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

Abstract

A kind of aluminium wood composite lifting push-pull energy-saving door and window system, it is primarily of doorframe and window frame and be placed in the two bar compositions that doorframe and window frame can move left and right, described bar comprises fan frame and the hard-wired glass in centre, described doorframe and window frame is connected by aluminium extruded sections moulding up and down and forms aluminum section frame, and be compounded with wooden frame in the indoor of aluminum section frame, described fan frame is connected by section aluminum sash moulding up and down and forms section aluminum sash frame, and wood fan frame is compounded with in the indoor of section aluminum sash frame, with inside and outside two upper rails on the upper aluminium extruded sections moulding of described aluminum section frame, on lower aluminium extruded sections moulding, correspondence is provided with two lower guideways, at least be provided with in the middle of the lower aluminium extruded sections moulding of the upper aluminium extruded sections moulding of described aluminum section frame and section aluminum sash frame two parallel connect heat insulationly wear bar and form heat-insulating bridge-cut-off structure, aluminium extruded sections moulding and lower aluminum section frame bar is made to form the multi-cavity structure with better effect of heat insulation, it has rational in infrastructure, compact, easy to install and use, namely has the high strength of aluminium alloy extrusions, has again the heat insulation of wood section, the features such as insulation and decorate properties.

Description

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

Technical field

The utility model relates to a kind of aluminium wood composite lifting push-pull energy-saving door and window system, belong to building doors and windows technical field.

Background technology

Contemporary society, environmental protection and energy saving are trend and the emphasis of entire society's development, and as the eyes " door and window " in building trade, this requires the more obvious of embodiment.Be directed to the aluminium alloy sliding door in current construction market and lifting sliding door, along with the lengthening of service time, very easily occur that sealing joint strip (comprising wool top) weares and teares, thus affect the tightness of door and window entirety, watertightness and thermal and insulating performance, and aluminium alloys heat transfer is fast, poor thermal insulation property, not good with interior decoration matching effect.

Summary of the invention

The purpose of this utility model is the deficiency overcoming prior art existence, and provide a kind of rational in infrastructure, compact, easy to install and use, namely there is the high strength of aluminium alloy extrusions, there is again the heat insulation of wood section, insulation composite lifting push-pull energy-saving door and window system wooden with the aluminium of decorate properties.

The purpose of this utility model has been come by following technical solution, a kind of aluminium wood composite lifting push-pull energy-saving door and window system, it is primarily of doorframe and window frame and be placed in the two bar compositions that doorframe and window frame can move left and right, described bar comprises fan frame and the hard-wired glass in centre, described doorframe and window frame is connected by aluminium extruded sections moulding up and down and forms aluminum section frame, and be compounded with wooden frame in the indoor of aluminum section frame, described fan frame is connected by section aluminum sash moulding up and down and forms section aluminum sash frame, and wood fan frame is compounded with in the indoor of section aluminum sash frame, with inside and outside two upper rails on the upper aluminium extruded sections moulding of described aluminum section frame, on lower aluminium extruded sections moulding, correspondence is provided with two lower guideways, at least be provided with in the middle of the lower aluminium extruded sections moulding of the upper aluminium extruded sections moulding of described aluminum section frame and section aluminum sash frame two parallel connect heat insulationly wear bar and form heat-insulating bridge-cut-off structure, aluminium extruded sections moulding and lower aluminum section frame bar is made to form the multi-cavity structure with better effect of heat insulation.

The strip adoption of the aluminum section frame up and down 90 ° connection of aluminum section frame described in the utility model, the moulding of section aluminum sash up and down of described section aluminum sash frame adopts 45 ° of connections, and in 45 ° of neighboring chambers organized between section aluminum sash moulding adjacent in angle, be plugged with corner brace 32 and fix with pin, in adjacent cavity, be separately injected with group angle glue;

The wooden frame of described aluminum section frame and section aluminum sash frame indoor compound and wood fan frame add round tenon rod by respective moulding up and down by dovetail respectively and fluid sealant is formed by connecting.

The upper aluminium extruded sections moulding of aluminum section frame described in the utility model is upper is plugged with upper rail card article between inside and outside two upper rails, and at the upper lower guideway card article that is plugged with between two lower guideways of lower aluminium extruded sections moulding; Behind described section aluminum sash frame group angle, its suitable for reading and end opening is compressed into adhesive tape respectively and is snapped in the fan activity envelope block that can prevent about opening door-leaf suitable for reading; Described aluminum section frame is pressed into respectively behind group angle adhesive tape.

Wherein outer side edges in the left and right section aluminum sash moulding of section aluminum sash frame described in the utility model is furnished with aluminium alloys shrouding mutually, one block of plastics shrouding is equipped with between this aluminium alloys shrouding and the indoor side of section aluminum sash frame, on this plastics shrouding, penetrate shrouding adhesive tape simultaneously, separately on the notch of the indoor side of aluminium alloys shrouding, penetrate weather strip;

The indoor of described aluminum section frame and section aluminum sash frame is left 3.5mm gap between the wooden frame of compound and wood fan frame respectively and is adopted special connecting piece to connect.

Have at least a fan to be sliding door sash in two bars described in the utility model, in the upper transverse frame of this sliding door sash, snapped in plastic adjustable envelope block;

Side door capable of being opened frame and the opposite side fixed gate frame of described doorframe and window frame are made up of difform aluminium extruded sections moulding, wherein the upper rail both sides on doorframe and window frame top are identical aluminium extruded sections, the lower guideway both sides of bottom are different aluminium extruded sectionss, and wherein lower guideway is drop height type structure, centre insulated rubber strip cuts off thus forms three larger cavitys.

The beneficial effects of the utility model are, aluminium wood composite lifting sliding door not only achieves the especially big unlatching effect that sliding door cannot realize, simultaneously due to the ingenious use of many places seal, also solve the problem of large door capable of being opened upper and lower, left and right sealing difference, solve crack to ventilate and antitheft problem, solve sliding door and all load-carryings of fan are transferred to thinking on guide rail in the process promoted by pulley, not only open flexibly, the simultaneously also larger application life extending door and window; Double-deck bridge cut-off achieves heat-proof quality to greatest extent; Outer aluminium fully adapts to various weatherability, and interior wood is fresh and clean meets the pursuit of people to warm living space.

The utility model has rational in infrastructure, compact, easy to install and use, namely has the high strength of aluminium alloy extrusions, has again the heat insulation of wood section, the features such as insulation and decorate properties.

Accompanying drawing explanation

Fig. 1 is the overall structure schematic diagram of aluminium described in the utility model wood composite lifting sliding door.

Fig. 2 is the vertical sectional structure schematic diagram of aluminium described in the utility model wood composite lifting sliding door.

Fig. 3 is the horizontal sectional structure schematic diagram of aluminium described in the utility model wood composite lifting sliding door.

Fig. 4 is wood section group angle described in the utility model sectional structure schematic diagram.

Fig. 5 is aluminium extruded sections group angle described in the utility model sectional structure schematic diagram.

Detailed description of the invention

Below in conjunction with accompanying drawing, further detailed description is done to the utility model: shown in Fig. 1-3, a kind of aluminium wood composite lifting push-pull energy-saving door and window system described in the utility model, it is primarily of doorframe and window frame 1 and be placed in two bars 2 that doorframe and window frame 1 can move left and right and form, described bar 2 comprises fan frame 3 and the hard-wired glass 4 in centre, described doorframe and window frame 1 is connected by aluminium extruded sections moulding up and down and forms aluminum section frame, and be compounded with wooden frame 5 in the indoor of aluminum section frame, described fan frame 3 is connected by section aluminum sash moulding up and down and forms section aluminum sash frame, and wood fan frame 6 is compounded with in the indoor of section aluminum sash frame, with inside and outside two upper rails 7 on the upper aluminium extruded sections moulding of described aluminum section frame, on lower aluminium extruded sections moulding, correspondence is provided with two lower guideways 8, at least be provided with the two parallel insulated rubber strips 9 that connect in the middle of the lower aluminium extruded sections moulding of the upper aluminium extruded sections moulding of described aluminum section frame and section aluminum sash frame and form heat-insulating bridge-cut-off structure, aluminium extruded sections moulding and lower aluminum section frame bar is made to form the multi-cavity structure with better effect of heat insulation.

Shown in Fig. 4,5, the moulding of aluminium extruded sections up and down 10 of described aluminum section frame adopts 90 ° of connections, the moulding of section aluminum sash up and down 11 of described section aluminum sash frame adopts 45 ° of connections, and in 45 ° of neighboring chambers organized between section aluminum sash moulding adjacent in angle, be plugged with corner brace 12 and fix with pin 13, in adjacent cavity, be separately injected with group angle glue 14;

The wooden frame 5 of described aluminum section frame and section aluminum sash frame indoor compound and wood fan frame 6 add round tenon rod 16 by respective moulding up and down by dovetail 15 respectively and fluid sealant is formed by connecting.

Shown in Fig. 1-3, the upper aluminium extruded sections moulding of described aluminum section frame is upper is plugged with upper rail card article 17 between inside and outside two upper rails 7, and at the upper lower guideway card article 18 that is plugged with between two lower guideways of lower aluminium extruded sections moulding; Behind described section aluminum sash frame group angle, its suitable for reading and end opening is compressed into adhesive tape 19,20 respectively and is snapped in the fan activity envelope block 21 that can prevent about opening door-leaf suitable for reading; Described aluminum section frame is pressed into respectively behind group angle adhesive tape 20,22.

Wherein outer side edges in the left and right section aluminum sash moulding of section aluminum sash frame described in the utility model is furnished with aluminium alloys shrouding 23 mutually, one block of plastics shrouding 24 is equipped with between this aluminium alloys shrouding 23 and the indoor side of section aluminum sash frame, on this plastics shrouding 24, penetrate shrouding adhesive tape 25 simultaneously, separately on the notch of the indoor side of aluminium alloys shrouding 23, penetrate weather strip 26.

The indoor of described aluminum section frame and section aluminum sash frame is left 3.5mm gap between the wooden frame of compound and wood fan frame respectively and is adopted special connecting piece 29 to connect.

Side door capable of being opened frame 27 and the opposite side fixed gate frame 28 of described doorframe and window frame are made up of difform aluminium extruded sections moulding, wherein upper rail 7 both sides on doorframe and window frame top are identical aluminium extruded sections, lower guideway 8 both sides of bottom are different aluminium extruded sectionss, and wherein lower guideway is drop height type structure, centre insulated rubber strip cuts off thus forms three larger cavitys.

Embodiment:

Mainly the few aluminium of wood is many for the utility model section bar feature used, and aluminium extruded sections adopts heat-insulating bridge-cut-off structure, be out of shape little, to pass to coefficient low.Indoor surface is natural wood vein, nature, attractive in appearance be easy to interior decoration melt into one; Outdoor face is aluminium alloys, solves the problem that timber outside is easily corroded, and adds the rich and varied property of door, improve the decorate properties of a color.

Shown in Fig. 2,3: in aluminium extruded sections design, the utility model adopts heat-insulating bridge-cut-off structure, and door capable of being opened frame 27 and fixed gate frame 28 are had any different, and wear bar side and adopt identical aluminium extruded sections; Upper rail 7 both sides are identical aluminium extruded sections and lower guideway 8 both sides is different aluminium extruded sectionss, and lower guideway is drop height type structure, and centre insulated rubber strip 9 cuts off, and forms three larger cavitys; The cavity of frame, fan material is all multi-cavity structure, makes section bar have extraordinary effect of heat insulation.

Shown in Fig. 5: in the design of assembly structure, the assembling that aluminium door frame and aluminium door are fanned adopts 90 ° and 45 ° to be connected respectively, 45 ° group angle time adopt corner brace 12 add pin 13 structure, and in cavity note group angle glue 14.

Shown in Fig. 4: indoor timber connect time with dovetail add round tenon rod and fluid sealant connect.Not only technique is simple, easy to operate compared with other organize angle Joining Technology, and is guaranteed in intensity.

The utility model is in structure design, and doorframe, door leaf all adopt plastic material and EPDM material to carry out heat insulation and insulation, and in Fig. 1, upper rail 7 inserted upper rail card article 17 before group angle, and same lower guideway 8 inserted lower guideway card article 18 before group angle; After opening door-leaf group angle is good, suitable for reading and end opening is compressed into adhesive tape 19 and 20 respectively and is snapped in about fan activity envelope block 21 prevents opening door-leaf suitable for reading; Doorjamb 27 is pressed into adhesive tape 20 and 22 respectively; Shown in Fig. 2, heat insulation employing plastic material between fan and fan and Ethylene Propylene Terpolymer material isolates, namely between shrouding 23 and fan material, add one block of plastics shrouding 24, on plastics shrouding 24, penetrate shrouding adhesive tape 25 simultaneously, aluminium alloys shrouding 23 notch penetrates weather strip 26.The heat-insulation and heat-preservation sealing performance effectively ensureing lifting sliding door is designed by the connected structure of above-mentioned plastic material and aluminium alloy extrusions.

Shown in Fig. 2,3: doorjamb press-in adhesive tape 20,22, fan upper and lower opening adopts press-in adhesive tape 19,20 to seal respectively, effectively can not only intercept the propagation of sound, build good indoor noise environment quality, ensure that the high grade requirements of energy saving door and window to tightness, watertightness simultaneously, greatly improve insulation, heat-proof quality.

Shown in figure: leave 3.5mm gap between aluminium with timber and adopt special connecting piece 29 to be connected, distortion can be eliminated and the impact that produces, thus avoid the quality problems that cause due to epidemic disaster change.

Shown in Fig. 2,3: the lower guideway 8 of aluminium wood composite lifting sliding door adopts the structure of drop height type, and not only pass in and out easy, and be beneficial to draining, the utilization of lower guideway card article 18, further can reach insulation requirement, outward appearance is generous attractive in appearance, also can prevent aqueous reflux.

Shown in figure: snap in plastic adjustable envelope block 21 in slip fan upper transverse frame, in door leaf motion process, ensure that door leaf does not occur to swing or derailing, can closely be fixed on doorframe guide rail when door leaf closes.Adopt said structure, make sliding door easier for installation, especially big door can arrive building-site and assemble, and decreases many exposed fasteners simultaneously, makes sliding door more elegant in appearance.

The utility model not only solves the sealing problem of aluminium alloy sliding door and lifting sliding door, and while ensure that the various performance such as stability, heat-insulation and heat-preservation of door, timber has good decorative property, elegant in appearance, the feature that heat-insulating property is superior.

The aluminium wood composite lifting sliding door that the utility model provides fully can meet the requirement of building door, curtain wall product, is adapted at energy-saving doors, energy-saving curtain wall field adopts in a large number.

Claims (5)

1. an aluminium wood composite lifting push-pull energy-saving door and window system, it is primarily of doorframe and window frame and be placed in the two bar compositions that doorframe and window frame can move left and right, described bar comprises fan frame and the hard-wired glass in centre, described doorframe and window frame is connected by aluminium extruded sections moulding up and down and forms aluminum section frame, and be compounded with wooden frame in the indoor of aluminum section frame, described fan frame is connected by section aluminum sash moulding up and down and forms section aluminum sash frame, and wood fan frame is compounded with in the indoor of section aluminum sash frame, with inside and outside two upper rails on the upper aluminium extruded sections moulding that it is characterized in that described aluminum section frame, on lower aluminium extruded sections moulding, correspondence is provided with two lower guideways, at least be provided with in the middle of the lower aluminium extruded sections moulding of the upper aluminium extruded sections moulding of described aluminum section frame and section aluminum sash frame two parallel connect heat insulationly wear bar and form heat-insulating bridge-cut-off structure, aluminium extruded sections moulding and lower aluminum section frame bar is made to form the multi-cavity structure with better effect of heat insulation.

2. aluminium wood composite lifting push-pull energy-saving door and window system according to claim 1, it is characterized in that the strip adoption of the aluminum section frame up and down 90 ° connection of described aluminum section frame, the moulding of section aluminum sash up and down of described section aluminum sash frame adopts 45 ° of connections, and in 45 ° of neighboring chambers organized between section aluminum sash moulding adjacent in angle, be plugged with corner brace and fix with pin, in adjacent cavity, be separately injected with group angle glue;

The wooden frame of described aluminum section frame and section aluminum sash frame indoor compound and wood fan frame add round tenon rod by respective moulding up and down by dovetail respectively and fluid sealant is formed by connecting.

3. aluminium wood composite lifting push-pull energy-saving door and window system according to claim 1 and 2, it is characterized in that the upper aluminium extruded sections moulding of described aluminum section frame is upper and be plugged with upper rail card article between inside and outside two upper rails, and at the upper lower guideway card article that is plugged with between two lower guideways of lower aluminium extruded sections moulding; Behind described section aluminum sash frame group angle, its suitable for reading and end opening is compressed into adhesive tape respectively and is snapped in the fan activity envelope block that can prevent about opening door-leaf suitable for reading; Described aluminum section frame is pressed into respectively behind group angle adhesive tape.

4. aluminium wood composite lifting push-pull energy-saving door and window system according to claim 3, it is characterized in that the wherein outer side edges in the left and right section aluminum sash moulding of described section aluminum sash frame is furnished with aluminium alloys shrouding mutually, one block of plastics shrouding is equipped with between this aluminium alloys shrouding and the indoor side of section aluminum sash frame, on this plastics shrouding, penetrate shrouding adhesive tape simultaneously, separately on the notch of the indoor side of aluminium alloys shrouding, penetrate weather strip; The indoor of described aluminum section frame and section aluminum sash frame is left 3.5mm gap between the wooden frame of compound and wood fan frame respectively and is adopted special connecting piece to connect.

5. aluminium wood composite lifting push-pull energy-saving door and window system according to claim 1, is characterized in that having at least a fan to be sliding door sash in two described bars, has snapped in plastic adjustable envelope block in the upper transverse frame of this sliding door sash;

Side door capable of being opened frame and the opposite side fixed gate frame of described doorframe and window frame are made up of difform aluminium extruded sections moulding, wherein the upper rail both sides on doorframe and window frame top are identical aluminium extruded sections, the lower guideway both sides of bottom are different aluminium extruded sectionss, and wherein lower guideway is drop height type structure, centre insulated rubber strip cuts off thus forms three larger cavitys.