cave periphery structure (2) outside, connect in windowsill planking (6) and windowsill inner panel (17) of window below both sides, connect in glass (7) of window inside, correspond and connect in blind (8) of glass (7) outside, connect in blind (8) top outside the screen cover bracket component (9), connect in the screen cover bracket component (9) and fire prevention heat preservation (3) outside drip line board (10), connect in fire prevention heat preservation (3) inboard respectively with wall body (1) and entrance to a cave periphery structure between outdoor waterproof vapour barrier (14) of (2) outside, the door and window cover, The indoor waterproof and steam-proof film (16) is connected between the periphery of the glass (7) and the peripheral structural body (2) of the opening, and the heat-insulating strip (11) is connected between the fireproof heat-insulating layer (3) and the peripheral structural body (2) of the opening, and the heat-insulating cushion block (12) is connected between the lower part of the glass (7) and the peripheral structural body (2) of the opening.

2. The connecting structure with the low-energy-consumption joints of the external sun-shading doors and windows as claimed in claim 1, wherein the fireproof heat-insulating layer (3) comprises an internal fireproof heat-insulating layer (31) and an external fireproof heat-insulating layer (32), the external fireproof heat-insulating layer (32) faces outdoors and is provided with a frame, the frame is further connected with connecting nails (5), and the connecting nails (5) sequentially penetrate through the frame, the internal fireproof heat-insulating layer (31), the external fireproof heat-insulating layer (32) and the wall body (1).

3. The structure for connecting the low-energy consumption nodes with the external sunshade doors and windows as claimed in claim 2, wherein the lower part of the blind (8) is connected to the windowsill outer panel (6) and is positioned in the middle of the external fireproof insulating layer (32), and the upper part of the blind (8) is connected with the detachable blind bracket assembly (9) and the line pipe (22); the thickness of the curtain cover bracket component (9) is not more than that of the outer fireproof heat-insulating layer (32), and a sealing belt (18) is connected between the top of the curtain cover bracket component (9) and the frame of the outer fireproof heat-insulating layer (32).

4. The connecting structure of the low energy consumption node with the external sunshade door and window of claim 2 is characterized in that the curtain bracket assembly (9) comprises an inverted U-shaped curtain box bracket and an inverted U-shaped blind (8) box with the bottom ends of two sides provided with back hooks, and the curtain bracket assembly (9) is connected with the peripheral structure body (2) of the opening through a bearing bracket (25).

5. The connecting structure of the low-energy-consumption node with the external sunshade door and window as claimed in claim 4, wherein the bearing support (25) is in an inverted L shape, the vertical part is connected with the peripheral structure body (2) of the opening through the bar connecting piece (20), and the horizontal part passes through the internal fireproof heat-insulating layer (31) and is connected with the top of the curtain cover support component (9) through a bolt; the heat insulation strips (11) and the strip connecting pieces (20) are further connected between the inner fireproof heat insulation layer (31) and the opening peripheral structure body (2).

6. The connecting structure of the low-energy-consumption node with the external sunshade door and window as claimed in claim 5, wherein a heat insulating strip (11) is further connected between the vertical portion of the bearing support (25) and the peripheral structure body (2) of the opening, the height of the heat insulating strip (11) is not less than that of the vertical portion, the lateral portion of the bearing support (25) and the curtain cover support assembly (9) are connected with the outer support at the inner fireproof insulation layer (31) through glue (23), and the inner side of the bearing support is connected with the support sealing glue (24).

7. The low-energy-consumption joint connecting structure with the external sunshade door and window as claimed in claim 2, wherein the water drip line plate (10) is a triangular plate and is arranged obliquely, and the inclination angle is adapted to the designed water drip angle; one end of the water dripping line plate (10) at the height is provided with a right-angle notch and is correspondingly connected with the frame of the outer fireproof heat-insulating layer (32).

8. The connecting structure of the low-energy-consumption node with the external sunshade door and window as claimed in claim 2, wherein a heat insulating cushion block (12) is further connected between the bottom of the glass (7) and the internal fireproof heat-insulating layer (31), and an outdoor waterproof and steam-insulating film (14) is arranged between the heat insulating cushion block (12) and the fireproof heat-insulating layer (3); the heat insulation cushion block (12) is connected with the hole periphery structural body (2) through a cushion connecting piece (19); and a sealant (13) is also connected between the heat insulation cushion block (12) and the frame of the outer fireproof heat insulation layer (32).

9. The connection structure of the low energy consumption node with the external sunshade door and window according to claim 1, characterized in that the wall body (1) and the opening peripheral structure body (2) are further provided with an air-tight layer (15) at the indoor side and an L-shaped corner protector (21) at the corner.

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