CN111706215A - Novel heat-insulating energy-saving aluminum alloy door and window and installation method thereof - Google Patents

Abstract

The invention discloses a novel heat-insulating energy-saving aluminum alloy door and window, which comprises an aluminum alloy door and window frame, a fixed window structure, two groups of movable window structures and at least four groups of fixed components. The novel heat-insulating energy-saving aluminum alloy door and window has the advantages that the overall appearance is attractive and beautiful, the novel heat-insulating energy-saving aluminum alloy door and window is particularly suitable for being installed on a balcony, the lighting is good, the indoor ventilation and brightness can be realized, a wide environment atmosphere is created, indoor personnel can easily keep a pleasant good mood, the physical and mental health of the indoor personnel is facilitated, the installation is very convenient, the novel heat-insulating energy-saving aluminum alloy door and window is particularly suitable for being installed after the house is built and decorated, the problem that manpower and material resources are consumed due to the fact that the novel heat-insulating energy-saving aluminum alloy door and window needs to be cleaned again when the house is decorated can be avoided, the assembly is convenient, the assembly efficiency can be effectively improved, the heat-insulating energy-saving effect is good, the noise insulation effect is good.

Description

Novel heat-insulating energy-saving aluminum alloy door and window and installation method thereof

Technical Field

The invention relates to the technical field of doors and windows, in particular to a novel heat-insulating energy-saving aluminum alloy door and window and an installation method thereof.

Background

The aluminum alloy door and window is made of aluminum alloy as the name implies, and the aluminum alloy door and window in the prior art is not beautiful in overall appearance, is not suitable for being installed on a balcony, is poor in lighting, is difficult to make the interior transparent and bright, is difficult to create a wide environment atmosphere, is difficult for indoor personnel to keep pleasant mood and is not beneficial to physical and psychological health of the indoor personnel; secondly, the aluminum alloy doors and windows in the prior art are not convenient to install, are not suitable for being installed after the house is built and finished, and are difficult to avoid the problem that the house is polluted during decoration and needs to be cleaned again, so that the manpower and material resources are consumed; in addition, the aluminum alloy doors and windows in the prior art are not convenient to assemble, so that the assembly efficiency is low; in addition, aluminum alloy door and window among the prior art, it is not too good to keep warm energy-conserving effect, and the effect of separating the noise is also not too good moreover, especially is difficult to provide a quiet warm comfortable environment for indoor personnel in winter, is unfavorable for indoor personnel's physical and mental health.

Therefore, a novel heat-insulating energy-saving aluminum alloy door and window is provided.

Disclosure of Invention

The technical task of the invention is to provide a novel heat-insulating energy-saving aluminum alloy door and window aiming at the defects, the integral appearance is beautiful, the balcony window is particularly suitable for being installed on a balcony, the lighting is good, the indoor space can be transparent and bright, a wide environment atmosphere is created, indoor personnel can easily keep pleasant mood, the physical and mental health of the indoor personnel is facilitated, the installation is very convenient, and the balcony window is particularly suitable for being installed after the house is built and decorated, can avoid the problem of manpower and material consumption caused by cleaning the novel heat-insulating energy-saving aluminum alloy door and window again due to pollution when a house is decorated, is convenient to assemble, can effectively improve the assembly efficiency, has better heat-insulating and energy-saving effects, the noise insulation effect is good, particularly, a quiet and warm comfortable environment can be provided for indoor personnel in winter, and physical and psychological health of the indoor personnel is facilitated, so that the problems are solved.

The technical scheme of the invention is realized as follows:

a novel heat-insulating energy-saving aluminum alloy door and window comprises an aluminum alloy door and window frame, fixed window structures, two groups of movable window structures and at least four groups of fixed components, wherein a middle mounting groove is reserved in the middle of the aluminum alloy door and window frame, two side mounting grooves are reserved on two sides of the aluminum alloy door and window frame, and the two side mounting grooves are symmetrically arranged around the middle mounting groove;

the fixed window structures are fixedly arranged in the middle mounting groove, the two groups of movable window structures are respectively movably arranged in the two side mounting grooves, and at least four groups of fixed assemblies are arranged on the periphery of the aluminum alloy door and window frame;

the fixed window structure comprises a first square blocking frame, a first shielding assembly and a first square fixed frame, the first square blocking frame is fixedly installed inside the middle installation groove, the first square blocking frame is aligned with the outer side face of the aluminum alloy door and window frame, the first shielding assembly is fixedly packaged inside the middle installation groove through the first square fixed frame, the first square fixed frame is installed inside the middle installation groove in an interference fit mode, and the first square fixed frame is aligned with the inner side face of the aluminum alloy door and window frame;

wherein each group of the movable window structure comprises a second square supporting frame, a square assembling frame, a square installing frame, a second shielding component and a second square fixing frame, the second square supporting frame is fixedly installed in the side part installing groove, the second square supporting frame is aligned with the outer side surface of the aluminum alloy door and window frame, one side of the square assembling frame is hinged on the inner side surface of the aluminum alloy door and window frame through an articulated element, the square installing frame is fixedly installed on one side surface of the square assembling frame facing the aluminum alloy door and window frame, the second shielding component is fixedly packaged in the square installing frame through the second square fixing frame, the second shielding component is abutted against one side surface of the aluminum alloy door and window frame facing the square assembling frame, and the second square fixing frame is installed in the square installing frame in an interference fit manner, the second square fixing frame and the square mounting frame are arranged in an aligned mode towards one side face of the aluminum alloy door and window frame, and when the square assembling frame is attached to the inner side face of the aluminum alloy door and window frame, the square mounting frame is abutted to the second square abutting frame;

wherein, every group fixed subassembly all includes post groove, uide bushing, inserted bar, guide block, spring and double-screw bolt, the post groove is seted up the periphery of aluminum alloy door and window frame, uide bushing fixed mounting in the notch department in post groove, the inserted bar slides and installs the inside of uide bushing, the guide block slides and installs the inside in post groove, just the side of guide block with the inner wall in post groove is laminated mutually, a side of guide block with the one end fixed connection of inserted bar, the spring mounting is in the inside in post groove, the one end of spring with the guide block is kept away from a side of inserted bar is inconsistent, just the other end of spring with a terminal wall in post groove is contradicted, the double-screw bolt spiro union is in on the cell wall in post groove, just the double-screw bolt stretches into the inside one end in post groove with the lateral part of inserted bar is inconsistent, the stud is located between the guide sleeve and the guide block.

Preferably, the first shielding component and the second shielding component have the same structure, the first shielding component and the second shielding component both consist of a rubber frame and double-layer glass, the double-layer glass is fixedly installed on the inner side of the rubber frame, and a frame-shaped rubber sealing strip is fixedly and hermetically installed between the double-layer glass.

Preferably, the double-layer glass is transparent glass, nitrogen and carbon dioxide gas are filled between the double-layer glass, and the volume ratio of the nitrogen to the carbon dioxide gas is 3: 2.

Preferably, the square assembling frame faces towards one side face of the aluminum alloy door and window frame, a first frame-shaped silica gel sealing ring is further embedded in the side face of the aluminum alloy door and window frame, and the first frame-shaped silica gel sealing ring is located on the outer side of the square assembling frame.

Preferably, the second square supporting frame faces towards a side face of the square mounting frame, and a second frame-shaped silica gel sealing ring is further embedded in the side face of the square mounting frame and matched with the square mounting frame.

Preferably, each square assembling frame is arranged on one side surface, back to the aluminum alloy door and window frame, of the square assembling frame, and a handle lock is fixedly arranged on one side, far away from the hinge piece, of the square assembling frame.

Preferably, the groove wall of the cylindrical groove is further provided with a threaded hole matched with the stud, and the threaded hole is located on the inner side face of the aluminum alloy door and window frame.

Preferably, a hexagonal groove is further formed in the end portion, away from the inserted link, of the stud.

Preferably, the hinge element comprises an assembling plate and a hinge, the assembling plate is fixedly installed on the inner side face of the aluminum alloy door and window frame, one side of the hinge is fixedly connected with the assembling plate through a screw, and the other side of the hinge is fixedly connected with the square assembling frame through a screw.

The invention also provides a mounting method of the novel heat-insulating energy-saving aluminum alloy door and window, which comprises the following steps:

step one, assembling a fixing assembly, namely forming a cylindrical groove on the periphery of an aluminum alloy door and window frame, then fixedly installing a guide block at one end of an inserting rod, and then installing a guide block at one end of an inserting rod

The spring, the guide block and the inserted rod are sequentially and movably arranged inside the cylindrical groove, the guide sleeve is sleeved outside the inserted rod and fixedly arranged at the notch of the cylindrical groove, the stud is screwed inside the threaded hole, the inserted rod is extruded to be retracted into the cylindrical groove, and the inserted rod is pressed tightly by operating the stud by using an inner hexagonal wrench, so that the inserted rod is kept inside the cylindrical groove;

step two, assembling and fixing a window structure, namely fixedly installing a first square blocking frame in the middle mounting groove, ensuring that the first square blocking frame is aligned with the outer side face of the aluminum alloy door and window frame, fixedly packaging a first shielding assembly in the middle mounting groove through a first square fixing frame, and ensuring that the first square fixing frame is aligned with the inner side face of the aluminum alloy door and window frame;

step three, assemble the movable window structure, with the square frame fixed mounting that keeps out of second in the inside of lateral part mounting groove, and guarantee that the square frame that keeps out of second aligns the lateral surface of aluminum alloy door and window frame, with square mounting frame fixed mounting on a side of square frame of joining in marriage, shelter from the inside of subassembly fixed packaging at square mounting frame with the second through the square fixed frame of second, articulate a side of square frame of joining in marriage on the medial surface of aluminum alloy door and window frame through the articulated elements, guarantee simultaneously that square mounting frame and the square frame of keeping out of second are inconsistent when the medial surface of square frame of joining in marriage and aluminum alloy door and window frame is laminated mutually, so far, the equipment forms novel heat preservation energy saving aluminum alloy door and window.

Compared with the prior art, the invention has the advantages and positive effects that:

1. the novel heat-insulating energy-saving aluminum alloy door and window comprises an aluminum alloy door and window frame, a fixed window structure and two groups of movable window structures, wherein the fixed window structure is fixedly arranged in the middle of the aluminum alloy door and window frame;

2. under the action of at least four groups of fixing assemblies, the novel heat-insulating energy-saving aluminum alloy door and window is convenient to install, is particularly suitable for being installed after the building construction and the decoration are finished, can avoid the problem of manpower and material consumption caused by cleaning the novel heat-insulating energy-saving aluminum alloy door and window again due to pollution when a house is decorated, when a house is built, only mounting holes matched with the inserted rods are reserved on the inner wall of the door and window hole for mounting the novel heat-insulating energy-saving aluminum alloy door and window, the inserting rod is loosened by operating the stud with the hexagon socket wrench, the inserting rod can be automatically inserted into the mounting hole under the action of the spring, the novel heat-insulating energy-saving aluminum alloy door and window can be installed, so that the novel heat-insulating energy-saving aluminum alloy door and window is very convenient to install;

3. according to the invention, the designed fixed window structure and the two groups of movable window structures are connected in an interference fit manner, so that the novel heat-insulating energy-saving aluminum alloy door and window is convenient to assemble, and the assembly efficiency can be effectively improved;

4. according to the novel heat-insulating and energy-saving aluminum alloy door and window, the designed first shielding assembly and the second shielding assembly have the same structure, the first shielding assembly and the second shielding assembly are both composed of the rubber frame and the double-layer glass, the double-layer glass is fixedly arranged on the inner side of the rubber frame, the frame-shaped rubber sealing strip is fixedly and hermetically arranged between the double-layer glass, nitrogen and carbon dioxide gas are filled between the double-layer glass, and the volume ratio of the nitrogen to the carbon dioxide gas is 3: 2, so that the novel heat-insulating and energy-saving aluminum alloy door and window has a good heat-insulating and energy-saving effect and a good noise-insulating effect, particularly, a quiet and warm comfortable environment can be provided for indoor personnel in winter, and physical and mental health of the indoor;

5. the mounting method of the novel heat-insulating energy-saving aluminum alloy door and window provided by the invention has simple and reasonable steps, can effectively reduce the assembly difficulty, thereby improving the assembly efficiency, and simultaneously can prevent the problem that double-layer glass is broken in the assembly process, thereby improving the assembly yield.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a novel heat-insulating energy-saving aluminum alloy door window according to an embodiment of the invention;

FIG. 2 is an enlarged schematic view of a portion A of FIG. 1;

FIG. 3 is a schematic structural diagram of another view angle of the novel heat-insulating energy-saving aluminum alloy door window according to the embodiment of the invention;

FIG. 4 is a schematic structural diagram of a set of movable window structures opened by the novel heat-insulating energy-saving aluminum alloy door and window according to the embodiment of the invention;

FIG. 5 is an enlarged schematic view of the detail view B of FIG. 4;

FIG. 6 is an exploded view of a movable window structure according to an embodiment of the present invention;

FIG. 7 is an enlarged schematic view of detail C of FIG. 6;

FIG. 8 is a schematic diagram of an explosive structure of a novel heat-insulating energy-saving aluminum alloy door window according to an embodiment of the invention;

FIG. 9 is a cross-sectional structural view of the first screen assembly and the second screen assembly in accordance with an embodiment of the present invention;

fig. 10 is an enlarged schematic view of a partial view D of fig. 9.

In the figure:

1. an aluminum alloy door and window frame; 2. a middle mounting groove; 3. a side mounting groove; 4. fixing the window structure; 401. a first square stop frame; 402. a first square fixing frame; 5. a movable window structure; 501. a square assembling frame; 502. a handle lock; 503. a square mounting frame; 504. a second square stop frame; 505. a second square fixing frame; 506. a first frame-shaped silica gel sealing ring; 6. an articulation member; 601. assembling a plate; 602. a hinge; 7. a fixing assembly; 701. inserting a rod; 702. a stud; 703. a guide sleeve; 704. a cylindrical groove; 705. a guide block; 706. a spring; 8. a first shielding component; 9. a second shutter assembly; 10. a rubber frame; 11. double-layer glass; 12. a frame-shaped rubber sealing strip.

Detailed Description

In order that the above objects, features and advantages of the present invention can be more clearly understood, the present invention will be further described with reference to the accompanying drawings and examples. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict. The invention is further described with reference to the following figures and specific examples.

Example one

As shown in fig. 1 to 10, the novel heat-insulating energy-saving aluminum alloy door and window according to the embodiment of the invention comprises an aluminum alloy door and window frame 1, a fixed window structure 4, two sets of movable window structures 5 and at least four sets of fixed components 7, wherein a middle mounting groove 2 is reserved in the middle of the aluminum alloy door and window frame 1, two side mounting grooves 3 are reserved on two sides of the aluminum alloy door and window frame 1, and the two side mounting grooves 3 are symmetrically arranged with respect to the middle mounting groove 2; the fixed window structures 4 are fixedly arranged inside the middle mounting groove 2, the two groups of movable window structures 5 are respectively movably arranged inside the two side mounting grooves 3, and at least four groups of fixed assemblies 7 are arranged on the periphery of the aluminum alloy door and window frame 1; the fixed window structures 4 cannot be opened, the two groups of movable window structures 5 are used for opening and ventilating, and the fixed assemblies 7 are used for installing the novel heat-insulating energy-saving aluminum alloy doors and windows, so that the novel heat-insulating energy-saving aluminum alloy doors and windows are convenient to install;

as shown in fig. 1, 3 and 8, the fixed window structure 4 includes a first square blocking frame 401, a first shielding assembly 8 and a first square fixing frame 402, the first square blocking frame 401 is fixedly installed inside the middle installation groove 2, the first square blocking frame 401 is arranged to be aligned with the outer side surface of the aluminum alloy door and window frame 1, the first shielding assembly 8 is fixedly packaged inside the middle installation groove 2 through the first square fixing frame 402, the first square fixing frame 402 is installed inside the middle installation groove 2 in an interference fit manner, and the first square fixing frame 402 is arranged to be aligned with the inner side surface of the aluminum alloy door and window frame 1; the scheme ensures that the fixed window structure 4 is convenient to install and is more beautiful after being installed;

wherein, as shown in fig. 1, 3, 4 and 6, every group the movable window structure 5 all includes the square supporting frame 504 of second, the square frame 501, the square installing frame 503, the second shelters from subassembly 9 and the square fixed frame 505 of second, the square supporting frame 504 fixed mounting of second is in the inside of lateral part mounting groove 3, just the square supporting frame 504 of second aligns the lateral surface setting of aluminum alloy door and window frame 1, a side of the square frame 501 that assembles articulates through articulated elements 6 on the medial surface of aluminum alloy door and window frame 1, the square installing frame 503 fixed mounting in the square frame 501 orientation of assembling on a side of aluminum alloy door and window frame 1, the second shelters from subassembly 9 and passes through the fixed encapsulation of the square fixed frame 505 of second is in the inside of square installing frame 503, just the second shelters from subassembly 9 with the square frame 501 orientation of assembling the side of aluminum alloy door and window frame 1 is inconsistent, the second square fixing frame 505 is installed inside the square mounting frame 503 in an interference fit manner, the second square fixing frame 505 and the square mounting frame 503 are arranged in an alignment manner towards one side surface of the aluminum alloy door and window frame 1, and when the square mounting frame 501 is attached to the inner side surface of the aluminum alloy door and window frame 1, the square mounting frame 503 is abutted against the second square abutting frame 504; by adopting the scheme, the movable window structure 5 is convenient to install, attractive after installation and convenient to open and close.

As shown in fig. 2, 4 and 5, each fixing assembly 7 includes a cylindrical groove 704, a guide sleeve 703, an insertion rod 701, a guide block 705, a spring 706 and a stud 702, the cylindrical groove 704 is disposed on the outer periphery of the aluminum alloy door and window frame 1, the guide sleeve 703 is fixedly mounted at the notch of the cylindrical groove 704, the insertion rod 701 is slidably mounted inside the guide sleeve 703, the guide block 705 is slidably mounted inside the cylindrical groove 704, the side surface of the guide block 705 is attached to the inner wall of the cylindrical groove 704, one side surface of the guide block 705 is fixedly connected to one end of the insertion rod 701, the spring 706 is mounted inside the cylindrical groove 704, one end of the spring 706 is abutted to the side surface of the guide block away from the insertion rod 701, and the other end of the spring 706 is abutted to one end wall of the cylindrical groove 704, the stud 702 is screwed on the groove wall of the cylindrical groove 704, one end of the stud 702 extending into the cylindrical groove 704 is abutted against the side part of the inserted link 701, and the stud 702 is positioned between the guide sleeve 703 and the guide block 705. The fixing assembly 7 is simple and stable in structure, the inserting rod 701 can be locked inside the cylindrical groove 704 through the stud 702, and meanwhile the inserting rod 701 can be ejected to the outside of the cylindrical groove 704 through the spring 706.

As shown in fig. 6, 8, 9 and 10, the first shielding component 8 and the second shielding component 9 have the same structure, the first shielding component 8 and the second shielding component 9 are both composed of a rubber frame 10 and a double-layer glass 11, the double-layer glass 11 is fixedly installed on the inner side of the rubber frame 10, a frame-shaped rubber sealing strip 12 is fixedly and hermetically installed between the double-layer glass 11, the double-layer glass 11 is made of transparent glass, nitrogen gas and carbon dioxide gas are filled between the double-layer glass 11, and the volume ratio of the nitrogen gas to the carbon dioxide gas is 3: 2. Above-mentioned scheme makes this novel heat preservation energy-saving aluminum alloy door and window not only keep warm energy-conserving effect better, separates the effect of noise also better moreover, especially can provide a quiet warm comfortable environment for indoor personnel winter, is favorable to indoor personnel's physical and mental health.

Wherein, as shown in fig. 1 and 2, the hinge assembly 6 comprises an assembly plate 601 and a hinge 602, the assembly plate 601 is fixedly mounted on the inner side surface of the aluminum alloy door and window frame 1, one side of the hinge 602 is fixedly connected with the assembly plate 601 through a screw, and the other side of the hinge 602 is fixedly connected with the square assembly frame 501 through a screw. Above-mentioned scheme makes articulated elements 6 simple structure, and the square assembly frame 501 of installation is more convenient.

The invention also provides a mounting method of the novel heat-insulating energy-saving aluminum alloy door and window, which comprises the following steps:

step one, assembling a fixing assembly 7, forming a cylindrical groove 704 on the periphery of an aluminum alloy door window frame 1, fixedly installing a guide block 705 at one end of an insert rod 701, sequentially and movably installing a spring 706, the guide block 705 and the insert rod 701 inside the cylindrical groove 704, sleeving a guide sleeve 703 outside the insert rod 701, fixedly installing the guide sleeve 703 at a notch of the cylindrical groove 704, screwing a stud 702 inside a threaded hole, simultaneously extruding the insert rod 701 to enable the insert rod 701 to retract into the cylindrical groove 704, and operating the stud 702 by using an allen key to tightly abut the insert rod 701 so that the insert rod 701 is kept inside the cylindrical groove 704;

step two, assembling and fixing the window structure 4, fixedly installing the first square blocking frame 401 inside the middle installation groove 2, ensuring that the first square blocking frame 401 is aligned with the outer side face of the aluminum alloy door and window frame 1, fixedly packaging the first shielding assembly 8 inside the middle installation groove 2 through the first square fixing frame 402, and ensuring that the first square fixing frame 402 is aligned with the inner side face of the aluminum alloy door and window frame 1;

step three, assemble movable window structure 5, with the square supporting frame 504 of second fixed mounting in the inside of lateral part mounting groove 3, and guarantee that the square supporting frame 504 of second aligns the lateral surface of aluminum alloy door and window frame 1, with square mounting frame 503 fixed mounting on a side of square assembling frame 501, shelter from subassembly 9 fixed packaging in the inside of square mounting frame 503 with the second through the square fixed frame 505 of second, a side of square assembling frame 501 passes through articulated elements 6 and articulates on the medial surface of aluminum alloy door and window frame 1, guarantee simultaneously that square mounting frame 503 and the square supporting frame 504 of second are inconsistent when square assembling frame 501 and the medial surface of aluminum alloy door and window frame 1 are laminated mutually, to this end, assemble and form novel heat preservation energy-saving aluminum alloy door and window. The novel installation method of the heat-preservation energy-saving aluminum alloy door and window provided by the scheme has the advantages that the steps are simple and reasonable, the assembly difficulty can be effectively reduced, the assembly efficiency is improved, the problem that the double-layer glass 11 is broken in the assembly process can be prevented, and the assembly yield is improved.

Example two

The difference between the embodiment shown in fig. 6-7 and the first embodiment lies in that the square assembling frame 501 faces towards a side surface of the aluminum alloy door and window frame 1, a first frame-shaped silica gel sealing ring 506 is further embedded on the side surface of the square installing frame 503, the second square blocking frame 504 faces towards a side surface of the square installing frame 503, a second frame-shaped silica gel sealing ring is further embedded on the side surface of the square installing frame 503, and the second frame-shaped silica gel sealing ring is matched with the square installing frame 503. By adopting the scheme, the novel heat-insulating energy-saving aluminum alloy door and window has better sealing performance and is beneficial to heat insulation and energy saving.

EXAMPLE III

As shown in fig. 1, the present embodiment is different from the second embodiment in that each of the square fitting frames 501 is fixedly mounted with a handle lock 502 on a side facing away from the hinge member 6 on a side of the aluminum alloy door and window frame 1. According to the scheme, the two groups of movable window structures 5 are convenient to open and close, and meanwhile, the two groups of movable window structures 5 can be locked by the handle lock 502, so that the two groups of movable window structures 5 can be prevented from being opened privately.

Example four

As shown in fig. 2 and 5, the difference between the third embodiment and the second embodiment is that a threaded hole matched with the stud 702 is further formed in a groove wall of the cylindrical groove 704, the threaded hole is located on an inner side surface of the aluminum alloy door and window frame 1, and a hexagonal groove is further formed in an end portion of the stud 702, which is far away from the inserted link 701. By the scheme, the stud 702 is convenient to mount and particularly convenient to operate through the hexagon socket wrench.

For the convenience of understanding the technical solutions of the present invention, the following detailed description will be made on the working principle or the operation mode of the present invention in the practical process.

In the time of practical application, especially, be fit for the house and build the fitment and finish the back and install again, only need when building the house reserve on the inner wall that is used for installing this novel heat preservation energy-saving aluminum alloy door and window's door and window hole the mounting hole with inserted bar 701 assorted can, install this novel heat preservation energy-saving aluminum alloy door and window in the inside in door and window hole, utilize allen key operation double-screw bolt 702 to loosen inserted bar 701, inserted bar 701 can the inside of self-plugging in mounting hole under the effect of spring 706, can be with realizing this novel heat preservation energy-saving aluminum alloy door and window's installation, thereby it is very convenient to make this novel heat preservation energy-saving aluminum alloy door and window's installation.

The present invention can be easily implemented by those skilled in the art from the above detailed description. It should be understood, however, that the intention is not to limit the invention to the particular embodiments described. On the basis of the disclosed embodiments, a person skilled in the art can combine different technical features at will, thereby implementing different technical solutions.

Claims (10)

1. The utility model provides a novel energy-conserving aluminum alloy door and window keeps warm, its characterized in that includes aluminum alloy door and window frame (1), fixed window structure (4), two sets of movable window structures (5) and at least four fixed subassemblies of group (7).

2. The novel heat-insulating energy-saving aluminum alloy door and window as claimed in claim 1, wherein a middle mounting groove (2) is reserved in the middle of the aluminum alloy door and window frame (1), two side mounting grooves (3) are reserved on two sides of the aluminum alloy door and window frame (1), and the two side mounting grooves (3) are symmetrically arranged about the middle mounting groove (2); the fixed window structures (4) are fixedly arranged in the middle mounting groove (2), the two groups of movable window structures (5) are respectively and movably arranged in the two side mounting grooves (3), and at least four groups of fixed assemblies (7) are arranged on the periphery of the aluminum alloy door and window frame (1);

the fixed window structure (4) comprises a first square blocking frame (401), a first shielding assembly (8) and a first square fixing frame (402), wherein the first square blocking frame (401) is fixedly installed inside the middle mounting groove (2), the first square blocking frame (401) is aligned with the outer side face of the aluminum alloy door and window frame (1), the first shielding assembly (8) is fixedly packaged inside the middle mounting groove (2) through the first square fixing frame (402), the first square fixing frame (402) is installed inside the middle mounting groove (2) in an interference fit mode, and the first square fixing frame (402) is aligned with the inner side face of the aluminum alloy door and window frame (1);

wherein, every group activity window structure (5) all include the square frame (504) that keeps off of second, square supporting frame (501), square installing frame (503), second and shelter from subassembly (9) and the square fixed frame (505) of second, the square frame (504) fixed mounting that keeps off of second is in the inside of lateral part mounting groove (3), just the square frame (504) that keeps off of second aligns the lateral surface setting of aluminum alloy door and window frame (1), a side of square supporting frame (501) passes through articulated elements (6) and articulates on the medial surface of aluminum alloy door and window frame (1), square installing frame (503) fixed mounting be in square supporting frame (501) orientation on a side of aluminum alloy door and window frame (1), the second shelters from subassembly (9) and passes through the fixed encapsulation of the square fixed frame (505) of second is in the inside of square installing frame (503), the second shielding assembly (9) is abutted to one side face, facing the aluminum alloy door and window frame (1), of the square assembling frame (501), the second square fixing frame (505) is installed inside the square installing frame (503) in an interference fit mode, the second square fixing frame (505) is aligned to one side face, facing the aluminum alloy door and window frame (1), of the square installing frame (503) and the square installing frame (503), and when the square assembling frame (501) is attached to the inner side face of the aluminum alloy door and window frame (1), the second square installing frame (504) is abutted to the second square abutting frame (504);

wherein each group of fixing components (7) comprises a cylindrical groove (704), a guide sleeve (703), an inserting rod (701), a guide block (705), a spring (706) and a stud (702), the cylindrical groove (704) is formed in the periphery of the aluminum alloy door and window frame (1), the guide sleeve (703) is fixedly installed at the notch of the cylindrical groove (704), the inserting rod (701) is installed in the guide sleeve (703) in a sliding manner, the guide block (705) is installed in the cylindrical groove (704) in a sliding manner, the side surface of the guide block (705) is attached to the inner wall of the cylindrical groove (704), one side surface of the guide block (705) is fixedly connected with one end of the inserting rod (701), the spring (706) is installed in the cylindrical groove (704), and one end of the spring (706) is abutted to one side surface of the guide block (705) far away from the inserting rod (701), the other end of the spring (706) is abutted against one end wall of the cylindrical groove (704), the stud (702) is screwed on the groove wall of the cylindrical groove (704), one end of the stud (702) extending into the cylindrical groove (704) is abutted against the side part of the inserted link (701), and the stud (702) is positioned between the guide sleeve (703) and the guide block (705); the first shielding component (8) and the second shielding component (9) have the same structure, the first shielding component (8) and the second shielding component (9) are composed of a rubber frame (10) and double-layer glass (11), the double-layer glass (11) is fixedly installed on the inner side of the rubber frame (10), and a frame-shaped rubber sealing strip (12) is fixedly and hermetically installed between the double-layer glass (11).

3. The novel heat-insulating energy-saving aluminum alloy door and window as claimed in claim 2, wherein the double-layer glass (11) is transparent glass, nitrogen and carbon dioxide gas are filled between the double-layer glass (11), and the volume ratio of the nitrogen to the carbon dioxide gas is 3: 2.

4. The novel heat-insulating energy-saving aluminum alloy door and window as claimed in claim 2, wherein a first frame-shaped silica gel sealing ring (506) is embedded on one side surface of the square assembling frame (501) facing the aluminum alloy door and window frame (1), and the first frame-shaped silica gel sealing ring (506) is positioned on the outer side of the square installing frame (503).

5. The novel heat-insulating energy-saving aluminum alloy door and window as claimed in claim 4, wherein a second frame-shaped silica gel sealing ring is embedded on one side surface of the second square stopping frame (504) facing the square mounting frame (503), and the second frame-shaped silica gel sealing ring is matched with the square mounting frame (503).

6. A novel heat-insulating energy-saving aluminum alloy door and window as claimed in claim 2, wherein each square assembly frame (501) is provided with a handle lock (502) on one side facing away from the aluminum alloy door and window frame (1) and on one side far away from the hinge element (6).

7. The novel heat-insulating energy-saving aluminum alloy door and window as claimed in claim 2, wherein the groove wall of the cylindrical groove (704) is further provided with a threaded hole matched with the stud (702), and the threaded hole is positioned on the inner side surface of the aluminum alloy door and window frame (1).

8. The novel heat-insulating energy-saving aluminum alloy door and window as claimed in claim 2, wherein a hexagonal groove is further formed in the end portion, away from the inserted link (701), of the stud (702).

9. The novel heat-insulating energy-saving aluminum alloy door and window as claimed in claim 7, wherein the hinge element (6) comprises an assembling plate (601) and a hinge (602), the assembling plate (601) is fixedly mounted on the inner side surface of the aluminum alloy door and window frame (1), one side of the hinge (602) is fixedly connected with the assembling plate (601) through a screw, and the other side of the hinge (602) is fixedly connected with the square assembling frame (501) through a screw.

10. The method for installing the novel heat-insulating energy-saving aluminum alloy door and window as claimed in claim 9, is characterized by comprising the following steps:

step one, assembling a fixing assembly (7), arranging a cylindrical groove (704) on the periphery of an aluminum alloy door and window frame (1), fixedly installing a guide block (705) at one end of an insert rod (701), sequentially and movably installing a spring (706), the guide block (705) and the insert rod (701) in the cylindrical groove (704), sleeving a guide sleeve (703) on the outer portion of the insert rod (701), fixedly installing the guide sleeve (703) at a notch of the cylindrical groove (704), screwing a stud (702) in the threaded hole, simultaneously extruding the insert rod (701) to enable the insert rod (701) to retract into the cylindrical groove (704), and operating the stud (702) by using an inner hexagonal wrench to enable the insert rod (701) to be abutted tightly, so that the insert rod (701) is kept in the cylindrical groove (704);

step two, assembling and fixing a window structure (4), fixedly installing a first square blocking frame (401) in the middle mounting groove (2), ensuring that the first square blocking frame (401) is aligned with the outer side face of the aluminum alloy door and window frame (1), fixedly packaging a first shielding assembly (8) in the middle mounting groove (2) through a first square fixing frame (402), and ensuring that the first square fixing frame (402) is aligned with the inner side face of the aluminum alloy door and window frame (1);

step three, assembling a movable window structure (5), fixedly installing a second square supporting frame (504) in the side part installation groove (3), ensuring that the second square supporting frame (504) is aligned with the outer side surface of the aluminum alloy door and window frame (1), fixedly installing a square installation frame (503) on one side surface of a square assembly frame (501), fixedly packaging a second shielding assembly (9) in the square installation frame (503) through a second square fixing frame (505), hinging one side edge of the square assembly frame (501) on the inner side surface of the aluminum alloy door and window frame (1) through a hinging piece (6), and simultaneously ensuring that the square installation frame (503) is abutted against the second square supporting frame (504) when the square assembly frame (501) is attached to the inner side surface of the aluminum alloy door and window frame (1), thereby assembling and forming the novel heat-insulating energy-saving aluminum alloy door and window.

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