CN219412311U - Assembled aluminum alloy window body - Google Patents

Abstract

The application relates to an assembled aluminum alloy window body, which comprises a window frame, wherein a plurality of frame components and a plurality of connecting components are arranged in the window frame, and the plurality of connecting components are respectively arranged between two adjacent frame components; connecting grooves are formed in two ends of each frame component, and a plurality of sinking grooves are formed in each frame component; each coupling assembling all includes locating piece and a plurality of connecting rod, and a plurality of connecting rods of same coupling assembling can connect respectively in each side of locating piece, and each connecting rod one end all rigid coupling has the stopper, and the stopper can the joint in the spread groove of corresponding frame subassembly, and each locating piece all can be dismantled and be connected with fixed inserted bar, and the length direction of fixed inserted bar sets up along the length direction of corresponding connecting rod, and fixed inserted bar can the joint in the heavy inslot of corresponding frame subassembly. The aluminum alloy window body structure and the aluminum alloy window body structure adjusting device have the effects of being convenient for transportation and storage of the aluminum alloy window body, and being convenient for users to adjust the structure and the specification of the aluminum alloy window body according to use requirements.

Description

Assembled aluminum alloy window body

Technical Field

The application relates to the technical field of aluminum alloy, in particular to an assembled aluminum alloy window body.

Background

The aluminium alloy window body is made of aluminium alloy extruded section as frame, stile and leaf, and is called aluminium door or window for short. The aluminum alloy window body has attractive appearance, high sealing performance and high strength, is widely applied to the field of constructional engineering, is easy to extrude, and has precise cross section dimension and high processing accuracy, so that a plurality of owners select the aluminum alloy window body in decoration.

The existing aluminum alloy window body is usually manufactured according to fixed size and specification, the required groove and the bulge of the window body are integrally formed by stamping each window body, and then the window body is welded and fixed according to design, so that a plurality of window bodies are fixed to form an integral aluminum alloy window body.

The inventor finds that, in the existing aluminum alloy window body, the existing aluminum alloy window body is directly fixed by welding or other modes according to fixed specifications, and then is directly manufactured and molded, although the requirement of window body installation can be met, the aluminum alloy window body cannot be divided due to integral molding of the window body in the transportation process, and obviously cannot be processed on a construction site, so that a plurality of inconveniences exist in the transportation process, particularly the aluminum alloy window body is damaged due to soft aluminum alloy materials when the aluminum alloy window body passes through a narrow area and is slightly carelessly collided, and meanwhile, the integrally molded aluminum alloy window body is also inconvenient to preserve due to large occupied area.

Disclosure of Invention

In order to be convenient for the transportation and the save of aluminum alloy window body, the user of being convenient for simultaneously adjusts aluminum alloy window body structure and specification according to the use needs, this application provides an assembled aluminum alloy window body.

The application provides an assembled aluminum alloy window body adopts following technical scheme:

the assembled aluminum alloy window body comprises a window frame, wherein a plurality of frame components and a plurality of connecting components are arranged in the window frame, two adjacent frame components are arranged vertically to each other, and the plurality of connecting components are respectively arranged between the two adjacent frame components and are used for connecting the two adjacent frame components;

connecting grooves are formed in two ends of each frame component, and a plurality of sinking grooves are formed in positions, corresponding to the connecting grooves, of each frame component;

each connecting assembly comprises a positioning block and a plurality of connecting rods, the plurality of connecting rods of the same connecting assembly are detachably connected to each side face of the positioning block respectively, one end of each connecting rod is fixedly connected with a limiting block, the limiting blocks can be clamped in the connecting grooves of the corresponding frame assemblies, each positioning block corresponds to each connecting rod, fixing inserting rods are detachably connected to the positions of two sides of each positioning block, the length direction of each fixing inserting rod is along the length direction of the corresponding connecting rod, and each fixing inserting rod can be clamped in the corresponding sinking groove of the corresponding frame assembly.

Through adopting above-mentioned technical scheme, when the user uses, the user can bring frame subassembly and coupling assembling to the job site earlier and assemble, reduces the aluminum alloy window form of welding formation in advance because the inconvenience that the volume is great causes in the transportation, also can reduce the possibility that unexpected collision caused aluminum alloy window form damage simultaneously. After the aluminum alloy window frame is transported to an installation site, a user sets up the frame components at positions corresponding to the window frames according to the design, so that every two frame components to be connected are arranged vertically to each other along the length direction, then the user installs a connecting rod and a fixed inserting rod on the corresponding side face of the positioning block, so that the limiting block is connected with the positioning block, then the user inserts the connecting rod and the limiting block into the connecting groove of the corresponding frame components, the fixed inserting rods on two sides of the connecting rod are clamped into the sinking grooves of the corresponding frame components, so that the positioning block is connected with the frame components, the operation is repeated, a plurality of frame components are connected according to the design of the aluminum alloy window body, and the user can conveniently adjust the structure of the aluminum alloy window body according to the use requirement.

Optionally, two fixed inserted bars that correspond of every connecting rod both sides are all threaded connection in common has fastening bolt, and fastening bolt passes the stopper setting that corresponds.

Through adopting above-mentioned technical scheme, when the user uses, the user all installs fastening bolt jointly through the screw thread between the fixed inserted bar of every connecting rod both sides, makes fastening bolt pass two fixed inserted bars and frame subassembly setting and let fastening bolt pass corresponding stopper to link up stopper, connecting rod, locating piece, two fixed inserted bars and frame subassembly, further play the effect of strengthening coupling assembling and frame subassembly connection stability, improve the bearing capacity of aluminum alloy window body.

Optionally, each be provided with the installation component between the frame subassembly, the installation component includes a plurality of limiting plate, and every limiting plate is equal fixedly connected with slide bar, each two spouts have all been seted up to every lateral wall of frame subassembly, and the length direction of spout sets up along the length direction who corresponds the frame subassembly, and slide bar can sliding connection in the spout of frame subassembly, connects joint has glass window body between two limiting plates of same side in same frame subassembly together.

Through adopting above-mentioned technical scheme, when the user uses, the user is earlier according to the design needs before connecting each frame subassembly with the limiting plate and installing corresponding frame subassembly, the user slides the slide bar that the limiting plate connects along corresponding spout from the one end of corresponding frame subassembly, thereby make the slide bar whole slide into the spout of frame subassembly and install the limiting plate on the frame subassembly, then the user also installs this frame subassembly through the slide bar on another spout of this frame subassembly homonymy with another limiting plate, make two limiting plates mutual parallel arrangement of same frame subassembly homonymy, then repeat the operation according to the design user and install the limiting plate in other frame subassembly corresponding positions, then the user connects the frame subassembly according to the design needs through coupling assembling, thereby form window frame, and peg graft the glass window body between every group of relative limiting plate, make the glass window body all around the joint between two limiting plates of four frame subassemblies each other near one side, thereby install the glass window body in the mode that the aluminum alloy window body corresponds position through the equipment, user simple to operate.

Optionally, each limiting plate is fixedly connected with a rubber strip at a position far away from the sliding rod, and the rubber strips are abutted against the glass window body.

Through adopting above-mentioned technical scheme, when the user uses, the user inserts the glass window form and connects between two limiting plates of same side in same frame subassembly, and the rubber strip of two corresponding limiting plates presss from both sides the glass window form tightly jointly, plays the effect of more firm centre gripping glass window form, fills the gap between glass window form and the limiting plate simultaneously, plays sealed effect.

Optionally, inclined planes are formed at two ends of each limiting plate, and the inclined planes of the two limiting plates perpendicular to each other in the length direction can be mutually attached.

Through adopting above-mentioned technical scheme, when the user uses, the user passes through coupling assembling with the frame subassembly after the limiting plate installation is accomplished and connects, and the inclined plane one-to-one laminating of the limiting plate of two adjacent frame subassemblies of this in-process to make four angular positions departments of aluminum alloy window body can be inseparabler laminating on the glass window body, the fixed glass window body of steadier.

Optionally, the installation component still includes eight installed parts, and the installed part is the right angle board of bending, and every installed part is close to the equal rigid coupling of locating piece one side and has the fixed plate, and every four installed parts is a set of, and two sets of installed parts set up respectively in aluminum alloy window internal and external both sides, and four installed parts of same group set up respectively in four corner positions departments of window frame, and the fixed plate passes through bolted connection in the locating piece of corresponding position department, and the installed part passes through expansion bolts and connects in the adjacent both sides of window frame.

Through adopting above-mentioned technical scheme, when the user uses, the user is a set of with every four installed parts of eight installed parts, and the user is connected two sets of installed parts to the inside and outside both sides of aluminum alloy window respectively, connects four installed parts of same group to the locating piece of four angular positions departments of aluminum alloy window body respectively through fixed plate and bolt to make the right angle of installed part bend the four corners position department of laminating window frame, then the user is fixed the installed part to the window frame respectively through expansion bolts, thereby installs the aluminum alloy window body that the equipment is accomplished in the window frame of wall body.

Optionally, the joint strip is connected with between two adjacent installed parts that each is located the window frame and is same one side jointly, and joint strip covers the clearance setting between frame subassembly and the window frame.

Through adopting above-mentioned technical scheme, when the user uses, joint strip covers the clearance between frame subassembly and the window frame of window frame inner peripheral wall, blocks that the air current from flowing in and flowing out through the gap between frame subassembly and the window frame, improves the leakproofness between the window frame of aluminum alloy window body and wall body.

Optionally, each connecting rod is close to the position of locating piece department all fixedly connected with four support ribs, and every support rib all can butt in the locating piece that corresponds, and every support rib outside is by being close to locating piece one end to keeping away from locating piece one end to connecting rod direction slope setting.

Through adopting above-mentioned technical scheme, when the user uses, the user is installed the corresponding one side of locating piece that corresponds according to design and use needs with the connecting rod, makes four supporting ribs of connecting rod conflict in the locating piece, plays the effect of supporting the connecting rod, blocks that the connecting rod receives external force to lead to crooked, improves connection structure's between locating piece and the frame subassembly steadiness.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the design of the positioning block, the connecting rod, the threaded hole, the limiting block, the fixed inserted link, the sinking groove, the fastening bolt, the connecting groove and the frame component can enable a user to be free from fixedly connecting the aluminum alloy window body into a whole in advance, can be assembled conveniently on a construction site, and is convenient for transporting and storing the aluminum alloy window body;

2. the aluminum alloy window body can be conveniently installed on the window frame of the wall body by the design of the installation piece, the installation bolt, the fixing plate and the expansion bolt, so that the aluminum alloy window body is convenient for users to use;

3. the design of limiting plate, rubber strip, slide bar and spout can be convenient for the user install the glass window form in the aluminum alloy window body, improves the leakproofness between glass window form and the aluminum alloy window form simultaneously.

Drawings

FIG. 1 is a schematic overall structure of an embodiment of the present application;

FIG. 2 is a cross-sectional view of the overall structure of an embodiment of the present application;

FIG. 3 is an enlarged view of portion A of FIG. 2;

FIG. 4 is a cross-sectional view of a locating block structure according to an embodiment of the present application;

fig. 5 is an enlarged view of a portion B in fig. 4.

Reference numerals illustrate: 1. a window frame; 2. a mounting assembly; 21. a limiting plate; 211. an inclined plane; 22. a slide bar; 23. a rubber strip; 24. a mounting member; 241. a fixing plate; 242. installing a bolt; 243. an expansion bolt; 25. a sealing rubber strip; 3. a frame assembly; 31. a chute; 32. a connecting groove; 33. sinking grooves; 4. a connection assembly; 41. a positioning block; 411. a threaded hole; 42. a connecting rod; 421. a support rib; 43. a limiting block; 44. a mounting groove; 45. fixing the inserted link; 46. a fastening bolt; 5. and a glass window.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-5.

The embodiment of the application discloses an assembled aluminum alloy window body:

referring to fig. 1, the installation structure comprises a window frame 1 arranged on a wall body, an installation assembly 2, four frame assemblies 3 and four connecting assemblies 4, wherein the window frame 1 is arranged on the wall body, and two adjacent side surfaces of the inner peripheral wall of the window frame 1 are mutually perpendicular. Four frame components 3 set up respectively in the four sides of window frame 1 inner peripheral wall, four coupling assembling 4 set up respectively between every two adjacent frame components 3, coupling assembling 4 links together two adjacent frame components 3 to link up four frame components 3 through four coupling assembling 4, installation component 2 is then used for installing the window form in window frame 1.

When the aluminum alloy window is used by a user, the four frame assemblies 3 are connected through the four connecting assemblies 4 to be an aluminum alloy window body, and the aluminum alloy window body is installed in the window frame 1 of the wall body through the installation assembly 2, so that the user can bring the frame assemblies 3 and the connecting assemblies 4 to a construction site for assembly, inconvenience caused by large volume in the transportation process of the aluminum alloy window body formed by welding in advance is reduced, and meanwhile, the possibility of damage to the aluminum alloy window body caused by accidental collision can be reduced.

Referring to fig. 1-3, the mounting assembly 2 includes eight limiting plates 21, a sliding rod 22 is fixedly connected to the bottom of each limiting plate 21, the sliding rod 22 is arranged along the length direction of the limiting plate 21, the cross section of the sliding rod 22 is T-shaped, and the cross section of one end of the sliding rod 22 away from the limiting plate 21 is larger than the cross section of one end of the sliding rod 22 close to the limiting plate 21. The cross section of limiting plate 21 takes the shape of right triangle, and limiting plate 21 one side slope sets up. Two sliding grooves 31 are formed in each side wall of each frame component 3, the length direction of each sliding groove 31 is set along the length direction of the corresponding frame component 3, the sliding rod 22 can slide into the sliding groove 31 of the frame component 3 from one end of the frame component 3 and is clamped in the sliding groove 31 of the frame component 3, and at the moment, the limiting plate 21 is abutted against the frame component 3 near one side of the sliding rod 22. Every two limiting plates 21 are in a group, four groups of limiting plates 21 are respectively clamped in the sliding grooves 31 on one side, close to each other, of the four frame assemblies 3 through sliding rods 22, and each group of limiting plates 21 is respectively clamped in the two sliding grooves 31 on the same side of the corresponding frame assembly 3 through the sliding rods 22. The two limiting plates 21 connected to the same frame assembly 3 are arranged at the outer sides in an inclined manner from one end far away from the sliding rod 22 to one end close to the sliding rod 22. Each limiting plate 21 is provided with inclined planes 211 along two ends of the length direction of the limiting plate 21, the inclined planes 211 are arranged in an outward inclined mode from one end, away from the sliding rod 22, of the limiting plate 21 to one end, close to the sliding rod 22, of the limiting plate 21, and the inclined planes 211 form an included angle of 45 degrees with the horizontal plane. The inclined surfaces 211 of the two sets of limiting plates 21 connected to the adjacent two frame assemblies 3 can be attached in a one-to-one correspondence. Each limiting plate 21 is fixedly connected with a rubber strip 23 at a position far away from the sliding rod 22, the length direction of the rubber strip 23 is set along the length direction of the limiting plate 21, and the rubber strip 23 is positioned on one side, close to each other, of the two limiting plates 21 connected to the same frame assembly 3. The glass window body 5 is arranged between the aluminum alloy window bodies formed by the four frame assemblies 3, the positions, close to the edges, of the periphery of the glass window body 5 are respectively inserted between two limiting plates 21 in the same group, and each rubber strip 23 is abutted against the glass window body 5.

When the frame assembly 3 is used by a user, before connecting the frame assemblies 3, the user installs the limiting plates 21 on the corresponding frame assemblies 3 according to design requirements, the user slides the sliding rods 22 connected with the limiting plates 21 along the corresponding sliding grooves 31 from one ends of the corresponding frame assemblies 3, the sliding rods 22 integrally slide into the sliding grooves 31 of the frame assemblies 3, so that the limiting plates 21 are installed on the frame assemblies 3, one side of each limiting plate 21 close to the sliding rod 22 is abutted against the frame assemblies 3, and then the user installs the other limiting plate 21 on the frame assemblies 3 through the sliding rods 22 in the other sliding groove 31 on the same side of the frame assemblies 3, so that two limiting plates 21 in the same group are installed on the corresponding frame assemblies 3, and inclined planes 211 of the two limiting plates 21 in the same group are obliquely arranged from one end close to the sliding rods 22 to one end far away from the sliding rods 22. The above operations are then repeated by the design user to install three additional sets of stop plates 21 on the three additional frame assemblies 3. The user then connects two adjacent frame assemblies 3 via the connecting assembly 4, and the inclined surfaces 211 of the two sets of limiting plates 21 connected to the two frame assemblies 3 are correspondingly attached one by one. Then the user inserts glass window 5 between four groups of limiting plates 21, makes the rubber strip 23 of every limiting plate 21 all contradict on glass window 5, and then the user connects four frame components 3 through coupling assembling 4 to make glass window 5 set up between every group of corresponding limiting plate 21, accomplish the equipment of aluminum alloy window, the user of being convenient for transport and deposit aluminum alloy window. The rubber strip 23 plays a role in clamping the glass window body 5, prevents the glass window body 5 from swinging in a gap between the limiting plates 21, plays a role in sealing the gap between the glass window body 5 and the limiting plates 21, and improves the tightness of the aluminum alloy window body.

Referring to fig. 2 and 4, the mounting assembly 2 further includes eight mounting members 24, each four mounting members 24 are in a group, two groups of mounting members 24 are respectively disposed on two inner and outer sides of the aluminum alloy window body, and four mounting members 24 disposed on the same side of the aluminum alloy window body are respectively disposed at four corner positions of the aluminum alloy window body corresponding to the window frame 1. The mounting piece 24 is a right-angle bending plate, the cross section of the mounting piece is L-shaped, two sides of the mounting piece 24 which are mutually perpendicular are respectively abutted against two side walls of the window frame 1 which are mutually perpendicular, each mounting piece 24 is fixedly connected with a fixing plate 241 at the position close to the frame component 3, each fixing plate 241 is correspondingly provided with a mounting bolt 242 at the position in the middle of the mounting plate, and each fixing plate 241 is connected with a corresponding connecting component 4 through the corresponding mounting bolt 242. Each mounting piece 24 is in threaded connection with an expansion bolt 243 corresponding to the middle position of each side wall, and the expansion bolts 243 can be clamped at the corresponding positions of the window frame 1. Two adjacent connecting pieces positioned on the same side of the aluminum alloy window body are connected with sealing rubber strips 25 together through screws, and the sealing rubber strips 25 can cover the corresponding gap between the frame assembly 3 and the window frame 1.

When the aluminum alloy window is used by a user, the user connects two groups of mounting pieces 24 to the inner side and the outer side of the aluminum alloy window body respectively, connects four mounting pieces 24 of the same group to positioning blocks 41 at four corner positions of the aluminum alloy window body respectively through fixing plates 241 and mounting bolts 242, bends right angles of the mounting pieces 24 to be attached to four corner positions of the window frame 1, and then the user fixes the mounting pieces 24 to the window frame 1 respectively through expansion bolts 243, so that the assembled aluminum alloy window body is mounted in the window frame 1 of the wall body. And then a user connects the sealing rubber strip 25 between two adjacent connecting pieces on the same side of the aluminum alloy window body through screws, and the sealing rubber strip 25 plays a role in sealing a gap between the frame assembly 3 and the door frame, so that the tightness of the aluminum alloy window body is further improved.

Referring to fig. 4 and 5, each connecting assembly 4 includes a positioning block 41 and two connecting rods 42, the positioning block 41 is square, each side surface of each positioning block 41 is provided with a threaded hole 411, the threaded holes 411 are formed at positions, close to the middle positions, of the positioning blocks 41, and the mounting bolts 242 can be in threaded connection with the corresponding threaded holes 411. The two connecting rods 42 of the same connecting assembly 4 are respectively in threaded connection with the threaded holes 411 on the two adjacent side surfaces of the corresponding positioning block 41, and the length directions of the two connecting rods 42 of the same connecting assembly 4 are mutually perpendicular. Each connecting rod 42 is fixedly connected with four supporting ribs 421 along the peripheral wall of the connecting rod, the supporting ribs 421 can be abutted against the positioning blocks 41, and the outer sides of the supporting ribs 421 are obliquely arranged towards the connecting rod 42 from the position close to the positioning blocks 41 to the position far away from the positioning blocks 41. One end of each connecting rod 42 far away from the positioning block 41 is fixedly connected with a limiting block 43, and the limiting block 43 is square. Each frame component 3 is provided with a connecting groove 32 along the length direction close to the two ends, the connecting grooves 32 are square grooves, and the limiting blocks 43 can extend into and be clamped in the connecting grooves 32 of the frame components 3 along the connecting grooves 32 of the window frame 1 components. The two connecting rods 42 connected with each positioning block 41 and the corresponding limiting blocks 43 can respectively extend into the connecting grooves 32 of the two adjacent frame assemblies 3 so as to connect the two adjacent frame assemblies 3, the cross section of each positioning block 41 covers the cross section of each frame assembly 3, and the cross section area of each positioning block 41 is equal to the cross section area of each frame assembly 3.

Referring to fig. 4 and 5, mounting grooves 44 are formed in positions of each positioning block 41 corresponding to two sides of each connecting rod 42, a fixing insert rod 45 is connected in each mounting groove 44 of each positioning block 41 through bolts, and the length direction of the fixing insert rod 45 is set along the length direction of the corresponding connecting rod 42. The positions, close to two ends, of each side wall of each frame component 3 are provided with a sinking groove 33, the sinking grooves 33 are arranged between two sliding grooves 31 on the same side of the frame component 3, and the fixed inserted bars 45 can be clamped in the sinking grooves 33 corresponding to the frame components 3. The two fixed inserted bars 45 arranged on two sides of the same connecting rod 42 are connected with fastening bolts 46 in a threaded mode at positions away from the corresponding limiting blocks 43, and the fastening bolts 46 penetrate through the frame assembly 3 and the limiting blocks 43.

When the positioning block is used by a user, the connecting rod 42 is installed in the threaded hole 411 on the corresponding side face of the positioning block 41 through threads, so that the limiting block 43 is connected with the positioning block 41, then the user is connected with the fixed inserting rods 45 through bolts in the installation grooves 44 on the two sides of the corresponding connecting rod 42 of the positioning block 41, then the user inserts the connecting rod 42 and the limiting block 43 into the corresponding connecting grooves 32 of the frame assembly 3, and the fixed inserting rods 45 on the two sides of the connecting rod 42 are clamped into the sinking grooves 33 of the corresponding frame assembly 3, so that the positioning block 41 is connected with the frame assembly 3, finally the user installs the fastening bolts 46 through threads at the position, away from the positioning block 41, of the fixed inserting rods 45, the frame assembly 3 and the limiting block 43, so that the positioning block 41, the connecting rod 42, the limiting block 43, the fixed inserting rods 45, the frame assembly 3 and the fastening bolts 46 are connected. The user repeats the operation and connects four frame components 3 according to the aluminum alloy window body, and connecting rod 42, locating piece 41 and stopper 43 are jointly with two adjacent frame components 3 as an organic wholes, and the user can transport required frame component 3 and coupling assembling 4 to the job site respectively, has avoided the aluminum alloy window body volume through welding integrated into one piece great, inconvenient problem of transportation. Meanwhile, a user can store each connecting component 4 and the frame component 3 respectively without installing, so that space occupation is reduced, and collision damage easily caused by large size is also reduced. In addition, the limiting block 43, the sinking groove 33, the fixed inserting rod 45 and the fastening bolt 46 play a role in reinforcing the connection stability of the two adjacent frame assemblies 3, and prevent the aluminum alloy window body after being installed from being scattered. The supporting rib 421 plays a role in reinforcing the strength of the connecting rod 42, preventing the connecting rod 42 from being deformed by strong external impact, and improving the structural strength of the connecting rod 42.

The implementation principle of the assembled aluminum alloy window body provided by the embodiment of the application is as follows: the user installs limiting plate 21 to corresponding frame assembly 3, the user slides slide bar 22 that limiting plate 21 connects along corresponding spout 31 from the one end of corresponding frame assembly 3, make slide bar 22 whole slide into spout 31 of frame assembly 3 thereby install limiting plate 21 to frame assembly 3, and make limiting plate 21 be close to slide bar 22 one side and contradict frame assembly 3, then the user also installs another limiting plate 21 to this frame assembly 3 through slide bar 22 in another spout 31 of this frame assembly 3 homonymy, thereby install two limiting plates 21 of same group on corresponding frame assembly 3, then repeat above-mentioned operation according to the design user and install another three sets of limiting plates 21 on other three frame assemblies 3. Then the user inserts the glass window 5 between the four groups of limiting plates 21, so that the rubber strip 23 of each limiting plate 21 is abutted against the glass window 5. The user then installs the connecting rods 42 on the positioning block 41 through threads so as to connect the limiting blocks 43 with the positioning block 41, then the user connects the fixing inserting rods 45 in the installation grooves 44 on two sides of the positioning block 41 corresponding to each connecting rod 42 through bolts, then the user inserts the connecting rods 42 and the limiting blocks 43 into the corresponding connecting grooves 32 of the frame assemblies 3, and clamps the fixing inserting rods 45 on two sides of the connecting rods 42 into the sinking grooves 33 of the corresponding frame assemblies 3 so as to connect the positioning block 41 with the frame assemblies 3, and finally the user installs the fastening bolts 46 through threads on the fixing inserting rods 45 at positions, far from the positioning block 41, of the fixing inserting rods 45, so that the fastening bolts 46 penetrate through the fixing inserting rods 45, the frame assemblies 3 and the limiting blocks 43, and then the positioning block 41, the connecting rods 42, the limiting blocks 43, the fixing inserting rods 45, the frame assemblies 3 and the fastening bolts 46 are connected. The user repeats the operation to connect the four frame assemblies 3 according to the aluminum alloy window body, the connecting rod 42, the positioning block 41 and the limiting block 43 jointly connect the two adjacent frame assemblies 3 into a whole, and the inclined planes 211 of the two groups of limiting plates 21 connected to the two adjacent frame assemblies 3 are correspondingly attached one by one. Finally, the user installs the installation member 24 at four corners of the aluminum alloy window body through the fixing plate 241 and the installation bolts 242, respectively, and then connects the installation member 24 to the window frame 1 of the wall body through the expansion bolts 243, thereby installing the aluminum alloy window body between the window frames 1 of the wall body.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (8)

1. An assembled aluminum alloy window body, includes window frame (1), its characterized in that: a plurality of frame components (3) and a plurality of connecting components (4) are arranged in the window frame (1), two adjacent frame components (3) are mutually perpendicular, and the connecting components (4) are respectively arranged between the two adjacent frame components (3) and are used for connecting the two adjacent frame components (3);

connecting grooves (32) are formed in two ends of each frame component (3), and a plurality of sinking grooves (33) are formed in positions, corresponding to the connecting grooves (32), of each frame component (3);

each connecting assembly (4) comprises a positioning block (41) and a plurality of connecting rods (42), the plurality of connecting rods (42) of the same connecting assembly (4) can be detachably connected to each side face of the positioning block (41), one end of each connecting rod (42) is fixedly connected with a limiting block (43), the limiting block (43) can be clamped in a connecting groove (32) of a corresponding frame assembly (3), each positioning block (41) corresponds to each connecting rod (42) and is detachably connected with a fixed inserting rod (45), the length direction of each fixed inserting rod (45) is arranged along the length direction of the corresponding connecting rod (42), and the fixed inserting rods (45) can be clamped in the corresponding sinking grooves (33) of the corresponding frame assembly (3).

2. The assembled aluminum alloy window according to claim 1, wherein: two fixed inserted bars (45) corresponding to two sides of each connecting rod (42) are connected with fastening bolts (46) in a threaded mode, and the fastening bolts (46) penetrate through corresponding limiting blocks (43).

3. The assembled aluminum alloy window according to claim 1, wherein: each frame component (3) is provided with an installation component (2), the installation component (2) comprises a plurality of limiting plates (21), each limiting plate (21) is fixedly connected with a sliding rod (22), each side wall of each frame component (3) is provided with two sliding grooves (31), the length direction of each sliding groove (31) is arranged along the length direction of the corresponding frame component (3), the sliding rods (22) can be slidably connected in the sliding grooves (31) of the frame component (3), and glass window bodies (5) are connected between the two limiting plates (21) on the same side of the same frame component (3) in a joint mode.

4. A modular aluminum alloy window as claimed in claim 3, wherein: and the positions, far away from the sliding rods (22), of the limiting plates (21) are fixedly connected with rubber strips (23), and the rubber strips (23) are arranged in a manner of abutting against the glass window body (5).

5. A modular aluminum alloy window as claimed in claim 3, wherein: inclined planes (211) are formed at two ends of each limiting plate (21), and the inclined planes (211) of the two limiting plates (21) which are perpendicular to each other in the length direction can be mutually attached.

6. A modular aluminum alloy window as claimed in claim 3, wherein: the installation component (2) still includes eight installed part (24), installed part (24) are right angle bent plate, every installed part (24) are close to locating piece (41) one side and all fixedly connected with fixed plate (241), every four installed part (24) are a set of, two sets of installed part (24) set up respectively in aluminum alloy window inside and outside both sides, four installed part (24) of same group set up respectively in four corner positions department of window frame (1), fixed plate (241) are through bolted connection locating piece (41) in corresponding position department, installed part (24) are connected in adjacent both sides of window frame (1) through expansion bolts (243).

7. The assembled aluminum alloy window of claim 6, wherein: and sealing rubber strips (25) are connected between two adjacent mounting pieces (24) positioned on the same side of the window frame (1), and the sealing rubber strips (25) cover the gap between the frame assembly (3) and the window frame (1).

8. The assembled aluminum alloy window according to claim 1, wherein: four supporting ribs (421) are fixedly connected to the positions, close to the positioning blocks (41), of the connecting rods (42), each supporting rib (421) can be abutted to the corresponding positioning block (41), and the outer side of each supporting rib (421) is obliquely arranged from one end, close to the positioning block (41), to one end, far away from the positioning block (41), to the connecting rod (42).