CN209817777U - Sliding window structure - Google Patents

Abstract

The utility model discloses a sliding window structure, the upper rail section bar component comprises a first upper rail section bar, a second upper rail section bar, an upper rail heat insulation strip and a first plastic piece, the first upper rail section bar and the second upper rail section bar are symmetrically arranged and are connected with each other through the upper rail heat insulation strip, a first upper rail abdicating cavity is enclosed between the first upper rail section bar and the second upper rail section bar, the first plastic piece is fixedly connected in the first upper rail abdicating cavity, and the first upper rail section bar and the second upper rail section bar are respectively provided with a first upper rail sliding cavity and a second upper rail sliding cavity; the top end of the first window frame is in sliding fit with the first upper rail sliding cavity and the first plastic part, and the top end of the second window frame is in sliding fit with the second upper rail sliding cavity and the first plastic part. Because the first upper rail section bar and the second upper rail section bar are connected through the upper rail heat insulation strip, the stress of the sliding window structure is more reasonable and safer, the air tightness of the sliding window is improved, the heat and sound insulation effect of the sliding window is more effectively guaranteed, and the aims of environmental protection and energy conservation are fulfilled.

Description

Sliding window structure

Technical Field

The utility model relates to a austral window, sliding sash structure.

Background

The existing sliding window is basically of an integral profile structure, so that the sliding window is poor in air tightness and sound insulation effect and easy to cause heat transfer.

SUMMERY OF THE UTILITY MODEL

The utility model provides a sliding window structure, it has overcome the not enough of existence of background art. The utility model provides an adopted technical scheme of its technical problem is:

the utility model provides a austral window, sliding sash structure which characterized in that: the window comprises an upper rail section bar component, a lower rail section bar component, a left frame edge, a right frame edge, a first window frame, a second window frame and two glass sheets, wherein the upper rail section bar component, the lower rail section bar component, the left frame edge and the right frame edge are respectively arranged on the periphery of a wall body, the two glass sheets are respectively arranged in the first window frame and the second window frame, the bottom ends of the first window frame and the second window frame are respectively matched with the lower rail section bar component in a sliding way, the upper rail section bar component comprises a first upper rail section bar, a second upper rail section bar, an upper rail heat insulation strip and a first plastic piece, the first upper rail section bar and the second upper rail section bar are symmetrically arranged and are connected with each other through the upper rail heat insulation strip, a first upper rail abdicating cavity is enclosed between the first upper rail section bar and the second upper rail section bar, the first plastic piece is fixedly connected in the first upper rail abdicating cavity, the first upper rail section bar and the second upper rail section bar are respectively provided with a first upper rail sliding cavity and a second upper rail sliding cavity; the top end of the first window frame is in sliding fit with the first upper rail sliding cavity and the first plastic part, and the top end of the second window frame is in sliding fit with the second upper rail sliding cavity and the first plastic part.

In a preferred embodiment: the first window frame comprises a first upper window sash, a first left window sash, a first lower window sash and a first right window sash which are connected in sequence, the first upper window sash comprises a first upper window sash section bar, the first upper pressing strip is fixedly connected with one end of the first upper window sash section, a first upper glass assembly cavity assembled with glass is formed between the first upper pressing strip and the second upper window sash section, a first upper rubber assembly is arranged between the other end of the first upper window sash section and the other end of the second upper window sash section, the first upper rubber assembly of the first upper window sash section is in sliding fit with the first plastic piece, and the first upper rubber assembly of the second upper window sash section is in sliding fit with the first upper rail sliding cavity wall.

In a preferred embodiment: the first lower window sash comprises a first lower window sash section, a second lower window sash section, a first lower pressing strip and a first lower heat insulation strip, the first lower window sash section and the second lower window sash section are connected through the first lower heat insulation strip, the first lower pressing strip is fixedly connected with one end of the first lower window sash section, a first lower glass assembly cavity assembled with glass is formed between the first lower pressing strip and the second lower window sash section, the first lower window sash section is rotatably provided with a first pulley, and the lower rail section assembly is provided with a first slide rail which can be in sliding fit with the first pulley.

In a preferred embodiment: the lower rail section bar assembly comprises a first lower rail section bar, a second lower rail section bar, a lower rail heat insulation strip and a second plastic piece, the first lower rail section bar and the second lower rail section bar are connected through the lower rail heat insulation strip, the first sliding rail is arranged on the top end face of the first lower rail section bar, a first lower rail yielding cavity is formed between the first lower rail section bar and the second lower rail section bar, and the second plastic piece is fixedly connected in the first lower rail yielding cavity.

In a preferred embodiment: and a first lower rubber piece is arranged between the other end of the first lower window sash section bar and the other end of the second lower window sash section bar, and the two first lower rubber pieces face the first slide rail.

In a preferred embodiment: the left frame edge comprises a first left frame edge section, a second left frame edge section and a left frame edge heat insulation strip, the first left frame edge section and the second left frame edge section are connected through the left frame edge heat insulation strip, a first positioning column is convexly arranged on the right end face of the first left frame edge section, and a second positioning column is convexly arranged on the right end face of the second left frame edge section; the first left window sash comprises a first left window sash section, a second left window sash section, a first left heat insulation strip and a first left pressing strip, the first left window sash section and the second left window sash section are connected through the first left heat insulation strip, the first left pressing strip is fixedly connected with one end of the first left window sash section, a first left glass assembly cavity assembled with glass is formed between the first left pressing strip and the second left window sash section, a first left rubber part is arranged between the other end of the first left window sash section and the other end of the second left window sash section, the first left rubber part of the first left window sash section is in positioning fit with the first positioning column, and the first left rubber part of the second left window sash section is in positioning fit with the second positioning column.

In a preferred embodiment: the first right window sash comprises a first right window sash section, a second right window sash section, a third right window sash section, a first buckle plate, a first right heat insulation strip and a first right pressing strip, the first right window sash section and the second right window sash section are connected through the first right heat insulation strip, the first right pressing strip is fixedly connected with one end of the first right window sash section, a first right glass assembly cavity assembled with glass is formed between the first right pressing strip and the second right window sash section, one end of the third right window sash section is fixedly connected with one end of the second right window sash section, the other end of the third right window sash section surrounds the first right window sash section and extends along the length direction of the first right window sash section, a first buckling groove is formed in the outer side of the other end of the third right window sash section, the first buckle plate is buckled in the first buckling groove, and the other end of the third right window sash section abuts against the second window sash section when the sliding window is closed.

In a preferred embodiment: the second window frame comprises a second upper window sash, a second left window sash, a second lower window sash and a second right window sash which are sequentially connected, the second left window sash comprises a third left window sash section, a fourth left window sash section, a fifth left window sash section, a second buckle plate, a second left heat insulation strip and a second left press strip, the third left window sash section and the fourth left window sash section are connected through the second right heat insulation strip, the second left press strip is fixedly connected with one end of the third left window sash section, a second left glass assembly cavity assembled with glass is formed between the second left press strip and the fourth left window sash section, one end of the fifth left window sash section is fixedly connected with one end of the fourth left window sash section, the other end of the fifth left window sash section surrounds the fourth left window sash section and extends along the length direction of the fourth left window sash section, a second buckling groove is formed in the outer side of the other end of the fifth left window sash section, the second buckling plate is buckled in the second buckling groove, when the sliding window is closed, the other end of the fifth left window sash section bar is abutted against the third right window sash section bar.

In a preferred embodiment: a first right sash rubber piece is arranged between the third right sash profile and the first right sash profile, a first limiting column and a first limiting groove adjacent to the first limiting column are arranged at the other end of the third right sash profile, and a second right sash rubber piece is arranged at the first limiting groove; and a first left sash rubber part is arranged between the fifth left sash profile and the third left sash profile, a second limiting column and a second limiting groove adjacent to the second limiting column are arranged at the other end of the fifth left sash profile, a second left sash rubber part is arranged at the second limiting groove, and when the sliding window is closed, the first limiting column is abutted against the second left sash rubber part and the second limiting column is abutted against the second right sash rubber part.

Compared with the background technology, the technical scheme has the following advantages:

1. because the upper rail section bar component comprises a first upper rail section bar, a second upper rail section bar, an upper rail heat insulation strip and a first plastic part, and the first upper rail section bar and the second upper rail section bar are connected through the upper rail heat insulation strip, the stress of the sliding window structure is more reasonable and safe, the air tightness of the sliding window is improved, the heat insulation and sound insulation effects of the sliding window are more effectively guaranteed, and the purposes of environmental protection and energy saving are achieved.

2. Similarly, lower rail section bar subassembly, first window frame, second window frame, left frame limit, right frame limit all adopt the mode that a plurality of section bars and heat insulating strip are connected to be connected for austral window, sliding sash structure atress is more reasonable, safety, and has improved the gas tightness of austral window, sliding sash, more effectual thermal-insulated syllable-dividing effect of guaranteeing the austral window, sliding sash.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a schematic front view of a sliding window structure according to a preferred embodiment.

FIG. 2 is a schematic sectional view of 1-1 of FIG. 1.

Fig. 3 shows a cross-sectional view a-a of fig. 1.

Fig. 4 is a schematic view illustrating the assembly of the upper rail profile assembly with the first upper sash and the second upper sash.

Fig. 5 is a schematic view illustrating the assembly of the lower rail profile assembly with the first lower sash and the second lower sash.

Fig. 6 is a schematic view illustrating the assembly of the left frame edge and the first left window sash.

Fig. 7 is a schematic assembly view of the first right sash and the second left sash when the sliding window is in the closed state.

Fig. 8 is a schematic view illustrating the assembly of the second right window sash and the right frame.

Detailed Description

Referring to fig. 1 to 8, a preferred embodiment of a sliding window structure includes an upper rail profile assembly 100, a lower rail profile assembly 200, a left frame edge 300, a right frame edge 400, a first window frame, a second window frame, and two glass panes 500.

The upper rail section bar component 100, the lower rail section bar component 200, the left frame edge 300 and the right frame edge 400 are respectively installed on the periphery of a wall body, the two glass panes 500 are respectively installed in the first window frame and the second window frame, and the bottom ends of the first window frame and the second window frame are in sliding fit with the lower rail section bar component 200.

The upper rail profile assembly 100 comprises a first upper rail profile 110, a second upper rail profile 120, an upper rail heat insulation strip 130 and a first plastic part 140, wherein the first upper rail profile 110 and the second upper rail profile 120 are symmetrically arranged and connected through the upper rail heat insulation strip 130, a first upper rail abdicating cavity 112 is defined between the first upper rail profile 110 and the second upper rail profile 120, the first plastic part 140 is fixedly connected in the first upper rail abdicating cavity 112, and the first upper rail profile 110 and the second upper rail profile 120 are respectively provided with a first upper rail sliding cavity 111 and a second upper rail sliding cavity 121.

The top end of the first window frame is in sliding fit with the first upper rail sliding cavity 111 and the first plastic part 140, and the top end of the second window frame is in sliding fit with the second upper rail sliding cavity 121 and the first plastic part 140.

In this embodiment, the first frame includes a first upper window sash 10, a first left window sash 20, a first lower window sash 30, and a first right window sash 40, which are connected in sequence, the first upper window sash 10 includes a first upper window sash profile 11, the window sash comprises a second upper window sash section 12, a first upper pressing strip 13, a first upper heat insulation strip 14 and a first upper rubber component, wherein the first upper window sash section 11 is connected with the second upper window sash section 12 through the first upper heat insulation strip 14, the first upper pressing strip 13 is fixedly connected with one end of the first upper window sash section 11, a first upper glass assembly cavity 15 assembled with glass 500 is formed between the first upper pressing strip 13 and the second upper window sash section 12, the first upper rubber component is arranged between the other end of the first upper window sash section 11 and the other end of the second upper window sash section 12, the first upper rubber component of the first upper window sash section 11 is in sliding fit with a first plastic part 140, and the first upper rubber component of the second upper window sash section 12 is in sliding fit with the cavity wall of a first upper rail sliding cavity 111. As shown in fig. 4, the first upper rubber member includes a first rubber member 16 and a second rubber member 17.

In this embodiment, the first lower window sash 30 includes a first lower window sash profile 31, a second lower window sash profile 32, a first lower pressing bar 33 and a first lower heat insulating bar 34, the first lower window sash profile 31 and the second lower window sash profile 32 are connected by the first lower heat insulating bar 34, the first lower pressing bar 33 is fixedly connected with one end of the first lower window sash profile 31, a first lower glass assembly cavity 35 assembled with the glass 500 is formed between the first lower pressing bar 33 and the second lower window sash profile 32, and the first lower window sash profile 31 is rotatably provided with a first pulley 36.

The lower rail profile assembly 200 is provided with a first sliding rail 211 which is slidably engaged with the first pulley 36.

In this embodiment, the lower rail profile assembly 200 includes a first lower rail profile 210, a second lower rail profile 220, a lower rail heat insulation bar 230, and a second plastic part 240, the first lower rail profile 210 and the second lower rail profile 220 are connected through the lower rail heat insulation bar 230, the first slide rail 211 is disposed on the top end surface of the first lower rail profile 210, a first lower rail yielding cavity 250 is formed between the first lower rail profile 210 and the second lower rail profile 220, and the second plastic part 240 is fixedly connected in the first lower rail yielding cavity 250.

In this embodiment, a first lower rubber 37 is installed between the other end of the first lower sash profile 31 and the other end of the second lower sash profile 32, and both the first lower rubber 37 face the first slide rail 36.

The left frame 300 comprises a first left frame section 310, a second left frame section 320 and a left frame heat insulation strip 330, the first left frame section 310 and the second left frame section 320 are connected through the left frame heat insulation strip 330, a first positioning column 311 is convexly arranged on the right end face of the first left frame section 310, and a second positioning column 321 is convexly arranged on the right end face of the second left frame section 320.

As shown in fig. 6, a first positioning buckle 312 is disposed inside the first positioning post 311, a second positioning buckle 322 is disposed inside the second positioning post 321, and a lock catch 340 is further disposed, wherein the lock catch 340 is clamped between the first positioning buckle 312 and the second positioning buckle 322.

The first left window sash 20 comprises a first left window sash profile 21, a second left window sash profile 22, a first left heat insulation strip 23 and a first left pressing strip 24, the first left window sash profile 21 and the second left window sash profile 22 are connected through the first left heat insulation strip 23, the first left pressing strip 24 is fixedly connected with one end of the first left window sash profile 21, a first left glass assembly cavity 25 assembled with glass is formed between the first left pressing strip 24 and the second left window sash profile 22, a first left rubber 26 is arranged between the other end of the first left window sash profile 21 and the other end of the second left window sash profile 22, the first left rubber 26 of the first left window sash profile 21 is in positioning fit with a first positioning column 311, and the first left rubber 26 of the second left window sash profile 22 is in positioning fit with a second positioning column 321.

As shown in fig. 6, a lock cylinder structure 27 is further disposed in the first left window sash 20, the lock cylinder 27 faces the gap between the two first left rubber members 26, and the lock cylinder 27 is in locking engagement with the lock catch 340 when the sliding window is closed.

In this embodiment, the first right window sash 40 includes a first right window sash profile 41, a second right window sash profile 42, a third right window sash profile 43, a first buckle 44, a first right heat insulation strip 45, and a first right bead 46, the first right window sash profile 41 and the second right window sash profile 42 are connected through the first right heat insulation strip 45, the first right bead 46 is fixedly connected with one end of the first right window sash profile 41, a first right glass assembly cavity 47 assembled with the glass 500 is formed between the first right bead 46 and the second right window sash profile 42, one end of the third right window sash profile 43 is fixedly connected with one end of the second right window sash profile 42, the other end of the third right window sash profile 43 surrounds the first right window sash profile 41 and extends along the length direction of the first right window sash profile 41, a first buckling groove 431 is formed outside the other end of the third right window sash profile 43, the first buckle 44 is buckled in the first groove 431, the other end of the third right sash profile 43 abuts against the second sash frame when the sliding window is closed.

In this embodiment, a first right sash rubber 48 is disposed between the third right sash profile 43 and the first right sash profile 41, a first limiting post 432 and a first limiting groove adjacent to the first limiting post 432 are disposed at the other end of the third right sash profile 43, and a second right sash rubber 433 is disposed at the first limiting groove.

The second window frame comprises a second upper window sash 50, a second left window sash 60, a second lower window sash 70 and a second right window sash 80 which are sequentially connected, the second left window sash 60 comprises a third left window sash section 61, a fourth left window sash section 62, a fifth left window sash section 63, a second buckle plate 64, a second left heat insulation strip 65 and a second left bead 66, the third left window sash section 61 and the fourth left window sash section 62 are connected through the second right heat insulation strip 65, the second left bead 66 is fixedly connected with one end of the third left window sash section 61, a second left glass assembly cavity 67 assembled with the glass 500 is formed between the second left bead 66 and the fourth left window sash section 62, one end of the fifth left window sash section 63 is fixedly connected with one end of the fourth left window sash section 62, the other end of the fifth left window sash section 63 surrounds the fourth left window sash section 62 and extends along the length direction of the second left window sash section 62, a second buckling groove 631 is formed in the outer side of the other end of the fifth left window sash section 63, the second buckle plate 64 is buckled in the second buckling groove 631, and when the sliding window is closed, the other end of the fifth left window sash profile 63 abuts against the third right window sash profile 61.

In this embodiment, a first left window sash rubber 68 is disposed between the fifth left window sash profile 63 and the third left window sash profile 61, a second limiting post 632 and a second limiting groove adjacent to the second limiting post 632 are disposed at the other end of the fifth left window sash profile 63, a second left window sash rubber 633 is disposed at the second limiting groove, and when the sliding window is closed, the first limiting post 432 abuts against the second left window sash rubber 633, and the second limiting post 632 abuts against the second right window sash rubber 433.

As shown in fig. 7, the first right sash rubber member 68 and the first left sash rubber member 48 are identical in shape and are each in the shape of an elongated hook. Second left side casement rubber spare 633 and second right side casement rubber spare 433 all include joint portion and with the couple portion of joint looks rigid coupling, two joint portions respectively with second spacing groove, the cooperation of first spacing groove looks joint.

As shown in fig. 4, the second upper window sash 50 has the same structure as the first upper window sash 10. As shown in fig. 5, second lower sash 30 is constructed identically to first lower sash 70. As shown in fig. 6 and 8, left stile 300 is identical in construction to right stile 400, and first left sash 20 is identical in construction to second right sash 80.

Because the upper rail section bar assembly 100 comprises the first upper rail section bar 110, the second upper rail section bar 120, the upper rail heat insulation strip 130 and the first plastic part 140, the first upper rail section bar 110 and the second upper rail section bar 120 are connected through the upper rail heat insulation strip 130, the stress of the sliding window structure is more reasonable and safer, the air tightness of the sliding window is improved, the heat insulation and sound insulation effects of the sliding window are more effectively guaranteed, and the purposes of environmental protection and energy conservation are achieved.

Similarly, lower rail section bar subassembly 200, first window frame, second window frame, left frame limit 300, right frame limit 400 all adopt the mode that a plurality of section bars and heat insulating strip are connected for austral window, sliding sash structure atress is more reasonable, safety, and has improved the gas tightness of austral window, sliding sash, more effectual thermal-insulated effect of giving sound insulation of assurance austral window, sliding sash.

The above description is only a preferred embodiment of the present invention, and therefore the scope of the present invention should not be limited by this description, and all equivalent changes and modifications made within the scope and the specification of the present invention should be covered by the present invention.

Claims (9)

1. The utility model provides a austral window, sliding sash structure which characterized in that: the window comprises an upper rail section bar component, a lower rail section bar component, a left frame edge, a right frame edge, a first window frame, a second window frame and two glass sheets, wherein the upper rail section bar component, the lower rail section bar component, the left frame edge and the right frame edge are respectively arranged on the periphery of a wall body, the two glass sheets are respectively arranged in the first window frame and the second window frame, the bottom ends of the first window frame and the second window frame are respectively matched with the lower rail section bar component in a sliding way, the upper rail section bar component comprises a first upper rail section bar, a second upper rail section bar, an upper rail heat insulation strip and a first plastic piece, the first upper rail section bar and the second upper rail section bar are symmetrically arranged and are connected with each other through the upper rail heat insulation strip, a first upper rail abdicating cavity is enclosed between the first upper rail section bar and the second upper rail section bar, the first plastic piece is fixedly connected in the first upper rail abdicating cavity, the first upper rail section bar and the second upper rail section bar are respectively provided with a first upper rail sliding cavity and a second upper rail sliding cavity; the top end of the first window frame is in sliding fit with the first upper rail sliding cavity and the first plastic part, and the top end of the second window frame is in sliding fit with the second upper rail sliding cavity and the first plastic part.

2. A sliding window construction according to claim 1, characterised in that: the first window frame comprises a first upper window sash, a first left window sash, a first lower window sash and a first right window sash which are connected in sequence, the first upper window sash comprises a first upper window sash section bar, the first upper pressing strip is fixedly connected with one end of the first upper window sash section, a first upper glass assembly cavity assembled with glass is formed between the first upper pressing strip and the second upper window sash section, a first upper rubber assembly is arranged between the other end of the first upper window sash section and the other end of the second upper window sash section, the first upper rubber assembly of the first upper window sash section is in sliding fit with the first plastic piece, and the first upper rubber assembly of the second upper window sash section is in sliding fit with the first upper rail sliding cavity wall.

3. A sliding window construction according to claim 2, characterised in that: the first lower window sash comprises a first lower window sash section, a second lower window sash section, a first lower pressing strip and a first lower heat insulation strip, the first lower window sash section and the second lower window sash section are connected through the first lower heat insulation strip, the first lower pressing strip is fixedly connected with one end of the first lower window sash section, a first lower glass assembly cavity assembled with glass is formed between the first lower pressing strip and the second lower window sash section, the first lower window sash section is rotatably provided with a first pulley, and the lower rail section assembly is provided with a first slide rail which can be in sliding fit with the first pulley.

4. A sliding window construction according to claim 3, characterised in that: the lower rail section bar assembly comprises a first lower rail section bar, a second lower rail section bar, a lower rail heat insulation strip and a second plastic piece, the first lower rail section bar and the second lower rail section bar are connected through the lower rail heat insulation strip, the first sliding rail is arranged on the top end face of the first lower rail section bar, a first lower rail yielding cavity is formed between the first lower rail section bar and the second lower rail section bar, and the second plastic piece is fixedly connected in the first lower rail yielding cavity.

5. A sliding window construction according to claim 4, characterised in that: and a first lower rubber piece is arranged between the other end of the first lower window sash section bar and the other end of the second lower window sash section bar, and the two first lower rubber pieces face the first slide rail.

6. A sliding window construction according to claim 2, characterised in that: the left frame edge comprises a first left frame edge section, a second left frame edge section and a left frame edge heat insulation strip, the first left frame edge section and the second left frame edge section are connected through the left frame edge heat insulation strip, a first positioning column is convexly arranged on the right end face of the first left frame edge section, and a second positioning column is convexly arranged on the right end face of the second left frame edge section; the first left window sash comprises a first left window sash section, a second left window sash section, a first left heat insulation strip and a first left pressing strip, the first left window sash section and the second left window sash section are connected through the first left heat insulation strip, the first left pressing strip is fixedly connected with one end of the first left window sash section, a first left glass assembly cavity assembled with glass is formed between the first left pressing strip and the second left window sash section, a first left rubber part is arranged between the other end of the first left window sash section and the other end of the second left window sash section, the first left rubber part of the first left window sash section is in positioning fit with the first positioning column, and the first left rubber part of the second left window sash section is in positioning fit with the second positioning column.

7. A sliding window construction according to claim 6, characterised in that: the first right window sash comprises a first right window sash section, a second right window sash section, a third right window sash section, a first buckle plate, a first right heat insulation strip and a first right pressing strip, the first right window sash section and the second right window sash section are connected through the first right heat insulation strip, the first right pressing strip is fixedly connected with one end of the first right window sash section, a first right glass assembly cavity assembled with glass is formed between the first right pressing strip and the second right window sash section, one end of the third right window sash section is fixedly connected with one end of the second right window sash section, the other end of the third right window sash section surrounds the first right window sash section and extends along the length direction of the first right window sash section, a first buckling groove is formed in the outer side of the other end of the third right window sash section, the first buckle plate is buckled in the first buckling groove, and the other end of the third right window sash section abuts against the second window sash section when the sliding window is closed.

8. A sliding window construction according to claim 7, characterised in that: the second window frame comprises a second upper window sash, a second left window sash, a second lower window sash and a second right window sash which are sequentially connected, the second left window sash comprises a third left window sash section, a fourth left window sash section, a fifth left window sash section, a second buckle plate, a second left heat insulation strip and a second left press strip, the third left window sash section and the fourth left window sash section are connected through the second right heat insulation strip, the second left press strip is fixedly connected with one end of the third left window sash section, a second left glass assembly cavity assembled with glass is formed between the second left press strip and the fourth left window sash section, one end of the fifth left window sash section is fixedly connected with one end of the fourth left window sash section, the other end of the fifth left window sash section surrounds the fourth left window sash section and extends along the length direction of the fourth left window sash section, a second buckling groove is formed in the outer side of the other end of the fifth left window sash section, the second buckling plate is buckled in the second buckling groove, when the sliding window is closed, the other end of the fifth left window sash section bar is abutted against the third right window sash section bar.

9. A sliding window construction according to claim 8, characterised in that: a first right sash rubber piece is arranged between the third right sash profile and the first right sash profile, a first limiting column and a first limiting groove adjacent to the first limiting column are arranged at the other end of the third right sash profile, and a second right sash rubber piece is arranged at the first limiting groove; and a first left sash rubber part is arranged between the fifth left sash profile and the third left sash profile, a second limiting column and a second limiting groove adjacent to the second limiting column are arranged at the other end of the fifth left sash profile, a second left sash rubber part is arranged at the second limiting groove, and when the sliding window is closed, the first limiting column is abutted against the second left sash rubber part and the second limiting column is abutted against the second right sash rubber part.