CN204590993U - A kind of aluminium wood composite lifting push-pull energy-saving door and window system - Google Patents

Abstract

An aluminum-wood composite lifting and sliding energy-saving door and window system, which is mainly composed of a door and window frame and two door and window sashes that are arranged on the door and window frame and can move left and right. The door and window sashes include a fan frame and glass fixed in the middle. The frame is formed by connecting upper, lower, left and right aluminum profile frame strips, and a wooden frame is compounded on the indoor side of the aluminum profile frame. , and a wooden fan frame is compounded on the indoor side of the aluminum profile fan frame. The upper aluminum profile frame bar of the aluminum profile frame has two inner and outer upper guide rails, and the lower aluminum profile frame bar is correspondingly provided with two lower guide rails. The upper aluminum profile frame strip of the aluminum profile frame and the lower aluminum profile frame strip of the aluminum profile fan frame are at least provided with two parallel heat-insulating piercing strips to form a heat-insulating bridge structure; the upper aluminum profile frame bar and the The lower aluminum profile frame bar forms a multi-cavity structure with good heat insulation effect; it has a reasonable structure, compact structure, and is easy to use and install. It has the high strength of aluminum alloy profiles and the heat insulation, heat preservation and decorative properties of wood profiles. Features.

Description

An aluminum-wood composite lifting push-pull energy-saving door and window system

technical field

The utility model relates to an aluminum-wood composite lifting push-pull energy-saving door and window system, which belongs to the technical field of building doors and windows.

Background technique

In contemporary society, environmental protection and energy saving are the trend and focus of the development of the whole society, and as the eyes "doors and windows" in the construction industry, this requirement is more obvious. For the aluminum alloy sliding doors and lifting sliding doors in the current construction market, as the use time increases, the sealing strips (including tops) are prone to wear and tear, which will affect the overall airtightness, watertightness and thermal insulation of doors and windows Performance, and aluminum alloy has fast heat transfer, poor thermal insulation performance, and poor matching effect with interior decoration.

Contents of the invention

The purpose of the utility model is to overcome the deficiencies of the prior art, and provide an aluminum alloy with reasonable structure, compact structure, convenient use and installation, which has the high strength of aluminum alloy profiles and the heat insulation, heat preservation and decorative properties of wood profiles. Wood composite lifting and sliding energy-saving door and window system.

The purpose of this utility model is accomplished through the following technical proposals, an aluminum-wood composite lifting push-pull energy-saving door and window system, which is mainly composed of a door and window frame and two door and window sashes that are arranged on the door and window frame and can move left and right, the door and window sashes Including the fan frame and the glass fixedly installed in the middle, the door and window frame is formed by connecting the upper, lower, left and right aluminum profile frame bars, and a wooden frame is compounded on the indoor side of the aluminum profile frame, and the fan frame is composed of upper, lower The left and right aluminum profile fan frame strips are connected to form an aluminum profile fan frame, and a wooden fan frame is compounded on the indoor side of the aluminum profile fan frame. The upper aluminum profile frame strip of the aluminum profile frame has two inner and outer upper guide rails. Two lower guide rails are correspondingly arranged on the lower aluminum profile frame bar, and at least two parallel heat-insulating piercing bars are arranged between the upper aluminum profile frame bar of the aluminum profile frame and the lower aluminum profile frame bar of the aluminum profile fan frame. Constitute a heat-insulating bridge structure; make the upper aluminum profile frame bar and the lower aluminum profile frame bar form a multi-cavity structure with better heat insulation effect.

The upper, lower, left, and right aluminum profile frame bars of the aluminum profile frame described in the utility model are connected at 90°, and the upper, lower, left, and right aluminum profile frame bars of the aluminum profile fan frame are connected at 45°, and the adjacent aluminum profiles in the 45° group angle Corner codes 32 are plugged into adjacent cavities between profile fan frame strips and fixed with pins, and group corner glue is injected into adjacent cavities;

The wooden frame and the wooden fan frame compounded on the interior side of the aluminum profile frame and the aluminum profile fan frame are respectively formed by connecting the upper, lower, left, and right frame strips through dovetail tenons, round tenon rods and sealant.

The upper aluminum profile frame strip of the aluminum profile frame described in the utility model is inserted between the inner and outer two upper guide rails with an upper guide rail clip, and the lower aluminum profile frame bar is inserted between the two lower guide rails with a lower guide rail Clipping strips; after the aluminum profile fan frame is assembled, rubber strips are pressed into the upper and lower openings respectively, and movable sealing blocks are inserted in the upper port to prevent the left and right sides of the fan from being opened; the aluminum profile frame is placed at the corner After that, press in the rubber strips respectively.

The outer side of the left and right aluminum profile fan frame strips of the aluminum profile fan frame described in the utility model is equipped with an aluminum alloy sealing plate, and a plastic seal is provided between the aluminum alloy sealing plate and the indoor side of the aluminum profile fan frame. plate, and at the same time, a sealing strip is penetrated on the plastic sealing plate, and a sealing strip is penetrated on the notch on the indoor side of the aluminum alloy sealing plate;

There is a gap of 3.5 mm between the composite wooden frame and the wooden fan frame on the indoor side of the aluminum profile frame and the aluminum profile fan frame, and they are connected by special connectors.

At least one of the two doors and windows described in the utility model is a sliding door and window, and a plastic movable sealing block is inserted into the upper horizontal frame of the sliding door and window;

The open door frame on one side of the door and window frame and the fixed door frame on the other side are composed of aluminum profile frame strips of different shapes, wherein the upper guide rails on the upper part of the door and window frame are made of the same aluminum profiles on both sides, and the lower guide rails on the lower part are made of different profiles. The aluminum profile, and the lower guide rail is a drop structure, and the middle is separated by a heat-insulating rubber strip to form three larger cavities.

The beneficial effect of the utility model is that the aluminum-wood composite lifting sliding door not only realizes the extra-large opening effect that cannot be realized by the sliding door, but also solves the problem of sealing the upper, lower, left, and right sides of the large-opening door due to the ingenious use of multiple seals. The problem of poor performance solves the problem of crack ventilation and anti-theft, and solves the idea of transferring all the load of the door to the guide rail through the pulley during the pushing process of the sliding door. It not only opens flexibly, but also greatly prolongs the service life of doors and windows. ;The double-layer broken bridge maximizes the heat insulation performance; the outer aluminum fully adapts to various weather resistance, and the inner wood is fresh and natural to meet people's pursuit of a warm living space.

The utility model has the characteristics of reasonable and compact structure, convenient use and installation, not only has the high strength of aluminum alloy profiles, but also has the characteristics of heat insulation, heat preservation and decoration of wood profiles.

Description of drawings

Figure 1 is a schematic diagram of the overall structure of the aluminum-wood composite lifting sliding door of the present invention.

Fig. 2 is a vertical cross-sectional structural schematic diagram of the aluminum-wood composite lifting sliding door described in the utility model.

Fig. 3 is a schematic cross-sectional structure diagram of the aluminum-wood composite lifting sliding door of the present invention.

Fig. 4 is a schematic cross-sectional structure diagram of a wood profile group according to the utility model.

Fig. 5 is a schematic cross-sectional structure diagram of an aluminum profile group according to the utility model.

Detailed ways

The utility model is described in further detail below in conjunction with the accompanying drawings: As shown in Figures 1-3, a kind of aluminum-wood composite lifting push-pull energy-saving door and window system described in the utility model is mainly composed of a door and window frame 1 and is placed on the door and window frame 1 Two door and window sashes 2 that can move left and right are composed. The door and window sashes 2 include a fan frame 3 and a glass 4 fixedly installed in the middle. A wooden frame 5 is compounded on the indoor side of the aluminum profile frame, and the above-mentioned fan frame 3 is formed by joining the upper, lower, left, and right aluminum profile fan frame strips to form an aluminum profile fan frame, and a wooden fan frame is compounded on the indoor side of the aluminum profile fan frame 6. The upper aluminum profile frame bar of the aluminum profile frame has two inner and outer upper guide rails 7, and the lower aluminum profile frame bar is correspondingly provided with two lower guide rails 8. The upper aluminum profile frame bar of the aluminum profile frame and the In the middle of the lower aluminum profile frame bar of the aluminum profile fan frame, there are at least two heat-insulating adhesive strips 9 connected in parallel to form a heat-insulating bridge structure, so that the upper aluminum profile frame bar and the lower aluminum profile frame bar form a better heat insulation Effect of the multi-cavity structure.

As shown in Figures 4 and 5, the upper, lower, left, and right aluminum profile frame bars 10 of the aluminum profile frame are connected at 90°, and the upper, lower, left, and right aluminum profile frame bars 11 of the aluminum profile fan frame are connected at 45°, and are connected at 45° Corner brackets 12 are plugged into adjacent cavities between the adjacent aluminum profile sash bars in the corner and fixed with pins 13, and group corner glue 14 is injected into adjacent cavities;

The wooden frame 5 and the wooden fan frame 6 compounded on the interior side of the aluminum profile frame and the aluminum profile fan frame are respectively formed by connecting the upper, lower, left, and right frame strips through dovetail tenon 15, round tenon rod 16 and sealant.

As shown in Figure 1-3, the upper aluminum profile frame bar of the aluminum profile frame is located between the inner and outer two upper guide rails 7, and the upper guide rail clip 17 is inserted, and the lower aluminum profile frame bar is located between the two lower guide rails. There is a lower guide rail clamping strip 18 inserted between them; after the aluminum profile fan frame sets corners, rubber strips 19 and 20 are pressed into the upper and lower openings respectively, and the movable seals on the left and right sides of the fan can be prevented from being snapped into the upper opening. Block 21; the aluminum profile frame is respectively pressed with rubber strips 20 and 22 after the corners are assembled.

The outer sides of the left and right aluminum profile fan frame strips of the aluminum profile fan frame described in the utility model are equipped with an aluminum alloy sealing plate 23, and an additional piece is provided between the aluminum alloy sealing plate 23 and the indoor side of the aluminum profile fan frame. The plastic sealing plate 24 penetrates the sealing plate rubber strip 25 on the plastic sealing plate 24 simultaneously, and penetrates the sealing strip 26 on the notch on the indoor side of the aluminum alloy sealing plate 23 in addition.

There is a gap of 3.5 mm between the composite wooden frame and the wooden fan frame on the indoor side of the aluminum profile frame and the aluminum profile fan frame, which are connected by special connectors 29 .

The open door frame 27 on one side of the door and window frame and the fixed door frame 28 on the other side are made of aluminum profile frame strips of different shapes, wherein both sides of the upper guide rail 7 on the upper part of the door and window frame are the same aluminum profiles, and the lower guide rail 8 on the lower part The two sides are made of different aluminum profiles, and the lower guide rail is a drop structure, and the middle is separated by heat-insulating rubber strips to form three larger cavities.

Example:

The profile used in the utility model is mainly characterized by less wood and more aluminum, and the aluminum profile adopts a heat-insulating broken bridge structure, which has small deformation and low transmission coefficient. The interior surface is made of wood with natural texture, natural, beautiful and easy to be integrated into the interior decoration; the exterior surface is made of aluminum alloy, which solves the problem that the outside of the wooden door is easily corroded, and increases the variety of doors and improves the decorative performance of the door color. .

As shown in Figures 2 and 3: In terms of aluminum profile design, the utility model adopts a heat-insulating broken bridge structure, and the opening door frame 27 and the fixed door frame 28 are different, and the same aluminum profile is used on the side of the strip; the upper guide rail 7 two The sides are the same aluminum profile and the lower guide rail 8 is made of different aluminum profiles on both sides. The lower guide rail is a drop structure, and the middle is separated by a heat-insulating rubber strip 9 to form three larger cavities; the cavity of the frame and fan material Both are multi-cavity structures, so that the profiles have a very good heat insulation effect.

As shown in Figure 5: In the design of the assembly structure, the assembly of the aluminum door frame and the aluminum door leaf is connected by 90° and 45° respectively, and the corner code 12 plus pin 13 structure is used for the 45° assembly angle, and the assembly angle glue is injected into the cavity 14.

As shown in Figure 4: when the indoor wood is connected, it is connected with a dovetail tenon plus a round tenon rod and a sealant. Compared with other group corner connection processes, not only the process is simple, the operation is convenient, but also the strength is guaranteed.

In terms of structural design of the utility model, the door frame and the door leaf are all made of plastic materials and EPDM materials for heat insulation and heat preservation. In Figure 1, the upper guide rail 7 is inserted into the upper guide rail clip 17 before the corner assembly, and the lower guide rail 8 is also inserted before the corner assembly. Insert the lower guide rail clamping strip 18; after opening the fan group corners, press the upper and lower openings into the rubber strips 19 and 20 respectively, and insert the fan movable sealing block 21 at the upper opening to prevent the left and right sides of the opening fan; the door frame 27 is respectively pressed into the glue Bars 20 and 22; as shown in Figure 2, the heat insulation between fans is separated by plastic materials and EPDM materials, that is, a plastic sealing plate 24 is added between the sealing plate 23 and the fan material, and at the same time The sealing strip 25 is penetrated on the plastic sealing plate 24, and the sealing strip 26 is penetrated on the notch of the aluminum alloy sealing plate 23. Through the plug-in structure design of the above-mentioned plastic profiles and aluminum alloy profiles, the thermal insulation and sealing performance of the sliding door can be effectively guaranteed to be improved.

As shown in Figures 2 and 3: the door frame is pressed with rubber strips 20 and 22, and the upper and lower openings of the fan are respectively sealed with pressed rubber strips 19 and 20, which can not only effectively block the transmission of sound, create a good indoor acoustic environment quality, but also ensure It meets the high-level requirements of energy-saving doors and windows for air tightness and water tightness, and greatly improves the performance of heat preservation and heat insulation.

As shown in the figure: there is a gap of 3.5 mm between the aluminum and the wood, and the special connecting piece 29 is used to connect, which can eliminate the influence of deformation, thereby avoiding quality problems caused by changes in temperature and humidity.

As shown in Figures 2 and 3, the lower guide rail 8 of the aluminum-wood composite lifting sliding door adopts a drop-type structure, which is not only easy to enter and exit, but also facilitates drainage. The application of the lower guide rail clip 18 can further meet the heat insulation requirements and has a generous appearance Beautiful and prevents water from flowing back.

As shown in the figure: a plastic movable block 21 is snapped into the upper horizontal frame of the sliding leaf to ensure that the door leaf does not swing or derail during the movement of the door leaf, and can be tightly fixed on the door frame guide rail when the door leaf is closed. The adoption of the above-mentioned structure makes the installation of the sliding door more convenient, and the special door can be assembled on the construction site. At the same time, many exposed fasteners are reduced, making the sliding door more beautiful and elegant.

The utility model not only solves the sealing problem of the aluminum alloy sliding door and the lifting sliding door, but also ensures the stability of the door, heat insulation and other performances, and at the same time, the wood has good decorative properties, beautiful appearance, and excellent heat preservation performance. specialty.

The aluminum-wood composite lifting sliding door provided by the utility model can fully meet the requirements of building doors and curtain wall products, and is suitable for being widely used in the fields of energy-saving doors and energy-saving curtain walls.

Claims (5)

1. An aluminum-wood composite lifting push-pull energy-saving door and window system, which is mainly composed of a door and window frame and two door and window sashes that are arranged on the door and window frame and can move left and right. The door and window frame of the door and window frame is formed by joining the upper, lower, left and right aluminum profile frame strips, and a wooden frame is compounded on the indoor side of the aluminum profile frame. A fan frame, and a wooden fan frame is compounded on the indoor side of the aluminum profile fan frame, which is characterized in that the upper aluminum profile frame bar of the aluminum profile frame has two inner and outer upper guide rails, and the lower aluminum profile frame bar is correspondingly provided with Two lower guide rails, the upper aluminum profile frame bar of the aluminum profile frame and the lower aluminum profile frame bar of the aluminum profile fan frame are provided with at least two parallel heat-insulating piercing bars to form a heat-insulating bridge structure; The aluminum profile frame bar and the lower aluminum profile frame bar form a multi-cavity structure with good heat insulation effect. 2. The aluminum-wood composite lifting push-pull energy-saving door and window system according to claim 1, characterized in that the upper, lower, left, and right aluminum profile frame strips of the aluminum profile frame are connected at 90°, and the upper, lower, left, and right aluminum profile fans of the aluminum profile fan frame The frame bars are connected at 45°, and corner codes are inserted into the adjacent cavities between the adjacent aluminum profile fan frame bars in the 45° group angle and fixed with pins, and the group is injected into the adjacent cavity corner glue; The wooden frame and the wooden fan frame compounded on the interior side of the aluminum profile frame and the aluminum profile fan frame are respectively formed by connecting the upper, lower, left, and right frame strips through dovetail tenons, round tenon rods and sealant. 3. The aluminum-wood composite lifting push-pull energy-saving door and window system according to claim 1 or 2, characterized in that the upper aluminum profile frame bar of the aluminum profile frame is inserted between the inner and outer two upper guide rails with an upper guide rail clip , and on the lower aluminum profile frame bar, there is a lower guide rail clamping strip inserted between the two lower guide rails; after the aluminum profile fan frame sets corners, rubber strips are pressed into the upper and lower openings respectively, and the upper opening is clamped Insert movable sealing blocks to prevent the left and right sides of the fan from being opened; the aluminum profile frame is respectively pressed with rubber strips after the corners are assembled. 4. The aluminum-wood composite lifting push-pull energy-saving door and window system according to claim 3, characterized in that the outer sides of the left and right aluminum profile fan frame bars of the aluminum profile fan frame are equipped with aluminum alloy sealing plates, and the aluminum alloy fan frame A plastic sealing plate is added between the sealing plate and the indoor side of the aluminum profile fan frame. At the same time, a sealing strip is penetrated on the plastic sealing plate, and another is threaded on the notch on the indoor side of the aluminum alloy sealing plate. Insert the sealing strip; the aluminum profile frame and the indoor side of the aluminum profile fan frame are respectively composited with a 3.5mm gap between the wooden frame and the wooden fan frame and are connected by special connectors. 5. The aluminum-wood composite lifting push-pull energy-saving door and window system according to claim 1, characterized in that at least one of the two doors and windows is a sliding door and window, and the upper horizontal frame of the sliding door and window is clipped with plastic movable block; The open door frame on one side of the door and window frame and the fixed door frame on the other side are composed of aluminum profile frame strips of different shapes, wherein the upper guide rails on the upper part of the door and window frame are made of the same aluminum profiles on both sides, and the lower guide rails on the lower part are made of different profiles. The aluminum profile, and the lower guide rail is a drop structure, and the middle is separated by a heat-insulating rubber strip to form three larger cavities.