CN210659706U - Window frame and anti-assembled window system of splicing material combination - Google Patents

Abstract

The utility model relates to a window frame and anti-splicing material combined assembled window system, which comprises a window frame structure, a fixed glass structure arranged on the window frame structure, and a window sash structure arranged on the window frame structure; the window frame structure comprises a rectangular frame-shaped window frame main body and a middle frame column arranged in the window frame main body, wherein the middle frame column divides the window frame main body into at least two branch window frames; the branch window frame comprises a branch frame body, and an annular frame body groove is formed in the inner side of the branch frame body; at least one fixed glass structure is correspondingly embedded in at least one frame body groove, and at least one window sash structure is correspondingly arranged in at least one frame body groove. The utility model provides a technical scheme makes the visual face of window narrow to make the window whole pleasing to the eye succinct, and make the whole penetrating daylighting of window good, improved user's satisfaction.

Description

Window frame and anti-assembled window system of splicing material combination

Technical Field

The utility model relates to a building door and window technical field especially relates to an assembled window system of window frame and anti-ingredient combination.

Background

In recent years, with the rapid development of the economic level of China, the living standard of residents is improved, and more residential buildings are provided. Further, among residential buildings of the residential community type, high-rise and super high-rise residential buildings are increasing. Also, in these high-rise buildings, window structures are largely used as building peripheral structures for lighting and ventilation of buildings. Meanwhile, the requirements of residents on the attractiveness and simplicity of the window structure are higher and higher. The aesthetic property and the simplicity of the window are important links for designing the window and door, and at present, some domestic window and door systems do not pay enough attention to the design, are often swallowed by hardsets, move past installation methods, and do not consider the simplicity and the aesthetic property of the window and door. The aesthetic appearance and the conciseness of the window are influenced by various factors, for example, the window section has too wide indoor visible surface, so that the whole frame window is not beautiful and the indoor appearance effect is influenced; and the whole door and window has poor permeability, the lighting effect of the door and window is influenced, and the user is unsatisfied with the whole window after completion acceptance.

SUMMERY OF THE UTILITY MODEL

Based on this, the utility model provides an assembled window system of window frame and anti-makeup material combination makes the window visible face narrow to make the window whole pleasing to the eye succinct, and make the whole penetrating daylighting of window good, improved user's satisfaction.

In order to achieve the above object, the utility model provides a following technical scheme:

a window frame and anti-splicing material combined assembly type window system comprises a window frame structure, a fixed glass structure arranged on the window frame structure, and a window sash structure arranged on the window frame structure;

the window frame structure comprises a rectangular frame-shaped window frame main body and a middle frame column arranged in the window frame main body, wherein the middle frame column divides the window frame main body into at least two branch window frames; the branch window frame comprises a branch frame body, and an annular frame body groove is formed in the inner side of the branch frame body;

the window frame main body comprises two vertical frame columns arranged in parallel and two transverse frame columns arranged in parallel, wherein one transverse frame column is connected between one ends of the two vertical frame columns, and the other transverse frame column is connected between the other ends of the two vertical frame columns; the middle frame column is connected to the vertical frame column, or connected to the transverse frame column, or connected to another middle frame column, and the vertical frame column, the transverse frame column and the middle frame column are arranged in a surrounding manner to form the branch frame body;

the vertical frame column comprises a vertical column main body, and a vertical column groove is formed in the inner side of the vertical column main body; the transverse frame column comprises a transverse column main body, and a transverse column groove is formed in the inner side of the transverse column main body; the middle frame column comprises a middle column main body, and middle column grooves are formed in two sides of the middle column main body respectively; in the branch window frame, the vertical column groove, the transverse column groove and the middle column groove are communicated to form the frame body groove; at least one fixed glass structure is correspondingly embedded in at least one frame body groove, and at least one window sash structure is correspondingly arranged in at least one frame body groove.

Optionally, the sash structure includes an annular sash frame body disposed on the branch frame body, and a sash glass structure embedded in the sash frame body;

the sash window frame body comprises an annular inverse splicing plate fixedly arranged on the inner side of the vertical frame column, the inner side of the transverse frame column and the side edge of the middle frame column, an annular sash frame column connected to the inverse splicing plate, and an annular window pressing line arranged on the inner side of the sash frame column; an annular sash frame groove is formed between the window pressing line and the sash frame column, and the sash window glass structure is embedded in the sash frame groove.

Optionally, the reverse splicing material plate comprises a reverse splicing main plate connected with the vertical frame column, the horizontal frame column and the middle frame column, and a reverse splicing side plate protruding out of the indoor side of the reverse splicing main plate;

the fan frame column comprises a fan frame main column body connected with the reverse splicing main board, a first fan frame side plate protruding out of one end of the outdoor side of the fan frame main column body, and a second fan frame side plate protruding out of the other end of the outdoor side of the fan frame main column body;

the window pressing line is connected to the indoor side of the sash frame main column body, and a sash frame groove is formed between the window pressing line and the second sash frame side plate in an enclosing manner; and a fan frame sealing groove is formed between the reverse splicing side plate and the first fan frame side plate in an enclosing manner.

Optionally, the vertical frame column, the horizontal frame column and the middle frame column all include groove-shaped frame column main bodies and frame column connecting plates protruding from one side of the frame column main bodies;

the frame column comprises a frame column main body and is characterized in that a first frame column buckling structure is arranged on the frame column main body, an inversely spliced buckling structure is arranged on an inversely spliced main board, the inversely spliced buckling structure is buckled with the first frame column buckling structure, and the inversely spliced main board is fixedly connected with a frame column connecting plate through bolts.

Optionally, the window frame structure further comprises an upper wall plate arranged in the wall body, and a wall plate buckling structure is arranged on the upper wall plate;

the transverse frame column and the vertical frame column are respectively arranged on the second frame column buckling structures on two sides of the frame column main body, and the second frame column buckling structures are buckled on the wallboard buckling structures.

Optionally, the fan frame column includes a fan column fastening structure disposed on the fan frame main column, a window line fastening structure is disposed on the window pressing line, and the window line fastening structure is fastened to the fan column fastening structure.

Optionally, a first sealing ring is arranged between the first sash frame side plate and the vertical frame column, or between the first sash frame side plate and the horizontal frame column, or between the first sash frame side plate and the sash frame main column, a second sealing ring is arranged between the reverse splicing side plate and the sash frame main column, a third sealing ring is arranged between the second sash frame side plate and the sash window glass structure, and a fourth sealing ring is arranged between the window pressing line and the sash window glass structure.

Optionally, the first sealing ring is buckled on the inner side of the first sash frame side plate and is abutted against the vertical frame column, the transverse frame column or the outer side surface of the middle frame column;

the second sealing ring is buckled on the inner side of the reverse splicing side plate and is abutted against the inner side of the main column body of the fan frame;

the third sealing ring is buckled on the inner side of the second sash frame side plate and is abutted against the outer side of the sash window glass structure;

the fourth sealing ring is buckled on the inner side of the window pressing line and is abutted against the inner side of the sash window glass structure.

Optionally, the window frame structure includes the window frame main body, and at least one of the center frame columns vertically disposed in the window frame main body, and the center frame column is parallel to the mullion column;

or the window frame structure comprises the window frame main body and at least one middle frame column which is transversely arranged in the window frame main body, and the middle frame column is parallel to the transverse frame column.

Optionally, the window frame structure includes the window frame main body, and at least one of the center frame columns vertically disposed in the window frame main body, and the vertical center frame column is parallel to the mullion column;

the window frame structure further comprises at least one middle frame column transversely arranged in the window frame main body, the transverse middle frame column is parallel to the transverse frame column, and the transversely arranged middle frame column is connected with the vertically arranged middle frame column.

In the technical scheme provided by the utility model, when the fixed glass structure is arranged on the window frame structure, the fixed glass structure is directly clamped into the frame body groove of the branch window frame during assembly, and an inverse material splicing plate is not needed, so that the visible surface of the profile line of the window structure is narrow; when the window frame structure is provided with the window sash structure, the anti-splicing plate is buckled in the frame body groove of the branch frame body, so that the window frame can be used as a window sash window frame, and is flexible and practical. And the window frame structure and the anti-splicing plate are installed simply, the visible surface of the profile lines is narrow after combination, and the window is wholly transparent and bright, so that the window has a good lighting effect. The window frame structure is compact in matching with the reverse splicing material plate, and the processing and the assembling are simple. The window is transparent and bright as a whole, has overall performance superior to other conventional window types, has decisive advantages in the aspects of installation precision, finished product protection and the like, has good compatibility, can be combined with conventional hardware system products for use, and is more competitive.

Drawings

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

Fig. 1 is a schematic perspective view of an assembled window system with a window frame and a reverse splicing material combined according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of an exploded view of a window frame and anti-splicing material combined assembled window system according to an embodiment of the present invention;

FIG. 3 is a simplified schematic exploded view of a window system with a window frame and anti-tilt assembly according to an embodiment of the present invention (with the sash structure removed);

FIG. 4 is a simplified schematic front view of a window frame and inverse ingredient combined prefabricated window system according to an embodiment of the present invention;

3 FIG. 35 3 is 3 a 3 schematic 3 sketch 3 of 3 a 3 cross 3- 3 sectional 3 view 3 of 3 the 3 partial 3 A 3- 3 A 3 cross 3- 3 section 3 of 3 FIG. 34 3; 3

FIG. 6 is a schematic sketch of a sectional structure of the partial B-B cross section of FIG. 4;

FIG. 7 is a diagrammatic, schematic cross-sectional view of the partial C-C cross-section of FIG. 4;

fig. 8 is a schematic cross-sectional view of the partial D-D section of fig. 4.

The reference numbers illustrate:

the objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that, if directional indications (such as upper, lower, left, right, front, back, top and bottom … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description relating to "first", "second", etc. in the embodiments of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

As shown in fig. 1 to 3, the present invention provides a window frame and anti-splicing material combined assembly window system, which includes a window frame structure 100, a fixed glass structure 200 disposed on the window frame structure 100, and a window sash structure 300 disposed on the window frame structure 100. The fixing glass structure 200 and the window sash structure 300 may be fixed by the window frame structure 100; indoor lighting can be realized by arranging the fixed glass structure 200 and the window sash structure 300; and indoor and outdoor air circulation can be achieved by opening the window sash structure 300.

Specifically, the window frame structure 100 may include a rectangular frame-shaped window frame body, and a middle frame pillar 130 disposed in the window frame body, wherein the middle frame pillar 130 may partition the window frame body into at least two branch window frames. The branch window frame includes a branch frame body, and an annular frame body groove is provided inside the branch frame body. Furthermore, at least one fixed glass structure 200 is correspondingly embedded in at least one frame body groove, and at least one sash structure 300 is correspondingly arranged in at least one frame body groove. By arranging the middle frame column 130 in the frame structure 100, the frame body may be divided into a plurality of (including two or more) branch frames, and each branch frame may have a frame groove inside, so that the fixed glass structure 200 or the sash structure 300 may be directly installed in the frame groove, and a plurality of fixed glass structures 200 and sash structures 300 may be arranged. In addition, the use of the cavity section bar can be reduced, so that the visible surface of the section bar can be reduced, the light transmission area of a window system can be increased, the whole window is transparent and bright, and the window has a good lighting effect.

Further, the window frame body may include two vertical frame columns 110 disposed in parallel, and two horizontal frame columns 120 disposed in parallel, wherein one horizontal frame column 120 is connected between one ends of the two vertical frame columns 110, and the other horizontal frame column 120 is connected between the other ends of the two vertical frame columns 110. The horizontal frame columns 120 and the vertical frame columns 110 can be connected into a rectangular frame-shaped structure at intervals. The middle frame column 130 is connected to the vertical frame column 110, or connected to the horizontal frame column 130, or connected to another middle frame column 130, and the vertical frame column 110, the horizontal frame column 120, and the middle frame column 130 are surrounded to form a branched frame. That is, a plurality of middle frame columns may be provided, and the middle frame column 130 may be connected to the vertical frame column 110, the horizontal frame column 120, or another middle frame column 130, thereby forming a branching frame body in various forms.

Also, in some embodiments, the window frame structure 100 may include a window frame body, and at least one center frame pillar 130 vertically disposed in the window frame body, the center frame pillar being parallel to the vertical frame pillar 110. That is, in the present embodiment, both ends of each middle frame column 130 are respectively connected to two horizontal frame columns 120 to form a plurality of vertical branch frame bodies.

In addition, in other embodiments, the window frame structure 100 may include a window frame body, and at least one middle frame pillar 130 transversely disposed in the window frame body, wherein the middle frame pillar 130 is parallel to the horizontal frame pillar 120. That is, in the present embodiment, two ends of each middle frame column 130 are respectively connected to two vertical frame columns 110 to form a plurality of lateral branch frame bodies.

In addition, in other embodiments, the window frame structure 100 may include a window frame body, and at least one middle frame pillar 130 vertically disposed in the window frame body, wherein the vertical middle frame pillar 130 is parallel to the vertical frame pillar 110; moreover, the window frame structure 100 further includes at least one middle frame pillar 130 transversely disposed in the window frame main body, the transverse middle frame pillar 130 is parallel to the transverse frame pillar 120, and the transversely disposed middle frame pillar 130 is connected to the vertically disposed middle frame pillar 130. That is, in the present embodiment, the window frame body is provided with the horizontal frame column 120 and the vertical frame column 110 in the horizontal direction, and the horizontal branch frame body and the vertical branch frame body can be formed at the same time.

Moreover, the vertical frame post 110 may include a vertical post body, and a vertical post groove is formed in the inner side of the vertical post body. Moreover, the cross frame pillar 120 may include a cross pillar body, and a cross pillar groove is formed in an inner side of the cross pillar body. The middle pillar 130 may include a middle pillar body, and two sides of the middle pillar body are respectively provided with a middle pillar groove. In the branch window frame, the pillar groove, and the pillar groove are communicated to form a frame groove, and the fixed glass structure 200 and the window sash structure 300 may be installed in the frame groove. That is, the vertical frame column 110, the horizontal frame column 120 and the middle frame column 130 are all designed as groove structures, rather than cavity structures in the conventional technology, the fixed glass structure 200 and the window sash structure 300 can be directly clamped and fixed, so that the visible surfaces of the profiles (such as the vertical frame column, the horizontal frame column and the middle frame column) can be reduced, the transmittance of the window system is increased, and the processing and the assembly are simple.

In addition, as shown in fig. 4 to 8, the window sash structure 300 may include an annular sash frame body disposed on the branch frame body, and a sash glass structure 340 embedded in the sash frame body. The sash glass structure 340 may be fixed by a sash frame to form the sash structure 300, and the sash structure 300 may be hinged in a branch frame for opening and closing. Moreover, the sash window frame may include an annular inverse material plate 310 fixedly disposed at the inner side of the vertical frame post 110, the inner side of the horizontal frame post 120, and the side of the middle frame post 130, an annular sash frame post 320 connected to the inverse material plate 310, and an annular window pressing line 330 disposed at the inner side of the sash frame post 320. The sash frame column 320 is connected into the branch frame body through the inverse material splicing plate 310, so that the assembly of the sash window frame body and the branch frame body is simple and convenient; moreover, the structure of the anti-splicing material plate 310 can be simplified, so that the anti-splicing material plate does not have a cavity structure, and the visible surface of the sash window frame body is reduced. Furthermore, an annular sash groove is formed between the window pressing line 330 and the sash frame post 320, and the sash window glass structure 340 can be embedded in the sash groove. Similarly, by embedding the sash window glass structure 340 in the sash groove formed between the window pressing line 330 and the sash frame post 320, the sash window glass structure 340 is no longer fixed by using inverse splicing material, and the visible surface of the sash window frame body can also be reduced.

Further, the anti-splicing plate 310 may include an anti-splicing main plate connected to the vertical frame column 110, the horizontal frame column 120, and the middle frame column 130, and an anti-splicing side plate protruding from an indoor side of the anti-splicing main plate. The reverse splicing main board can be fixedly connected with the vertical frame column 110, the horizontal frame column 120 or the middle frame column 130, and can also be connected with the fan frame column 320. Moreover, the anti-splicing side plates are bent and extended at one end of the anti-splicing main plate, so that the anti-splicing plate 310 is formed into an L-shaped structure, the anti-splicing plate 310 does not have a cavity structure, the structure of the anti-splicing plate 310 is simplified, and the visible surfaces of the anti-splicing plate 310 and the fan window frame body can be reduced.

Moreover, the frame post 320 may include a frame main post connected to the reverse-assembled main board, a first frame side plate protruding out of one end of the frame main post outside the room, and a second frame side plate protruding out of the other end of the frame main post outside the room. Can establish fan frame post 320 into T shape structure, fan frame owner cylinder both sides are located respectively to first fan frame curb plate and second fan frame curb plate, are convenient for form sealedly between branch framework and fan window framework through first fan frame curb plate and anti-piece together the curb plate, also are convenient for to be connected through fan frame owner cylinder and anti-piece together the mainboard, still are convenient for carry out the centre gripping through second fan frame curb plate and window line ball 330 to window glass structure 340 simultaneously and fix. Moreover, the window pressing line 330 is connected to the inner side of the main pillar of the sash frame, a sash frame groove is defined between the window pressing line 330 and the second sash frame side plate, and a sash frame sealing groove is defined between the reverse-assembled side plate and the first sash frame side plate. The sash glass structure 340 can be clamped and fixed in the sash groove without using reverse splicing materials to fix the sash glass structure 340, thereby reducing the visible surface of the sash frame body of the whole sash structure 300 and increasing the light transmission area of the window system.

Moreover, the vertical frame column 110, the horizontal frame column 120, and the middle frame column 130 may include a groove-shaped frame column main body and a frame column connecting plate protruding from one side of the frame column main body. Namely, the U-shaped groove-shaped frame column main body can be arranged on the vertical frame column 110, the horizontal frame column 120 and the middle frame column 130, instead of the frame column main body with the cavity structure, so that the visible surface of the section bar (the vertical frame column 110, the horizontal frame column 120 and the middle frame column 130) can be reduced. Moreover, the frame column main body can be provided with a first frame column buckling structure, the inversely spliced main board can be provided with an inversely spliced buckling structure, the inversely spliced buckling structure is buckled with the first frame column buckling structure, and the inversely spliced main board is fixedly connected with the frame column connecting plate through a bolt. Namely, the reverse splicing main board and the frame column main body can be connected and fixed in a buckling connection mode, and the reverse splicing material board 310, the vertical frame column 110, the transverse frame column 120 and the middle frame column 130 can be simply and conveniently positioned, connected and assembled; furthermore, the reverse splicing side plate is fixedly connected with the frame column connecting plate on one side of the frame column main body through bolts, so that the reverse splicing side plate 310 can be further fixed with the vertical frame column 110, the horizontal frame column 120 and the middle frame column 130. Therefore, the connection between the material-reversing plate 310 and the vertical frame column 110, the horizontal frame column 120 and the middle frame column 130 is simple, firm and reliable, and the structures of the material-reversing plate 310, the vertical frame column 110, the horizontal frame column 120 and the middle frame column 130 can be simplified. Moreover, the frame post 320 may include a frame post fastening structure disposed on the main frame post, and the window pressing line 330 is provided with a window line fastening structure, which is fastened to the frame post fastening structure. Namely, the sash frame column 320 and the window pressing line 330 can be connected in a snap-fit manner, and the connection is simple and convenient.

In addition, the window frame structure 100 may further include a top wall plate 140 disposed in the wall, and the top wall plate 140 is provided with a wall plate fastening structure. Moreover, the horizontal frame column 120 and the vertical frame column 110 can include a second frame column fastening structure disposed on two sides of the frame column main body, and the second frame column fastening structure is fastened on the wall board fastening structure. The transverse frame column (or the vertical frame column) and the upper wallboard 140 can be connected in a buckling mode through the buckling structure, and the connection is simple and convenient. Compared with the screw connection, the structure is simplified and the visible surfaces of the sectional materials and the frame body are reduced because a cavity structure is not adopted on the sectional materials such as the transverse frame column 120, the vertical frame column 110 and the like.

In addition, a first sealing ring 350 is arranged between the first sash frame side plate and the vertical frame column 110, or the horizontal frame column 120, or the middle frame column 130, a second sealing ring 360 is arranged between the reverse splicing side plate and the sash frame main column body, a third sealing ring 370 is arranged between the second sash frame side plate and the sash window glass structure 340, and a fourth sealing ring 380 is arranged between the window pressing line 330 and the sash window glass structure 340. Through setting up first sealing washer 350, second sealing washer 360, third sealing washer 370 and fourth sealing washer 380, can seal casement structure 300 from all around, waterproof performance is good. Specifically, the first sealing ring 350 is fastened to the inner side of the first frame side plate and abuts against the outer side of the vertical frame column 110, the horizontal frame column 120, or the middle frame column 130. That is, the first sealing ring 350 can seal a gap between the first frame side plate of the frame column 320 and the outer side surface of the vertical frame column 110 (or the horizontal frame column 120, or the middle frame column 130). In addition, the second seal ring 360 is fastened to the inner side of the reverse-assembled side plate and abuts against the inner side of the main column of the fan frame. That is, the second sealing ring 360 can seal the gap between the reverse-assembling side plate of the reverse-assembling plate 310 and the main body of the sash frame column 320. The third gasket 370 is fastened to the inner side of the second sash frame side plate and abuts against the outer side of the sash window glass structure 340. That is, the third gasket 370 may seal a gap between the sash window glass structure 340 and the second sash side plate of the sash frame pillar 320. In addition, the fourth sealing ring 380 is fastened inside the window pressing line 330 and abuts against the inside of the sash window glass structure 340. That is, the fourth gasket 380 may seal the gap between the sash window glass structure 340 and the window pressing line 330. In addition, the window sash frame body is further provided with a push handle 390, and the window sash structure 300 can be conveniently pushed open or closed by the push handle 390.

Further, the installation process of the above window system is as follows: firstly, the upright frame column 110 is well arranged, then the middle frame column 130 is well arranged, and then the edge of the fixed glass structure 200 is placed in the notches of the upright frame column 110 and the middle frame column 130; then, fixing the horizontal frame column 120 at the end of the vertical frame column 110 and the end of the middle frame column 130 by using screws, and paying attention to the fact that the horizontal frame column 120 with the drainage groove is positioned at the bottom, so that the window frame structure and the fixed glass structure 200 are completely assembled; assembling the reverse material splicing plate 310 on the inner sides of the vertical frame column 110, the horizontal frame column 120 and the middle frame column 130, wherein the reverse material splicing plate 310 can be assembled and fastened in the frame body groove by adopting 45 degrees; after the reverse material-splicing plate 310 is assembled, the sash frame post 320, the sash glass structure 340 and the window pressing line 330 of the sash structure 300 are assembled to form a complete frame window; and (4) transporting the whole frame window to an installation site, and fixing the whole frame window in the opening of the wall body by using the upper wall piece.

In the technical scheme provided by the utility model, when the fixed glass structure is arranged on the window frame structure, the fixed glass structure is directly clamped into the frame body groove of the branch window frame during assembly, and an inverse material splicing plate is not needed, so that the visible surface of the profile line of the window structure is narrow; when the window frame structure is provided with the window sash structure, the anti-splicing plate is buckled in the frame body groove of the branch frame body, so that the window frame can be used as a window sash window frame, and is flexible and practical. And the window frame structure and the anti-splicing plate are installed simply, the visible surface of the profile lines is narrow after combination, and the window is wholly transparent and bright, so that the window has a good lighting effect. The window frame structure is compact in matching with the reverse splicing material plate, and the processing and the assembling are simple. The window is transparent and bright as a whole, has overall performance superior to other conventional window types, has decisive advantages in the aspects of installation precision, finished product protection and the like, has good compatibility, can be combined with conventional hardware system products for use, and is more competitive.

The above only be the preferred embodiment of the utility model discloses a not consequently restriction the utility model discloses a patent range, all are in the utility model discloses a conceive, utilize the equivalent structure transform of what the content was done in the description and the attached drawing, or direct/indirect application all is included in other relevant technical field the utility model discloses a patent protection within range.

Claims (10)

1. An assembled window system with a window frame and a reverse splicing material combination is characterized by comprising a window frame structure, a fixed glass structure arranged on the window frame structure, and a window sash structure arranged on the window frame structure;

the window frame structure comprises a rectangular frame-shaped window frame main body and a middle frame column arranged in the window frame main body, wherein the middle frame column divides the window frame main body into at least two branch window frames; the branch window frame comprises a branch frame body, and an annular frame body groove is formed in the inner side of the branch frame body;

the window frame main body comprises two vertical frame columns arranged in parallel and two transverse frame columns arranged in parallel, wherein one transverse frame column is connected between one ends of the two vertical frame columns, and the other transverse frame column is connected between the other ends of the two vertical frame columns; the middle frame column is connected to the vertical frame column, or connected to the transverse frame column, or connected to another middle frame column, and the vertical frame column, the transverse frame column and the middle frame column are arranged in a surrounding manner to form the branch frame body;

the vertical frame column comprises a vertical column main body, and a vertical column groove is formed in the inner side of the vertical column main body; the transverse frame column comprises a transverse column main body, and a transverse column groove is formed in the inner side of the transverse column main body; the middle frame column comprises a middle column main body, and middle column grooves are formed in two sides of the middle column main body respectively; in the branch window frame, the vertical column groove, the transverse column groove and the middle column groove are communicated to form the frame body groove; at least one fixed glass structure is correspondingly embedded in at least one frame body groove, and at least one window sash structure is correspondingly arranged in at least one frame body groove.

2. The window frame and inverse blank combined fabricated window system of claim 1, wherein the sash structure comprises an annular sash frame body disposed on the branch frame body, and a sash glass structure embedded in the sash frame body;

the sash window frame body comprises an annular inverse splicing plate fixedly arranged on the inner side of the vertical frame column, the inner side of the transverse frame column and the side edge of the middle frame column, an annular sash frame column connected to the inverse splicing plate, and an annular window pressing line arranged on the inner side of the sash frame column; an annular sash frame groove is formed between the window pressing line and the sash frame column, and the sash window glass structure is embedded in the sash frame groove.

3. The window frame and inverse-splice combination prefabricated window system of claim 2, wherein said inverse-splice plate comprises an inverse-splice main plate connected to said mullion column, and an inverse-splice side plate protruding from an indoor side of said inverse-splice main plate;

the fan frame column comprises a fan frame main column body connected with the reverse splicing main board, a first fan frame side plate protruding out of one end of the outdoor side of the fan frame main column body, and a second fan frame side plate protruding out of the other end of the outdoor side of the fan frame main column body;

the window pressing line is connected to the indoor side of the sash frame main column body, and a sash frame groove is formed between the window pressing line and the second sash frame side plate in an enclosing manner; and a fan frame sealing groove is formed between the reverse splicing side plate and the first fan frame side plate in an enclosing manner.

4. The window frame and inverse blank combined fabricated window system of claim 3, wherein said mullion columns, said transom columns, and said mullion columns each comprise a recessed mullion column body, and a mullion connection plate protruding from one side of said mullion column body;

the frame column comprises a frame column main body and is characterized in that a first frame column buckling structure is arranged on the frame column main body, an inversely spliced buckling structure is arranged on an inversely spliced main board, the inversely spliced buckling structure is buckled with the first frame column buckling structure, and the inversely spliced main board is fixedly connected with a frame column connecting plate through bolts.

5. The window frame and inverse trim combined fabricated window system of claim 4, wherein the window frame structure further comprises a top wall panel disposed in a wall, the top wall panel having a wall panel snap feature thereon;

the transverse frame column and the vertical frame column are respectively arranged on the second frame column buckling structures on two sides of the frame column main body, and the second frame column buckling structures are buckled on the wallboard buckling structures.

6. The window sash and inverse trim combination modular window system of claim 3, wherein the sash frame post includes a sash post snap feature disposed on the sash frame main column, and the window press line has a window line snap feature, the window line snap feature snap-fitting with the sash post snap feature.

7. The window frame and inverse gob shield combined fabricated window system of claim 3, wherein a first seal ring is disposed between said first sash frame side plate and said vertical frame column, or said horizontal frame column, or said center frame column, a second seal ring is disposed between said inverse gob shield and said sash frame main column, a third seal ring is disposed between said second sash frame side plate and said sash window glass structure, and a fourth seal ring is disposed between said window press line and said sash window glass structure.

8. The window frame and inverse spice combined fabricated window system of claim 7, wherein the first gasket is fastened to an inside of the first sash frame side panel and abuts against the vertical frame post, the horizontal frame post, or an outside of the middle frame post;

the second sealing ring is buckled on the inner side of the reverse splicing side plate and is abutted against the inner side of the main column body of the fan frame;

the third sealing ring is buckled on the inner side of the second sash frame side plate and is abutted against the outer side of the sash window glass structure;

the fourth sealing ring is buckled on the inner side of the window pressing line and is abutted against the inner side of the sash window glass structure.

9. The window frame and inverse blank combined fabricated window system of any one of claims 1-8, wherein the window frame structure comprises the window frame body, and at least one mullion column vertically disposed in the window frame body, the mullion column being parallel to the mullion column;

or the window frame structure comprises the window frame main body and at least one middle frame column which is transversely arranged in the window frame main body, and the middle frame column is parallel to the transverse frame column.

10. The window frame and inverse blank combined fabricated window system of any one of claims 1-8, wherein the window frame structure comprises the window frame body, and at least one mullion column vertically disposed in the window frame body, the vertically mullion column being parallel to the mullion column;

the window frame structure further comprises at least one middle frame column transversely arranged in the window frame main body, the transverse middle frame column is parallel to the transverse frame column, and the transversely arranged middle frame column is connected with the vertically arranged middle frame column.

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