CN205713675U - A kind of energy-conservation auxiliary frame of erection of doors and windows and heat-insulation and heat-preservation integration door and window - Google Patents

Abstract

The utility model provides a kind of energy-conservation auxiliary frame of erection of doors and windows, including square tube body (1) and one group of galvanizing continuous contact pin (2)；Described galvanizing continuous contact pin (2) is Z-shaped；(2) limits of described galvanizing continuous contact pin are connected with square tube body (1) top, and described galvanizing continuous contact pin (2) is spaced 400 600mm and arranges.The energy-conservation auxiliary frame structure of erection of doors and windows simple, with low cost achieve erection of doors and windows hole standardization and heat-insulation and heat-preservation integration purpose.

Description

A kind of energy-conservation auxiliary frame of erection of doors and windows and heat-insulation and heat-preservation integration door and window

Technical field

The utility model relates to the energy-conservation auxiliary frame of a kind of erection of doors and windows of housing construction, particularly to installing before door and window at the transitional component that wall hole is pre-buried, belongs to building material field.

Background technology

From ancient times to the present, people just long for green world, and green signifies vigor, vigorous vitality, signifies to wish.But, with people's constantly a large amount of fellings to high-quality timber, the speed that forest disappears is more and more faster.According to statistics, the speed just with annual 16000000 hectares for the World Forests area disappears, annual 27000000000 tons of the loss soil in the whole world, 6000000 hectare of land desertifications, if this kind of situation continues development, in the near future, green will do not existed, thus cause that weather is abnormal, desertification, air pollution, water quality deterioration, the forest reserves are exhausted and ozone layer such as is destroyed at a series of serious consequence.Therefore, the protection of resource and environment and effectively utilizing, has become the key subjects in human kind sustainable development.

Green material refers to damage minimum, and the material of beneficially human health to earth environment in links such as raw material employing, Product processing, product use, Product recycling.At present, countries in the world are just generally devoted to the composite that the plastics such as mix polyethylene, polypropylene and polyvinyl chloride such as the corner after research and development use timber processed, wood chip and old timber are made, and are also Wood-plastic material or wood plastic composite.

Utility model content

Technical problem: in order to solve the defect of prior art, the utility model provides a kind of energy-conservation auxiliary frame of erection of doors and windows.

Technical scheme: the energy-conservation auxiliary frame of a kind of erection of doors and windows that the utility model provides, including square tube body and one group of galvanizing continuous contact pin；Described galvanizing continuous contact pin is Z-shaped；One limit of described galvanizing continuous contact pin is connected with square tube bodies top, and described galvanizing continuous contact pin interval 400-600mm is arranged.

The utility model additionally provides a kind of heat-insulation and heat-preservation integration door and window, including the energy-conservation auxiliary frame of concrete wall, erection of doors and windows, doorframe or window frame, polyurethane foam oxidant layer, silicone weatherproof sealant coating, waterproof mortar packed layer；It is from outer to inner sequentially provided with exterior coating layer, finishing mucilage layer, heat-insulation layer, cement mortar screeding layer in the outside of concrete wall, be from outer to inner sequentially provided with indoor decorative paint layer, interior painting layer in the inner side of concrete wall；Being provided with heat-insulation mortar bed, inner side in the outside of concrete wall and the joint face of sash and being provided with interior painting layer, heat-insulation mortar bed and interior painting layer is provided with mounting groove；The energy-conservation auxiliary frame of described erection of doors and windows includes square tube body and one group of galvanizing continuous contact pin；Described galvanizing continuous contact pin is Z-shaped, and one bar limit is connected with square tube bodies top, and another limit is fixed in interior painting layer；It is provided with waterproof mortar packed layer between described galvanizing continuous contact pin and concrete wall；Described square tube body is connected opposite face and is connected with doorframe or window frame by polyurethane foam oxidant layer with galvanizing continuous contact pin；Outside described polyurethane foam oxidant layer or inner side is provided with silicone weatherproof sealant coating.

Improving as another kind, described galvanizing continuous contact pin interval 400-600mm is arranged.

Improving as another kind, described square tube body is screwed in polyurethane foam oxidant layer.

Improving as another kind, described galvanizing continuous contact pin is fixed on square tube body by screw.

Improving as another kind, described galvanizing continuous contact pin is fixed on concrete wall by nailing.

Improving as another kind, the thickness of described galvanizing continuous contact pin is 10-15mm.

Beneficial effect: the energy-conservation auxiliary frame structure of the erection of doors and windows integrated purpose achieving the standardization of erection of doors and windows hole and heat-insulation and heat-preservation simple, with low cost that the utility model provides.

The energy-conservation auxiliary frame of erection of doors and windows of the present utility model is to install before door and window at the transitional component that wall hole is pre-buried, door and window is connected with the effective of body of wall by it, eliminate the Seepage producing because of joint filling leakiness at door and window housing periphery and wall connecting, solve the common quality defect of windowsill infiltration well；Additionally, energy-conservation auxiliary frame material water absorption rate (24h) is less than or equal to 0.5%.

The energy-conservation auxiliary frame of erection of doors and windows of the present utility model i.e. can be installed after main body builds completion by laying bricks or stones; auxiliary frame is closely knit with waterproof mortar filling before interior exterior rendering; door and window then inner-outer wall plaster, the civil engineering construction such as coating rendering finish after install again; decrease cross-operation; infringement and the pollution that sash is brought by civil engineering can be prevented effectively from, make door and window finished product obtain effective protection.

Door and window can be played a scale, the effect of positioning by the energy-conservation auxiliary frame of erection of doors and windows of the present utility model.In general, after the door-window opening of building builds up, size is lack of standardization.Auxiliary frame is installed when being disposed at hole or will finish, auxiliary frame positioning is finished, and door and window size and position determine that, can relatively accurately measure door and window processing dimension, only need due to door and window disposably to fill afterwards, more quick, specification, the beneficially control of the installation quality of door and window are installed.

Erection of doors and windows of the present utility model energy-conservation auxiliary frame thermal conductivity factor (25 DEG C) is not more than 0.2W/ (m.K), manufactured goods section thickness direction thermal resistance be not less than 0.28 (.K)/W, responded national Building Energy Conservation Policy, improve living environment level of comfort.

Erection of doors and windows of the present utility model energy-conservation auxiliary frame resistance to elevated temperatures is good, and 120 DEG C of 2h inner surfaces are flawless, bubble-free, without pit, indeformable, MOR >=31.5, reduces the dilatation phenomenon that door and window produces because expanding with heat and contract with cold to a certain extent.

The energy-conservation auxiliary frame of erection of doors and windows of the present utility model uses section bar hardness (HRR) >=the 58th, nail-holding ability >=4000N as square tube body, to have anti-aging, good stability, intensity advantages of higher.

Brief description

Fig. 1 is the structural representation of the utility model heat-insulation and heat-preservation integration door and window.

Detailed description of the invention

Below in conjunction with the accompanying drawings the utility model is made and further illustrating.

The energy-conservation auxiliary frame of erection of doors and windows, is shown in Fig. 1, including square tube body 1 and one group of galvanizing continuous contact pin 2；Galvanizing continuous contact pin 2 is Z-shaped；2 one limits of galvanizing continuous contact pin are connected with square tube body 1 top, and galvanizing continuous contact pin 2 is spaced 400-600mm and arranges.

Heat-insulation and heat-preservation integration door and window, is shown in Fig. 1, including the energy-conservation auxiliary frame of concrete wall the 3rd, erection of doors and windows, doorframe or window frame the 4th, polyurethane foam oxidant layer the 5th, silicone weatherproof sealant coating the 6th, waterproof mortar packed layer 7；It is from outer to inner sequentially provided with exterior coating layer the 11st, finishing mucilage layer the 12nd, heat-insulation layer the 13rd, cement mortar screeding layer 14 in the outside of concrete wall 3, be from outer to inner sequentially provided with indoor decorative paint layer the 15th, interior painting layer 16 in the inner side of concrete wall 3；Be provided with heat-insulation mortar bed 17th, inner side in the outside of concrete wall 3 and the joint face of sash and be provided with interior painting layer 16, heat-insulation mortar bed 17 and interior painting layer 16 be provided with mounting groove 18；The energy-conservation auxiliary frame of erection of doors and windows includes square tube body 1 and one group of galvanizing continuous contact pin 2；Galvanizing continuous contact pin 2 is Z-shaped, and one bar limit is connected with square tube body 1 top, and another limit is fixed in interior painting layer 16；It is provided with waterproof mortar packed layer 7 between galvanizing continuous contact pin 2 and concrete wall 3；Square tube body 1 is connected opposite face with galvanizing continuous contact pin 2 and is connected with doorframe or window frame 4 by polyurethane foam oxidant layer 5；Outside polyurethane foam oxidant layer 5 or inner side is provided with silicone weatherproof sealant coating 6.Square tube body 1 is fixed in polyurethane foam oxidant layer 5 by screw 8.Galvanizing continuous contact pin 2 is fixed on square tube body 1 by screw 9.Galvanizing continuous contact pin 2 is fixed on concrete wall 3 by nailing 10.The thickness of galvanizing continuous contact pin 2 is 10-15mm；Galvanizing continuous contact pin 2 is spaced 400-600mm and arranges.

Claims (7)

1. the energy-conservation auxiliary frame of an erection of doors and windows, it is characterised in that: include square tube body (1) and one group of galvanizing continuous contact pin (2)；Described galvanizing continuous contact pin (2) is Z-shaped；(2) limits of described galvanizing continuous contact pin are connected with square tube body (1) top, and described galvanizing continuous contact pin (2) interval 400-600mm is arranged.

2. a heat-insulation and heat-preservation integration door and window, it is characterised in that: include concrete wall (3), the energy-conservation auxiliary frame of erection of doors and windows, doorframe or window frame (4), polyurethane foam oxidant layer (5), silicone weatherproof sealant coating (6), waterproof mortar packed layer (7)；It is from outer to inner sequentially provided with exterior coating layer (11), finishing mucilage layer (12), heat-insulation layer (13), cement mortar screeding layer (14) in the outside of concrete wall (3), be from outer to inner sequentially provided with indoor decorative paint layer (15), interior painting layer (16) in the inner side of concrete wall (3)；Be provided with heat-insulation mortar bed (17) in the outside of concrete wall (3) and the joint face of sash, inner side is provided with interior painting layer (16), and heat-insulation mortar bed (17) and interior painting layer (16) are provided with mounting groove (18)；The energy-conservation auxiliary frame of described erection of doors and windows includes square tube body (1) and one group of galvanizing continuous contact pin (2)；Described galvanizing continuous contact pin (2) is Z-shaped, and one bar limit is connected with square tube body (1) top, and another limit is fixed in interior painting layer (16)；It is provided with waterproof mortar packed layer (7) between described galvanizing continuous contact pin (2) and concrete wall (3)；Described square tube body (1) is connected opposite face and is connected with doorframe or window frame (4) by polyurethane foam oxidant layer (5) with galvanizing continuous contact pin (2)；Described polyurethane foam oxidant layer (5) outside or inner side are provided with silicone weatherproof sealant coating (6).

3. a kind of heat-insulation and heat-preservation integration door and window according to claim 2, it is characterised in that: described galvanizing continuous contact pin (2) interval 400-600mm is arranged.

4. a kind of heat-insulation and heat-preservation integration door and window according to claim 2, it is characterised in that: described square tube body (1) is fixed in polyurethane foam oxidant layer (5) by screw (8).

5. a kind of heat-insulation and heat-preservation integration door and window according to claim 2, it is characterised in that: described galvanizing continuous contact pin (2) is fixed on square tube body (1) by screw (9).

6. a kind of heat-insulation and heat-preservation integration door and window according to claim 2, it is characterised in that: described galvanizing continuous contact pin (2) is fixed on concrete wall (3) by nailing (10).

7. a kind of heat-insulation and heat-preservation integration door and window according to claim 2, it is characterised in that: the thickness of described galvanizing continuous contact pin (2) is 10-15mm.