CN213540084U - Double-side seal structure for sliding window and aluminum alloy window - Google Patents

Abstract

The utility model discloses a austral window, sliding sash is with bilateral sealing structure and aluminum alloy window, a width direction for following the window frame makes two adjacent window frames splice into wholly, austral window, sliding sash is with bilateral sealing structure includes that the width direction along the window frame lays relatively and two edge sealing section bar units of buckle concatenation, edge sealing section bar unit includes the diaphragm, the side bounding wall, side buckle board and elastic buckle, one side that the diaphragm was kept away from to the side buckle board is inwards bent and is formed and detain the foot, be equipped with on the elastic buckle board and detain the position of foot complex, two edge sealing section bar units are central symmetry and set up and splice each other with fixed connection and become wholly through detaining the foot with the cooperation of detaining the position. The utility model discloses a austral window, sliding sash is with bilateral seal structure adopts two identical edge sealing section bar unit locks to form, and the processing of being convenient for and deposit edge sealing section bar unit when having improved the commonality of edge sealing section bar unit, because the section of edge sealing section bar unit is small, the stock and the transportation of being convenient for.

Description

Double-side seal structure for sliding window and aluminum alloy window

Technical Field

The utility model relates to an aluminum alloy door and window technical field especially relates to a austral window, sliding sash is with bilateral seal structure. The utility model discloses still relate to an aluminum alloy window.

Background

The aluminum alloy section is an aluminum material with different cross-sectional shapes obtained by carrying out hot melting, extrusion and other modes on an aluminum rod. The peripheral sealing structure of the door and window building is used as an important component of the door and window and has a series of important functions of air tightness, water tightness, wind pressure resistance, heat insulation, sound insulation and the like.

In the prior art, when the width of a window is wide, a plurality of window frames are required to be sequentially spliced into a whole along the width direction of the window frame during installation. At present, two adjacent window frames are spliced by adopting the following two schemes: the first scheme is that as shown in fig. 1 and fig. 2, an integral double-edge sealing scheme is adopted, two sections (one more double-edge sealing section stock) are arranged on the integral double-edge sealing of the scheme in the stock, the sections are large in size, the occupied space in the stock is large and inconvenient to transport, a window frame needs to be assembled on site, the window frame is difficult to install, bolts for fixing the window frame are respectively arranged on two sides of the integral double-edge sealing, the bolts are respectively arranged on the indoor side and the outdoor side, the attractiveness of the whole is affected by the bolts arranged on the indoor side, and the bolts arranged on the outdoor side are easily corroded and rusted; scheme two, as shown in fig. 3 and 4, adopt the technical scheme of unilateral sealing with the puzzles, two unilateral sealings are through being in its middle puzzles fixed connection, and this scheme needs to seal the unilateral and the puzzles are kept in stock simultaneously, and the space that occupies during the stock is big and inconvenient transportation to adopt the puzzles both to waste the material, influence whole pleasing to the eye because of having increased the distance between two adjacent window frames again.

SUMMERY OF THE UTILITY MODEL

The utility model provides a austral window, sliding sash is with bilateral seal structure to solve the current technical problem who connects the edge seal structure section of two window frames bulky, inconvenient stock and transportation.

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

a double-side sealing structure for a sliding window is used for splicing two adjacent window frames into a whole along the width direction of the window frames, and comprises two edge sealing section units which are oppositely arranged along the width direction of the window frames and are in buckling and splicing, the two edge sealing section units are in buckling and splicing to form the double-side sealing structure for the sliding window with a hollow cavity, each edge sealing section unit comprises a transverse plate, side enclosing plates, side buckling plates and an elastic buckling plate, the two side enclosing plates are oppositely arranged on two sides of the transverse plate and are used for containing the window frames, the side buckling plates are arranged on the transverse plate along the plate extension direction of one side enclosing plate, the side buckling plates and the side enclosing plates are respectively arranged on two sides of the plate surface of the transverse plate, one side of each side buckling plate, which is far away from the transverse plate, is inwards bent to form buckling feet, the elastic buckling plates are arranged on one side of the transverse plate, which, the elastic buckle plate and the side buckle plate are oppositely arranged, a buckle position matched with the buckle foot is arranged on the elastic buckle plate, and the two edge seal profile units are arranged in central symmetry and are mutually spliced through the match of the buckle foot and the buckle position to be fixedly connected into a whole.

Furthermore, the elastic buckle plate comprises a buckle plate and a holding plate which are arranged along the vertical direction of the plate surface of the transverse plate, the first side of the buckle plate is connected with the transverse plate, the second side of the buckle plate is bent outwards and is enclosed with the outer wall surface of the transverse plate to form a through cavity to form a buckling position, the first side of the holding plate is connected with the second side of the buckle plate, the second side of the holding plate is bent inwards, the second side of the holding plate is flush with buckling feet of the lateral buckle plate, the buckling feet of the first edge sealing profile unit are clamped into the buckling position of the second edge sealing profile unit between the two edge sealing profile units, the second side of the holding plate of the first edge sealing profile unit is elastically abutted against the transverse plate of the second edge sealing profile unit, meanwhile, the buckling feet of the second edge sealing profile unit are clamped into the buckling position of the first edge sealing profile unit, and the second side of the holding plate of the second edge sealing profile unit is abutted against the elastic transverse plate of the first edge sealing profile unit, so as to form a double-side sealing structure for the sliding window.

Furthermore, a sealing rubber strip is arranged between the elastic buckle plate of the first edge sealing profile unit and the transverse plate of the second edge sealing profile unit, and/or a sealing rubber strip is arranged between the elastic buckle plate of the second edge sealing profile unit and the transverse plate of the first edge sealing profile unit.

Furthermore, the double-side sealing structure for the sliding window further comprises a first connecting screw rod, and the first connecting screw rod is used for penetrating through the transverse plate and being in threaded connection with the window frame so as to fix the window frame on the transverse plate.

Furthermore, the number of the first connecting screw rods is multiple, and the first connecting screw rods are arranged at intervals along the width direction of the transverse plate.

Furthermore, the double-side-sealing structure for the sliding window further comprises a second connecting screw rod which penetrates through the two transverse plates which are oppositely arranged and enables the two transverse plates to be fixedly connected, and the two edge-sealing section bar units are connected into a whole through the second connecting screw rod.

Furthermore, the double-side sealing structure for the sliding window further comprises a side sealing groove attached to the surface of the transverse plate, and the second connecting screw penetrates through the two transverse plates and is in threaded connection with the side sealing groove.

Furthermore, the number of the second connecting screw rods is multiple, and the second connecting screw rods are arranged at intervals along the width direction of the transverse plate.

Furthermore, the shape of the side sealing groove is u-shaped, and the groove bottom surface of the side sealing groove is attached to the plate surface of the transverse plate.

The utility model also provides an aluminum alloy window, including foretell austral window, sliding sash is with bilateral sealing structure and a plurality of window frame, two adjacent window frames splice into wholly through the width direction of austral window, sliding sash with bilateral sealing structure along the window frame.

The utility model discloses following beneficial effect has:

the utility model discloses a double side seal structure for austral window, sliding sash, through two edge seal section bar units mutual combination assembly constitution, the edge seal section bar unit includes diaphragm, side bounding wall, side buckle plate and the elasticity buckle plate that is used for connecting the window frame, is convenient for fix the window frame on the diaphragm along the width direction of window frame through the mounting to make the mounting be in between the connection face of two adjacent window frames, and the mounting is sheltered from by the side wall shelves, is convenient for hide the mounting, has increased overall structure's aesthetic property; when the window frame is installed, each window frame is fixed on the corresponding edge sealing sectional material unit, and then the two corresponding edge sealing sectional material units are buckled and spliced, so that the window frame is convenient to install; the double-side sealing structure for the sliding window adopts two completely same edge sealing section units, and the two same edge sealing section units are arranged in a central symmetry manner and are buckled and combined into a whole, so that the batch production of the edge sealing section units with the same specification and standard size can be realized, the edge sealing section units are convenient to process and store, the universality of the edge sealing section units is improved, and meanwhile, the storage and transportation are convenient due to the small section volume of the edge sealing section units; two edge seal profile units are arranged in a centrosymmetric manner and fixedly connected into a whole by matching the buckling feet formed by inwards bending one side of the side buckling plate away from the transverse plate with the buckling positions on the elastic buckling plate; the fastening and fixing directions of the two edge sealing section bar units are perpendicular to the window surface stress direction of the aluminum alloy window, so that the connection is not easy to loosen and the mechanical property is good.

In addition to the above-described objects, features and advantages, the present invention has other objects, features and advantages. The present invention will be described in further detail with reference to the drawings.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification. In the drawings:

FIG. 1 is a schematic structural diagram of a prior art prior to splicing two window frames by using an integral double-edge seal;

FIG. 2 is a schematic view of a spliced structure of two window frames spliced by using an integral double-edge seal in the prior art;

FIG. 3 is a schematic structural diagram of a single-edge sealing splicing method for splicing two window frames in the prior art;

FIG. 4 is a schematic view of a spliced structure of two window frames spliced by single-edge sealing and splicing materials in the prior art;

FIG. 5 is a schematic structural view of the preferred embodiment of the present invention before splicing two window frames spliced by a double-sided sealing structure for a sliding window;

fig. 6 the utility model discloses the adoption austral window, sliding sash is with structure schematic diagram after the concatenation of two window frames of bilateral seal structure concatenation.

Illustration of the drawings:

10. the sliding window is provided with a double-side seal structure; 11. an edge seal profile unit; 111. a transverse plate; 112. side coaming plates; 113. a side gusset plate; 1131. buckling legs; 114. an elastic buckle plate; 1141. buckling; 1142. a buckle plate; 1143. a holding plate; 115. sealing rubber strips; 12. a first connecting screw; 13. a second connecting screw; 14. an edge seal locking groove; 20. a window frame.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways, which are defined and covered below.

FIG. 1 is a schematic structural diagram of a prior art prior to splicing two window frames by using an integral double-edge seal; FIG. 2 is a schematic view of a spliced structure of two window frames spliced by using an integral double-edge seal in the prior art; FIG. 3 is a schematic structural diagram of a single-edge sealing splicing method for splicing two window frames in the prior art; FIG. 4 is a schematic view of a spliced structure of two window frames spliced by single-edge sealing and splicing materials in the prior art; FIG. 5 is a schematic structural view of the preferred embodiment of the present invention before splicing two window frames spliced by a double-sided sealing structure for a sliding window; fig. 6 the utility model discloses the adoption austral window, sliding sash is with structure schematic diagram after the concatenation of two window frames of bilateral seal structure concatenation. Wherein, the arrow direction represents the assembling direction of the force application operation.

As shown in fig. 5 and fig. 6, the double-sided sealing structure 10 for a sliding window of this embodiment is configured to splice two adjacent window frames 20 into a whole along the width direction of the window frames 20, the double-sided sealing structure 10 for a sliding window includes two edge-sealed profile units 11 oppositely arranged along the width direction of the window frames and snap-spliced, the two edge-sealed profile units 11 are snap-spliced to form the double-sided sealing structure 10 for a sliding window with a hollow cavity, each edge-sealed profile unit 11 includes a transverse plate 111, a side enclosing plate 112, a side enclosing plate 113, and an elastic buckling plate 114, the two side enclosing plates 112 are oppositely arranged on two sides of the transverse plate 111 to enclose the window frames, the side enclosing plate 113 is arranged on the transverse plate 111 along the plate extension direction of one of the side enclosing plates 112, the side enclosing plates 113 and the side enclosing plates 112 are respectively arranged on two sides of the transverse plate 111, one side of the side enclosing plate 113 away from the transverse plate 111 is inwardly bent to form buckling feet 1131, the elastic buckling plate 114 is arranged on one side And a spacing distance is reserved, the elastic buckle plate 114 and the side buckle plate 113 are oppositely arranged, a buckle position 1141 matched with the buckle foot 1131 is arranged on the elastic buckle plate 114, and the two edge seal profile units 11 are arranged in central symmetry and are mutually spliced through the matching of the buckle foot 1131 and the buckle position 1141 to form a whole body.

The utility model discloses a double side seal structure 10 for austral window, sliding sash constitutes through the mutual combination of two edge seal section bar units 11, including diaphragm 111, side wall 112, side buckle 113 and the elasticity buckle 114 that is used for connecting window frame 20, is convenient for fix window frame 20 on diaphragm 111 along the width direction of window frame 20 through the mounting to make the mounting be in between the connection face of two adjacent window frames 20, and the mounting is sheltered from by the side wall shelves, is convenient for hide the mounting, has increased overall structure's aesthetic property; when the window frame is installed, each window frame 20 is fixed on the corresponding edge sealing sectional material unit 11, and then the two corresponding edge sealing sectional material units 11 are spliced in a buckling mode, so that the installation is facilitated; the double-side-seal structure 10 for the sliding window adopts two identical edge-seal profile units 11, and the two identical edge-seal profile units 11 are arranged in a central symmetry manner and are buckled and combined into a whole, so that the batch production of the edge-seal profile units 11 with the same specification and standard size can be realized, the edge-seal profile units 11 are convenient to process and store, the universality of the edge-seal profile units 11 is improved, and meanwhile, the storage and transportation are convenient due to the small section volume of the edge-seal profile units 11; the two edge seal profile units 11 are arranged in central symmetry and fixedly connected into a whole by matching a buckling pin 1131 formed by inwards bending one side of the side buckling plate 113 away from the transverse plate 111 with a buckling position 1141 on the elastic buckling plate 114; the fastening and fixing directions of the two edge sealing section bar units 11 are perpendicular to the window surface stress direction of the aluminum alloy window, so that the connection is not easy to loosen and the mechanical property is good.

It can be understood, the utility model discloses in, each side buckle 113 of edge sealing section bar unit 11 is laid with one of them side bounding wall 112 and parallel and level, elastic buckle 114 and another side bounding wall 112 that corresponds set up and leave the spacing distance between the position so that elastic buckle 114 locates between the both ends of diaphragm 111, in order to set up and the lock back relatively at two edge sealing section bar units 11, the relative side buckle 112 that sets up is laid with side buckle 113 parallel and level, thereby make the lateral wall parallel and level of austral window, sliding sash with bilateral seal structure 10 both sides.

It can be understood, the utility model provides a austral window, sliding sash is with two edge sealing section bar units 11 of double edge sealing structure 10's structure is identical completely, when carrying out the buckle assembly to two edge sealing section bar units 11, at first place two edge sealing section bar units 11, with one of them edge sealing section bar unit 11 after along its width direction upset, again along its direction of height upset, then with another one edge sealing section bar unit 11 snap-fit can, perhaps, with one of them edge sealing section bar unit 11 rotatory 180 degrees after with another one edge sealing section bar unit 11 snap-fit. Alternatively, the two edge seal profile units 11 may be snap-fitted in the height direction thereof, and the two edge seal profile units 11 may also be snap-fitted in the width direction thereof.

Further, referring to fig. 6 again, the elastic buckle plate 114 includes a buckle plate 1142 and a holding plate 1143 arranged along the vertical direction of the plate surface of the transverse plate 111, a first side of the buckle plate 1142 is connected to the transverse plate 111, a second side of the buckle plate 1142 is bent outward and forms a through cavity with the outer wall surface of the transverse plate 111 to form a buckle position 1141, a first side of the holding plate 1143 is connected to a second side of the buckle plate 1142, a second side of the holding plate 1143 is bent inward, the second side of the holding plate 1143 is arranged flush with the buckle foot 1131 of the side buckle plate 113, the two edge seal profile units 11 are elastically abutted against each other by snapping the buckle foot 1131 of the first edge seal profile unit 11 into the buckle position 1141 of the second edge seal profile unit 11 and snapping the second side of the holding plate 1143 of the first edge seal profile unit 11 into the buckle position 1141 of the transverse plate 111 of the second edge seal profile unit 11, and the second side of the abutting plate 1143 of the second edge seal profile unit 11 is elastically abutted against the transverse plate 111 of the first edge seal profile unit 11, so as to form the double-edge seal structure 10 for the sliding window. Optionally, the side buckle plate 113 is L-shaped, a side of the side buckle plate 113 away from the transverse plate 111 is bent inward by ninety degrees to form the buckle foot 1131, a second side of the retaining plate 1143 is bent inward by ninety degrees, and a second side of the buckle plate 1142 is bent outward by more than ninety degrees.

It can be understood that the utility model provides an edge sealing section bar unit 11 is the section bar of making for integrated into one piece, specifically, edge sealing section bar unit 11 includes diaphragm 111, side wall plate 112, has the side buckle board 113 of detaining the foot and has the elasticity buckle 114 of detaining the position after making integrated into one piece. The side wall plate 112 may be integrally formed by a mold and has a bent fastening pin 1121, or the side wall plate 112 may be formed by a bending process, a stamping process, or the like to have a bent fastening pin 1121; the elastic buckle plate 114 may be a buckle plate 1142 and a supporting plate 1143 integrally formed by a mold and having a bend, or the elastic buckle plate 114 may be a buckle plate 1142 and a supporting plate 143 having a bend formed by a bending process, a stamping process, or the like.

In order to improve the watertight performance of the outside of the window frame 20, a sealing rubber strip 115 is arranged between the elastic buckle plate 114 of the first edge sealing profile unit 11 and the transverse plate 111 of the second edge sealing profile unit 11 and/or a sealing rubber strip 115 is arranged between the elastic buckle plate 114 of the second edge sealing profile unit 11 and the transverse plate 111 of the first edge sealing profile unit 11. Alternatively, a sealing rubber strip may be provided at a position where the edge sealing profile unit 11 is located outdoors, or a sealing rubber strip may be provided at a position where the edge sealing profile unit 11 is located indoors. The sealing rubber strip 115 is coated in a gap reserved between the elastic buckle plate 114 of one edge sealing profile unit 11 and the outer wall surface of the transverse plate 111, and specifically, the buckle foot 1131 of the outdoor side buckle plate 113 is clamped in the sealing rubber strip 115.

Further, the double side sealing structure 10 for the sliding window further includes a first connecting screw 12, and the first connecting screw 12 is used for penetrating through the transverse plate 111 and is in threaded connection with the window frame to fix the window frame on the transverse plate 111. The first connecting screw 12 is connected with the window frame 20 through the transverse plate 111, so that the first connecting screw 12 is conveniently shielded through the side coaming plate 112, and the overall attractiveness is improved.

Further, in order to improve the stability of the connection between the window frame 20 and the horizontal plate 111, the number of the first connecting screws 12 is plural, and the plural first connecting screws 12 are arranged at intervals in the width direction of the horizontal plate 111.

Further, in order to maintain the stability and the force bearing performance of the joint of the two window frames 20, the double-edge sealing structure 10 for the sliding window further includes a second connecting screw 13 which simultaneously penetrates through the two transverse plates 111 which are oppositely arranged and fixedly connects the two transverse plates 111, and the two edge sealing profile units 11 are connected into a whole through the second connecting screw 13.

Further, in order to facilitate the fixed connection of the two oppositely-arranged transverse plates 111, the double-side sealing structure 10 for the sliding window further comprises an edge sealing groove 14 attached to the surface of the transverse plate 111, and the second connecting screw 13 penetrates through the two transverse plates 111 and is in threaded connection with the edge sealing groove 14.

More preferably, the number of the second connecting screws 13 is plural, and the plural second connecting screws 13 are arranged at intervals along the width direction of the horizontal plate 111. Optionally, in this embodiment, in order to avoid interference when the window frame and the sectional edge sealing profile 11 are installed, the second connecting screw 13 is vertically and/or horizontally offset from the first connecting screw 12.

Further, in order to block the connection position of the second connecting screw 13 and the transverse plate 111, the side sealing groove 14 is u-shaped, and the bottom surface of the side sealing groove 14 is arranged in close contact with the plate surface of the transverse plate 111.

The utility model also provides an aluminum alloy window, including foretell austral window, sliding sash is with bilateral sealing structure 10 and a plurality of window frame 20, two adjacent window frames 20 splice into wholly through austral window, sliding sash is with bilateral sealing structure 10 along window frame 20's width direction. The utility model discloses an aluminum alloy window can not see interconnect's nut from aluminum alloy window's the outside, and aluminum alloy window is pleasing to the eye, simultaneously, installs the window frame to the austral window, sliding sash again with the concatenation of the 10 locks of bilateral seal structure for the austral window, sliding sash after the bilateral seal structure for the austral window, simple to operate is swift.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A double-side sealing structure for a sliding window is used for splicing two adjacent window frames into a whole along the width direction of the window frames and is characterized in that,

the double-side sealing structure for the sliding window comprises two edge sealing section bar units (11) which are oppositely arranged along the width direction of the window frame and are in buckling and splicing, the two edge sealing section bar units (11) are in buckling and splicing to form the double-side sealing structure for the sliding window with a hollow cavity,

the edge sealing profile unit (11) comprises a transverse plate (111), side enclosing plates (112), side buckling plates (113) and elastic buckling plates (114), wherein the two side enclosing plates (112) are oppositely arranged on two sides of the transverse plate (111) to contain the window frame, the side buckling plates (113) are arranged on the transverse plate (111) along the plate extending direction of one side enclosing plate (112), the side buckling plates (113) and the side enclosing plates (112) are respectively arranged on two sides of the plate of the transverse plate (111), one side of each side buckling plate (113) far away from the transverse plate (111) is inwards bent to form buckling feet (1131),

the elastic buckle plate (114) is arranged on one side of the transverse plate (111) far away from the side buckle plate (113) and is spaced from the arrangement position of the side coaming (112) on the corresponding side, the elastic buckle plate (114) and the side buckle plate (113) are oppositely arranged, a buckle position (1141) matched with the buckle foot (1131) is arranged on the elastic buckle plate (114),

the two edge sealing section bar units (11) are arranged in central symmetry and are mutually spliced to form a whole through the matching of the buckling feet (1131) and the buckling positions (1141).

2. The double side seal structure for a sliding window according to claim 1,

the elastic buckle plate (114) comprises a buckle plate (1142) and a supporting plate (1143) which are arranged along the vertical direction of the plate surface of the transverse plate (111), the first side of the buckle plate (1142) is connected with the transverse plate (111), the second side of the buckle plate (1142) is bent outwards and is enclosed with the outer wall surface of the transverse plate (111) to form a through long cavity to form the buckle position (1141), the first side of the supporting plate (1143) is connected with the second side of the buckle plate (1142), and the second side of the supporting plate (1143) is bent inwards,

the second side of the supporting plate (1143) is arranged flush with the fastening pin (1131) of the side fastening plate (113),

the buckling feet (1131) of the first edge sealing profile unit (11) are clamped into the buckling positions (1141) of the second edge sealing profile unit (11) between the two edge sealing profile units (11), the second side of the abutting plate (1143) of the first edge sealing profile unit (11) is elastically abutted against the transverse plate (111) of the second edge sealing profile unit (11), and meanwhile,

and (3) clamping the fastening pin (1131) of the second edge sealing section unit (11) into the fastening position (1141) of the first edge sealing section unit (11), and elastically abutting the second side of the abutting plate (1143) of the second edge sealing section unit (11) against the transverse plate (111) of the first edge sealing section unit (11) to form a double-edge sealing structure for the sliding window.

3. The double side seal structure for a sliding window according to claim 2,

a sealing rubber strip (115) is arranged between the elastic buckle plate (114) of the first edge sealing profile unit (11) and the transverse plate (111) of the second edge sealing profile unit (11), and/or a sealing rubber strip (115) is arranged between the elastic buckle plate (114) of the second edge sealing profile unit (11) and the transverse plate (111) of the first edge sealing profile unit (11).

4. The double side seal structure for a sliding window according to claim 2,

the double-side sealing structure for the sliding window further comprises a first connecting screw rod (12), and the first connecting screw rod (12) is used for penetrating through the transverse plate (111) and is in threaded connection with the window frame so as to fix the window frame on the transverse plate (111).

5. The double side seal structure for a sliding window according to claim 4,

the number of the first connecting screw rods (12) is multiple, and the first connecting screw rods (12) are arranged at intervals along the width direction of the transverse plate (111).

6. The double side seal structure for a sliding window according to claim 2,

the double-side-sealing structure for the sliding window further comprises a second connecting screw rod (13) which penetrates through the two transverse plates (111) which are oppositely arranged and enables the two transverse plates (111) to be fixedly connected, and the two edge-sealing section units (11) are connected into a whole through the second connecting screw rod (13).

7. The double side seal structure for a sliding window according to claim 6,

the double-side-seal structure for the sliding window further comprises a side seal lock groove (14) which is attached to the surface of the transverse plate (111), and the second connecting screw rod (13) penetrates through the transverse plate (111) and is in threaded connection with the side seal lock groove (14).

8. The double side seal structure for a sliding window according to claim 7,

the number of the second connecting screw rods (13) is multiple, and the second connecting screw rods (13) are arranged at intervals along the width direction of the transverse plate (111).

9. The double side seal structure for a sliding window according to claim 8,

the side sealing groove (14) is u-shaped, and the bottom surface of the side sealing groove (14) is attached to the surface of the transverse plate (111) in a laying manner.

10. An aluminum alloy window, which is characterized in that,

the double-side sealing structure for the sliding window comprises the double-side sealing structure for the sliding window and a plurality of window frames according to any one of claims 1 to 9, wherein two adjacent window frames are spliced into a whole along the width direction of the window frames through the double-side sealing structure for the sliding window.

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