CN110005314A - A kind of full aluminium door and window production method of energy conservation - Google Patents

Abstract

The present invention provides a kind of full aluminium door and window production method of energy conservation, the screw hole of perforation is provided on the corner of its outer corner brace, bolt passes through screw hole, it is each provided with and is used for and the first doorframe in the two-arm of outer corner brace, the protrusion of second doorframe engaging, the length direction of the two-arm of interior corner brace is formed with the interior angle intersymbol gap of perforation two-arm, two outer corner braces are oppositely arranged two interior corner braces of package, support base is provided on the corner of two outer corner braces, the both ends connecting support seat of connecting rod, idler wheel is configured in connecting rod, idler wheel includes support rod, one end of support rod is provided with cylinder groove, the mounted inside of cylinder groove has spring, the other end of spring connects idler wheel, sliding rail in idler wheel and sash cooperates, the sliding rail of sash includes horizontal part and arc sections, the both ends of horizontal part are arranged in arc sections, the corner of sash is arranged in arc sections, positioned at sash The arc sections of top upwardly extend, and the arc sections below sash extend downwardly.

Description

A kind of full aluminium door and window production method of energy conservation

Technical field

The present invention relates to full aluminium door and window fields, in particular to a kind of full aluminium door and window production method of energy conservation.

Background technique

Aluminium door is to process surface-treated aluminium alloy extrusions through blanking, punching, groove milling, tapping, production, assembling etc. The doorframe component that technical face is fabricated to, then be assembled together with connector, sealing material, opening and closing Hardware fitting, glass.

But it while relatively soft due to the quality of full aluminium door and window easy Carving Machining, is easily produced in later period use process Change shape, to increase the replacement frequency of door and window, manufactures more door and window rubbish, not environmentally.

Summary of the invention

The purpose of the present invention is to provide a kind of full aluminium door and window production methods of energy conservation, can increase the stabilization of full aluminium door and window Property, the replacement frequency of door and window is reduced, to reach energy-saving and environment-friendly purpose.

The embodiment of the present invention is achieved in that

A kind of full aluminium door and window production method of energy conservation, the full aluminium door and window of energy conservation include sash and the door that is slidably connected with sash Fan, door leaf include Door leaf frame and the glass fan that portion inside the door/window frame is arranged, which includes two and upper and lower ends are arranged in The second doorframe of the left and right sides is arranged in first doorframe and two and the corner brace for connecting the first doorframe and the second doorframe connects The inside of fitting, the first doorframe and the second doorframe filled with fire prevention slurry, corner brace connector include outer corner brace, interior corner brace, bolt, Connecting rod and idler wheel, outer corner brace have corner made of two-arm and two-arm intersection, are provided with perforation on the corner of outer corner brace Screw hole, bolt pass through screw hole, are each provided in the two-arm of outer corner brace for the protrusion with the first doorframe, the engaging of the second doorframe, interior Corner made of corner brace has two-arm and intersects with two-arm, the length direction of the two-arm of interior corner brace are formed with the interior angle of perforation two-arm Intersymbol gap, interior angle intersymbol gap interior corner brace corner be connected to, bolt include taper front end and cylindrical main part, interior corner brace Gap is smaller than the outer diameter of the main part of bolt in the corner positions of interior corner brace, and two outer corner braces are oppositely arranged two interior angles of package Code, is provided with support base on the corner of two outer corner braces, the both ends connecting support seat of connecting rod, configured with idler wheel in connecting rod, Idler wheel includes support rod, and one end of support rod is provided with cylinder groove, and the mounted inside of cylinder groove has spring, and the other end of spring connects Idler wheel is connect, the sliding rail in idler wheel and sash cooperates, and the sliding rail of sash includes horizontal part and arc sections, and arc sections are arranged in water The corner of sash is arranged in the both ends in flat portion, arc sections, and the arc sections above sash upwardly extend, and is located at door and window Arc sections below frame extend downwardly.

In the preferred embodiment, above-mentioned to include the following steps:

Step 1: door and window frame parts, door leaf part are prepared respectively；Aluminium sheet is cut according to production requirement, is embossed, is curved Foldable type obtains single sash up and down, the first doorframe and the second doorframe；Then to sash up and down, first Doorframe and the second doorframe are punched, are painted, are dried；

Step 2: by injection fire prevention slurry in the first doorframe and the second doorframe, then product elder generation after molding room temperature is conserved It 3-5 hours, is dried 4 hours with 120 DEG C of drying temperatures；

Step 3: it is assembled, sash after molding is completed using laser welding and assembling；Then by first after molding Frame, the second doorframe are connected and fixed with corner brace connector, and the first doorframe and the second doorframe after molding assemble glass fan；

Step 4: assembly again installs door leaf inside the door/window frame after sash is mounted in wall.

In the preferred embodiment, the fire proofing material in above-mentioned steps two includes: vermiculite 41-42.8%；Silicic acid Sodium or potassium dihydrogen phosphate 4-4.8%；Cellulose 1.6-4%；Bamboo pulp 1.5-3%；Zeolite 0.8-2.4%；Quartz sand 14.4- 17.6%；Cement 8.8-13.6%, water 20%.

In the preferred embodiment, above-mentioned vermiculite passes through expanding treatment, includes the following steps: to put vermiculite raw material It sets in puffing furnace, the preset temperature of puffing furnace is 500-800 DEG C, and the puffing time of vermiculite raw material is 15-20s.

In the preferred embodiment, above-mentioned fire proofing material is put into the stirring of blender high speed in proportion 15-20min is mixed evenly.

In the preferred embodiment, the above-mentioned fire prevention slurry that will be stirred evenly is injected into first by high-pressure pump In frame and the second doorframe, opening has been closed with shaping glue after filling.

In the preferred embodiment, inside injection the second fire prevention slurry of above-mentioned sash, the second fire prevention slurry Including following ingredient: perlite 26.4-40%, sodium metasilicate or potassium dihydrogen phosphate 4-4.8%；Cellulose 5.6-6.8%, tourmaline 0.4-8%, quartz sand 15.2-18.4%；Cement 12.8-17.6%；Water 20%.

In the preferred embodiment, above-mentioned perlite is the perlite by expanding treatment；Expanding treatment be by Perlite raw material is placed in puffing furnace in 600-900 DEG C, is formed by 10s extruding.

In the preferred embodiment, the above-mentioned raw material by the second fire proofing material passes through blender high-speed stirred 5- 10min is mixed evenly.

In the preferred embodiment, above-mentioned the second fire proofing material that will will be stirred evenly is injected by high-pressure pump In the blank pipe of sash, blank pipe mouth is sealed with shaping glue after filling, room temperature sizing maintenance 3-5 hours, is dried with 120 DEG C of drying temperatures 4 hours.

The beneficial effect of the embodiment of the present invention is: being marked in the sash and Door leaf frame of full aluminium door and window in the present invention Fire prevention slurry, is attached for increasing the fire protecting performance of door and window, and on the quadrangle of Door leaf frame by corner brace connector, angle Code connector is provided with outer corner brace and interior corner brace, for increasing the stability of the first doorframe and the connection of the second doorframe, connects in corner brace Connecting rod and idler wheel are additionally provided at fitting for facilitating Door leaf frame to move inside the door/window frame, idler wheel is connected by support rod, branch Strut is hidden in push-and-pull in exterior angle intersymbol gap in the vertical direction, is connected between support rod and idler wheel by spring Connect so that the shock-absorbing function of Door leaf frame is reinforced, when door leaf in off position when, idler wheel at this time is located at the top of curved portion, bullet Spring draws door leaf, guarantees the stability of door leaf.

Detailed description of the invention

In order to illustrate the technical solution of the embodiments of the present invention more clearly, below will be to needed in the embodiment attached Figure is briefly described, it should be understood that the following drawings illustrates only certain embodiments of the present invention, therefore is not construed as pair The restriction of range for those of ordinary skill in the art without creative efforts, can also be according to this A little attached drawings obtain other relevant attached drawings.

Fig. 1 is the door and window upper left corner structural schematic diagram of the embodiment of the present invention；

Fig. 2 is the door and window production flow diagram of the embodiment of the present invention；

Icon: 100- sash；The first doorframe of 200-；The second doorframe of 300-；400- corner brace connector；The outer corner brace of 410-； Corner brace in 420-；430- bolt；440- connecting rod；450- idler wheel；460- spring；110- horizontal part；120- arc sections.

Specific embodiment

In order to make the object, technical scheme and advantages of the embodiment of the invention clearer, below in conjunction with the embodiment of the present invention In attached drawing, technical scheme in the embodiment of the invention is clearly and completely described, it is clear that described embodiment is A part of the embodiment of the present invention, instead of all the embodiments.The present invention being usually described and illustrated herein in the accompanying drawings is implemented The component of example can be arranged and be designed with a variety of different configurations.

Therefore, the detailed description of the embodiment of the present invention provided in the accompanying drawings is not intended to limit below claimed The scope of the present invention, but be merely representative of selected embodiment of the invention.Based on the embodiments of the present invention, this field is common Technical staff's every other embodiment obtained without creative efforts belongs to the model that the present invention protects It encloses.

It should also be noted that similar label and letter indicate similar terms in following attached drawing, therefore, once a certain Xiang Yi It is defined in a attached drawing, does not then need that it is further defined and explained in subsequent attached drawing.

In the description of the present invention, it should be noted that term " center ", "upper", "lower", "left", "right", "vertical", The orientation or positional relationship of the instructions such as "horizontal", "inner", "outside" is to be based on the orientation or positional relationship shown in the drawings, or be somebody's turn to do Invention product using when the orientation or positional relationship usually put, be merely for convenience of description of the present invention and simplification of the description, without It is that the device of indication or suggestion meaning or element must have a particular orientation, be constructed and operated in a specific orientation, therefore not It can be interpreted as limitation of the present invention.In addition, term " first ", " second ", " third " etc. are only used for distinguishing description, and cannot manage Solution is indication or suggestion relative importance.

In addition, the terms such as term "horizontal", "vertical", " pendency " are not offered as requiring component abswolute level or pendency, and It is that can be slightly tilted.It is not to indicate the structure if "horizontal" only refers to that its direction is more horizontal with respect to for "vertical" It has to fully horizontally, but can be slightly tilted.

In the description of the present invention, it is also necessary to which explanation is unless specifically defined or limited otherwise, term " setting ", " installation ", " connected ", " connection " shall be understood in a broad sense, for example, it may be fixedly connected, may be a detachable connection or one Connect to body；It can be mechanical connection, be also possible to be electrically connected；It can be directly connected, it can also be indirect by intermediary It is connected, can be the connection inside two elements.For the ordinary skill in the art, on being understood with concrete condition State the concrete meaning of term in the present invention.

First embodiment

Referring to Figure 1, the present embodiment provides a kind of full aluminium door and window production methods of energy conservation, and the full aluminium door and window of energy conservation includes sash 100 and the door leaf that is slidably connected with sash 100, door leaf includes Door leaf frame and the glass fan that is arranged in sash 100 inside, this Door leaf frame includes two the first doorframes 200 that upper and lower ends are arranged in and two the second doorframes 300 that the left and right sides is set, with And the corner brace connector 400 for connecting the first doorframe 200 and the second doorframe 300, the first doorframe 200 and the second doorframe 300 Filled with fire prevention slurry, corner brace connector 400 includes outer corner brace 410, interior corner brace 420, bolt 430, connecting rod 440 and rolling for inside Wheel 450, outer corner brace 410 have corner made of two-arm and two-arm intersection, the spiral shell of perforation are provided on the corner of outer corner brace 410 Hole, bolt 430 pass through screw hole, are each provided in the two-arm of outer corner brace 410 for engaging with the first doorframe 200, the second doorframe 300 Protrusion, corner made of interior corner brace 420 has two-arm and intersects with two-arm, the length direction of the two-arm of interior corner brace 420 formed There is 420 gap of interior corner brace of perforation two-arm, interior 420 gap of corner brace is connected in the corner of interior corner brace 420, and bolt 430 includes taper Front end and cylindrical main part, interior 420 gap of corner brace interior corner brace 420 corner positions than bolt 430 main part Outer diameter is small, and two outer corner braces 410 are oppositely arranged two interior corner braces 420 of package, is provided with support on the corner of two outer corner braces 410 Seat, the both ends connecting support seat of connecting rod 440 are configured with idler wheel 450 in connecting rod 440, and idler wheel 450 includes support rod, support One end of bar is provided with cylinder groove, and the mounted inside of cylinder groove has spring 460, and the other end of spring 460 connects idler wheel 450, rolling Wheel 450 cooperates with the sliding rail in sash 100, and the sliding rail of sash 100 includes horizontal part 110 and arc sections 120, arc sections 120 are arranged in the both ends of horizontal part 110, and the corner of sash 100 is arranged in arc sections 120, above sash 100 Arc sections 120 upwardly extend, and the arc sections 120 positioned at 100 lower section of sash extend downwardly.

Fig. 2 is referred to, it is in the preferred embodiment, above-mentioned to include the following steps:

Step 1: 100 part of sash, door leaf part are prepared respectively；Aluminium sheet is cut according to production requirement, is pressed Flower, bending forming, obtain single sash 100 up and down, the first doorframe 200 and the second doorframe 300；Then to a upper and lower left side Right sash 100, the first doorframe 200 and the second doorframe 300 are punched, are painted, are dried；

Step 2: by injection fire prevention slurry in the first doorframe 200 and the second doorframe 300, then product after molding is first normal Temperature maintenance 3-5 hours, is dried 4 hours with 120 DEG C of drying temperatures；

Step 3: it is assembled, sash 100 after molding is completed using laser welding and assembling；Then by after molding One doorframe 200, the second doorframe 300 are connected and fixed with corner brace connector 400, the first doorframe 200 after molding and the second doorframe 300 Assemble glass fan；

Step 4: door leaf is mounted in sash 100 by assembly again after sash 100 is mounted in wall.

In the preferred embodiment, the fire proofing material in above-mentioned steps two includes: vermiculite 41-42.8%；Silicic acid Sodium or potassium dihydrogen phosphate 4-4.8%；Cellulose 1.6-4%；Bamboo pulp 1.5-3%；Zeolite 0.8-2.4%；Quartz sand 14.4- 17.6%；Cement 8.8-13.6%, water 20%.

In the preferred embodiment, above-mentioned vermiculite passes through expanding treatment, includes the following steps: to put vermiculite raw material It sets in puffing furnace, the preset temperature of puffing furnace is 500-800 DEG C, and the puffing time of vermiculite raw material is 15-20s.

In the preferred embodiment, above-mentioned fire proofing material is put into the stirring of blender high speed in proportion 15-20min is mixed evenly.

In the preferred embodiment, the above-mentioned fire prevention slurry that will be stirred evenly is injected into first by high-pressure pump In frame 200 and the second doorframe 300, opening has been closed with shaping glue after filling.

In the preferred embodiment, inside injection the second fire prevention slurry of above-mentioned sash 100, the second fire prevention slurry Material includes following ingredient: perlite 26.4-40%, sodium metasilicate or potassium dihydrogen phosphate 4-4.8%；Cellulose 5.6-6.8%, electrically Stone 0.4-8%, quartz sand 15.2-18.4%；Cement 12.8-17.6%；Water 20%.

In the preferred embodiment, above-mentioned perlite is the perlite by expanding treatment；Expanding treatment be by Perlite raw material is placed in puffing furnace in 600-900 DEG C, is formed by 10s extruding.

In the preferred embodiment, the above-mentioned raw material by the second fire proofing material passes through blender high-speed stirred 5- 10min is mixed evenly.

In the preferred embodiment, above-mentioned the second fire proofing material that will will be stirred evenly is injected by high-pressure pump In the blank pipe of sash 100, blank pipe mouth is sealed with shaping glue after filling, it is room temperature sizing maintenance 3-5 hours, warm with 120 DEG C of drying Degree dries 4 hours.

In conclusion being marked with fire prevention slurry in the sash 100 and Door leaf frame of full aluminium door and window in the present invention, it is used for Increase the fire protecting performance of door and window, and is attached on the quadrangle of Door leaf frame by corner brace connector 400, corner brace connector 400 are provided with outer corner brace 410 and interior corner brace 420, for increasing the stability of the first doorframe 200 and the connection of the second doorframe 300, It is additionally provided with connecting rod 440 at corner brace connector 400 and idler wheel 450 is used to that Door leaf frame to be facilitated to move in sash 100, idler wheel 450 are connected by support rod, and support rod is hidden in 410 gap of outer corner brace in the vertical direction in push-and-pull, in support rod and Be attached between idler wheel 450 by spring 460 so that the shock-absorbing function of Door leaf frame is reinforced, when door leaf in off position when, this When idler wheel 450 be located at the top of curved portion, spring 460 draws door leaf, guarantees the stability of door leaf.

Present specification describes the example of the embodiment of the present invention, it is not meant to that these embodiments illustrate and describe this All possible forms of invention.It should be understood that the embodiment in specification can be implemented with a variety of alternative forms.Attached drawing is without in proportion It draws；Some features can be zoomed in or out to show the details of particular elements.Disclosed specific structure and function details should not Make limited interpretation, only those skilled in the art is instructed to implement representative basis of the invention in a variety of forms.In the art It should be understood to the one skilled in the art that the multiple features illustrated and described with reference to either figure can with said in one or more of the other attached drawing Bright feature combination is to form the embodiment for not yet explicitly illustrating or describing.The assemblage characteristic of explanation provides the generation for being used for typical case Table embodiment.It is answered however, can according to need with the multiple combinations of the consistent feature of the teachings of the present invention and modification for specific With or implement.

The foregoing is only a preferred embodiment of the present invention, is not intended to restrict the invention, for the skill of this field For art personnel, the invention may be variously modified and varied.All within the spirits and principles of the present invention, made any to repair Change, equivalent replacement, improvement etc., should all be included in the protection scope of the present invention.

Claims (10)

1. a kind of full aluminium door and window production method of energy conservation, the full aluminium door and window of energy conservation includes sash and connects with sash sliding The door leaf connect, the door leaf include Door leaf frame and the glass fan that is arranged in inside the sash, which is characterized in that the door leaf Frame includes two the first doorframes that upper and lower ends are arranged in and two are arranged in the second doorframe of the left and right sides and for connecting The inside of the corner brace connector of first doorframe and the second doorframe, first doorframe and second doorframe is filled with fire prevention slurry Material, the corner brace connector include outer corner brace, interior corner brace, bolt, connecting rod and idler wheel, and the outer corner brace has two-arm and two Corner made of arm intersection is provided with the screw hole of perforation on the corner of the outer corner brace, and the bolt passes through the screw hole, described It is each provided in the two-arm of outer corner brace for the protrusion with first doorframe, the engaging of the second doorframe, the interior corner brace has two Arm and corner made of intersecting with two-arm, the length direction of the two-arm of the interior corner brace are formed with the interior angle intersymbol of perforation two-arm Gap, the interior angle intersymbol gap the interior corner brace corner be connected to, the bolt include taper front end and cylindrical main body Portion, the interior angle intersymbol gap is smaller than the outer diameter of the main part of the bolt in the corner positions of the interior corner brace, and two described outer Corner brace is oppositely arranged two interior corner braces of package, is provided with support base, the connecting rod on the corner of described two outer corner braces Both ends connect the support base, be configured with idler wheel in the connecting rod, the idler wheel includes support rod, the one of the support rod End is provided with cylinder groove, and the mounted inside of the cylinder groove has spring, and the other end of the spring connects the idler wheel, the rolling Wheel cooperates with the sliding rail in the sash, and the sliding rail of the sash includes horizontal part and arc sections, the arc sections setting At the both ends of the horizontal part, the corner of the sash is arranged in the arc sections, the institute above the sash It states arc sections to upwardly extend, the arc sections below the sash extend downwardly.

2. the full aluminium door and window production method of energy conservation according to claim 1, which comprises the steps of:

Step 1: door and window frame parts, door leaf part are prepared respectively；Aluminium sheet is cut according to production requirement, is embossed, is bent into Type obtains single sash up and down, the first doorframe and the second doorframe；Then to sash up and down, the first doorframe It punched, painted, dried with the second doorframe；

Step 2: by injection fire prevention slurry in the first doorframe and the second doorframe, then product elder generation after molding room temperature maintenance 3-5 is small When, it is dried 4 hours with 120 DEG C of drying temperatures；

Step 3: it is assembled, sash after molding is completed using laser welding and assembling；Then by the first doorframe after molding, Second doorframe is connected and fixed with corner brace connector, and the first doorframe and the second doorframe after molding assemble glass fan；

Step 4: door leaf is mounted in the sash by assembly again after sash is mounted in wall.

3. the full aluminium door and window production method of energy conservation according to claim 2, which is characterized in that the fire proofing wood in the step 2 Material includes: vermiculite 41-42.8%；Sodium metasilicate or potassium dihydrogen phosphate 4-4.8%；Cellulose 1.6-4%；Bamboo pulp 1.5-3%；Zeolite 0.8-2.4%；Quartz sand 14.4-17.6%；Cement 8.8-13.6%, water 20%.

4. the full aluminium door and window production method of energy conservation according to claim 3, which is characterized in that the vermiculite is by extruding Reason, includes the following steps: for the vermiculite raw material to be placed in puffing furnace, and the preset temperature of the puffing furnace is 500-800 DEG C, The puffing time of the vermiculite raw material is 15-20s.

5. the full aluminium door and window production method of energy conservation according to claim 4, which is characterized in that by the fire proofing material by than Example is put into blender high speed stirring 15-20min and is mixed evenly.

6. the full aluminium door and window production method of energy conservation according to claim 5, which is characterized in that the fire prevention slurry that will be stirred evenly It is injected into the first doorframe and the second doorframe by high-pressure pump, has closed opening with shaping glue after filling.

7. the full aluminium door and window production method of energy conservation according to claim 2, which is characterized in that the inside of the sash is injected Second fire prevention slurry, the second fire prevention slurry includes following ingredient: perlite 26.4-40%, sodium metasilicate or potassium dihydrogen phosphate 4-4.8%；Cellulose 5.6-6.8%, tourmaline 0.4-8%, quartz sand 15.2-18.4%；Cement 12.8-17.6%；Water 20%.

8. the full aluminium door and window production method of energy conservation according to claim 7, which is characterized in that the perlite is by extruding The perlite of processing；The expanding treatment is perlite raw material to be placed in puffing furnace in 600-900 DEG C, by 10s extruding At.

9. the full aluminium door and window production method of energy conservation according to claim 8, which is characterized in that by the raw material of the second fire proofing material It is mixed evenly by blender high-speed stirred 5-10min.

10. the full aluminium door and window production method of energy conservation according to claim 9, which is characterized in that will will stir evenly second Fire proofing material is injected into the blank pipe of sash by high-pressure pump, seals blank pipe mouth, room temperature sizing maintenance with shaping glue after filling It 3-5 hours, is dried 4 hours with 120 DEG C of drying temperatures.