CN222782545U - A new type of broken bridge steel casement window - Google Patents

Abstract

The utility model discloses a novel thermally insulated steel casement window, comprising a window sash, a window frame and a fixed window, wherein the fixed window is connected to a wall, the window frame is connected to the fixed window, and the window sash is connected to the window frame through a hinge. The window frame is composed of a side window frame, a top window frame and a bottom window frame, and each window frame is formed by connecting different steel profiles through a heat-insulating connecting strip. The fixed window comprises a fixed window frame and heat-insulating glass, and is respectively connected to the upper and lower parts of the window frame. The window sash is composed of a first window sash and a second window sash, and a lap frame is provided between the first window sash and the second window sash, and all window frames and window sash frames are connected and sealed through a heat-insulating connecting strip and a sealing strip, thereby improving the heat-insulating performance of the window. In addition, the heat-insulating glass adopts a silver-plated nano-particle coating, a warm edge strip and a sealant to further enhance the heat-insulating effect. The utility model effectively solves the problem of poor heat-insulating performance of traditional all-metal casement windows through a carefully designed heat-insulating structure, and is suitable for buildings requiring large-area glass windows.

Description

Novel bridge cut-off steel flat-open window

Technical Field

The utility model relates to the field of doors and windows, in particular to a novel bridge-cut-off steel casement window.

Background

In order to realize the anti-theft function, the casement window in the current market usually adopts an all-metal structure. However, the burglary-resisting door of this kind of structure has a disadvantage in the heat-proof performance, especially when flat-open window designs into large-area glass window, and the heat-proof effect is poorer. The anti-theft performance of the window is affected, the indoor temperature is negatively affected in winter and summer, and the energy consumption is increased. Therefore, development of a casement window capable of effectively insulating heat and having an anti-theft function is an urgent need.

Disclosure of utility model

The utility model discloses a novel bridge-cut-off steel casement window which comprises a window sash, a window frame and a fixed window, wherein the fixed window is connected with a wall body, the window frame is connected with the fixed window, and the window sash is connected with the window frame through a hinge. The window frame comprises side window frame, top window frame and bottom window frame, and every window frame is formed by different steel sections through thermal-insulated connecting strip connection. The fixed window comprises a fixed window frame and heat-insulating glass, and is respectively connected to the upper and lower parts of the window frame. The window sashes are composed of a first window sashes and a second window sashes, a frame is arranged between the first window sashes and the second window sashes, and all window frames and window sashes are connected and sealed through heat insulation connecting strips and sealing strips, so that the heat insulation performance of the window is improved. In addition, the heat-insulating glass adopts silver-plated nano particle coating, warm edge strips and sealant to further enhance the heat-insulating effect. The utility model effectively solves the problem of poor heat insulation performance of the traditional all-metal casement window by the carefully designed heat insulation structure, and is suitable for buildings needing large-area glass windows.

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

a novel bridge-cut-off steel casement window comprises a window sash, a window frame and a fixed window, wherein the fixed window is connected with a wall body, the window frame is connected with the fixed window, the window sash is connected with the window frame through a hinge,

It is characterized in that the window frame consists of a side window frame, a top window frame and a bottom window frame,

The side window frame consists of a first steel section bar and a second steel section bar which are connected through a heat insulation connecting strip;

the top window frame consists of a steel section I and a steel section II which are connected through a heat insulation connecting strip, and the bottom window frame has the same structure as the top window frame;

The fixed window above the window frame comprises a fixed window frame, heat-insulating glass and a top window frame, wherein the fixed window frame is connected with the top window frame and consists of a steel section bar seven which is connected with a steel section bar eight through a heat-insulating connecting strip;

The fixed window below the window frame comprises a fixed window frame, heat insulation glass and a bottom window frame, wherein the fixed window frame is connected with the bottom window frame;

the window sashes consist of a first window sashes and a second window sashes, the second window sashes consist of a window sashes frame and heat-insulating glass, and the window sashes frame consists of a steel section bar, and the steel section bar is connected with a fourth steel section bar through a heat-insulating connecting strip;

The first window sash consists of a window sash frame, heat-insulating glass and a lapping frame, and the lapping frame is arranged on the adjacent edge of the first window sash and the second window sash and is connected with the window sash frames at the upper end and the lower end of the first window sash.

The steel profile I is provided with a connecting strip notch I and a structural reinforcing rib I, the steel profile II is provided with a connecting strip notch II, a structural reinforcing rib II and a sealing strip installation protruding part II, one end of the heat insulation connecting strip is connected with the connecting strip notch I, the other end of the heat insulation connecting strip is connected with the connecting strip notch II, and a first sealing strip arranged at the sealing strip installation protruding part II can be tightly pressed and sealed with the steel profile IV.

The glass strip is characterized by further comprising heat-insulating glass, a warm edge strip, sealant, first glass and second glass, wherein silver-plated nanoparticle coatings are arranged on the surfaces of the first glass and the second glass, the warm edge strip is arranged between the first glass and the second glass, the sealant is arranged on the outer side of the warm edge strip to seal the space between the first glass and the second glass, a glass overhead strip is arranged in a large-area space between the first glass and the second glass, an outer side decoration strip capable of shielding the glass overhead strip is arranged on the outer side of the first glass provided with the glass overhead strip, and an inner side decoration strip capable of shielding the glass overhead strip is arranged on the inner side of the second glass provided with the glass overhead strip.

The steel profile III is further provided with a connecting strip notch III, a structural reinforcing rib III and a sealing strip installation protruding part III, a first sealing strip arranged at the sealing strip installation protruding part III can be tightly pressed and sealed with a steel profile I, the steel profile I and the heat insulation connecting strip are jointly clamped with a blank pressing profile, the blank pressing profile is tightly pressed and sealed with first glass through a second sealing strip, the steel profile IV is provided with a connecting strip notch IV, a structural reinforcing rib IV and a sealing strip installation protruding part IV, a third sealing strip arranged at the sealing strip installation protruding part IV can be tightly pressed and sealed with second glass, the connecting strip notch III is connected with one end of the heat insulation connecting strip, and the connecting strip notch IV is connected with the other end of the heat insulation connecting strip.

The frame is further provided with a frame, the frame is composed of a steel section five connected with a steel section one through a heat-insulating connecting strip, the steel section five is provided with a connecting strip notch five, a structural reinforcing rib five, a sealing strip installation protruding part five and a sealing strip installation protruding part six, the connecting strip notch five is connected with one end of a heat-insulating connecting strip, the other end of the heat-insulating connecting strip is connected with the connecting strip notch one of the steel section one, the steel section one and the heat-insulating connecting strip are clamped with a blank pressing section, the blank pressing section is tightly pressed and sealed with first glass through a second sealing strip, a third sealing strip arranged at the six parts of the sealing strip installation protruding part can be tightly pressed and sealed with the second glass, and the first sealing strip arranged at the five parts of the sealing strip installation protruding part can be tightly pressed and sealed with the steel section four of the second window sash.

The steel profile is further provided with a connecting strip notch six, a structural reinforcing rib six, a sealing strip installation protruding part seven and a sealing strip installation protruding part eight, wherein the connecting strip notch six is connected with one end of a heat insulation connecting strip, the other end of the heat insulation connecting strip is connected with a connecting strip notch I of a steel profile I, the steel profile I and the heat insulation connecting strip are clamped with a blank pressing profile together, the blank pressing profile is tightly pressed and sealed with first glass through a second sealing strip, a third sealing strip arranged at the eight parts of the sealing strip installation protruding part can be tightly pressed and sealed with the second glass, and a first sealing strip arranged at the seven parts of the sealing strip installation protruding part is tightly pressed and sealed with a steel profile IV.

The steel profile seven is further provided with a connecting strip notch seven, a structural reinforcing rib seven and a wall body fixing protruding part I, wherein the connecting strip notch seven is connected with one end of a heat insulation connecting strip, the other end of the heat insulation connecting strip is connected with a connecting strip notch eight of a steel profile eight, the heat insulation connecting strip and the steel profile seven are clamped with a blank pressing profile, and the blank pressing profile is tightly pressed and sealed with the first glass through a second sealing strip;

The steel section bar eight is provided with a structural reinforcing rib eight, a wall fixing protruding part II and a sealing strip mounting protruding part nine, a third sealing strip arranged at the sealing strip mounting protruding part nine can be tightly pressed and sealed with the second glass, and the wall fixing protruding part I is fixedly connected with the wall fixing protruding part II in an embedded manner.

The upper end face of the heat insulation connecting strip in the top window frame is provided with a glass cushion block, the upper end face of the heat insulation connecting strip in the lower window sash frame of the window sash is provided with a glass cushion block, and the upper end face of the heat insulation connecting strip in the bottom window frame is provided with a glass cushion block.

The window sashes are connected with the window sashes at the lower ends of the bottom window frame and the window sashes through the window opening angle adjusting connecting rod to realize the angle adjustment of the window sashes and the window sashes, and the locking between the first window sashes and the second window sashes is realized through the connection of the window locking piece to the frame of the first window sashes and the window sashes adjacent to the second window sashes.

The utility model is composed of a side window frame, a top window frame and a bottom window frame, and each window frame is formed by connecting different steel sections through heat insulation connecting strips. The fixed window comprises a fixed window frame and heat-insulating glass, and is respectively connected to the upper and lower parts of the window frame. The window sashes are composed of a first window sashes and a second window sashes, a frame is arranged between the first window sashes and the second window sashes, and all window frames and window sashes are connected and sealed through heat insulation connecting strips and sealing strips, so that the heat insulation performance of the window is improved. In addition, the heat-insulating glass adopts silver-plated nano particle coating, warm edge strips and sealant to further enhance the heat-insulating effect. The utility model effectively solves the problem of poor heat insulation performance of the traditional all-metal casement window by the carefully designed heat insulation structure, and is suitable for buildings needing large-area glass windows.

Drawings

FIG. 1 is a front view of the present utility model;

FIG. 2 is a cross-sectional view taken along line A in FIG. 1;

FIG. 3 is a cross-sectional view taken along line B in FIG. 1;

FIG. 4 is a cross-sectional view taken along line C in FIG. 1;

fig. 5 is a cross-sectional view of the side window frame of the present utility model;

FIG. 6 is a cross-sectional exploded view of the side window frame of the present utility model;

FIG. 7 is a cross-sectional view of a sash frame of the present utility model;

FIG. 8 is a cross-sectional exploded view of the sash frame of the present utility model;

FIG. 9 is a cross-sectional view of a glass overhead strip and trim strip of the present utility model;

Fig. 10 is a cross-sectional view of a bezel of a first sash of the present utility model;

fig. 11 is a cross-sectional exploded view of the bezel of the first sash of the present utility model;

Fig. 12 is a cross-sectional view of the top window frame of the present utility model;

FIG. 13 is a cross-sectional exploded view of the top window frame of the present utility model;

fig. 14 is a cross-sectional view of a fixed window frame of the fixed window of the present utility model;

Fig. 15 is a sectional exploded view of a fixed window frame of the fixed window of the present utility model;

In the figure, a window sash, a first window sash 11, a second window sash 12, a blank holder section bar 13,

Side window frame 2, steel section one 21, connecting bar notch one 22, structure reinforcing rib one 23, steel section two 24, connecting bar notch two 25, structure reinforcing rib two 26, sealing strip mounting protrusion two 27, window sash frame 3, steel section three 31, connecting bar notch three 32, structure reinforcing rib three 33, sealing strip mounting protrusion three 34, steel section four 35, connecting bar notch four 36, structure reinforcing rib four 37, sealing strip mounting protrusion four 38,

Frame 4, steel section five 41, connecting strip notch five 42, structural reinforcing rib five 43, sealing strip mounting protruding part five 44, sealing strip mounting protruding part six 45,

Top window frame 5, steel section bar six 51, connecting bar notch six 52, structural reinforcement six 53, sealing strip mounting protrusion seven 54, sealing strip mounting protrusion eight 55, bottom window frame 56,

A fixed window 6, a fixed window frame 61,

Seven 62 steel sections, seven 63 connecting strip notches, seven 64 structural reinforcing ribs, 65 first wall fixing protrusions, eight 66 steel sections, eight 67 connecting strip notches, eight 68 structural reinforcing ribs, 69 second wall fixing protrusions, nine 601 sealing strip mounting protrusions,

The heat insulation connecting strip 71, the first sealing strip 72, the second sealing strip 73, the third sealing strip 74, the heat insulation glass 8, the warm edge strip 81, the sealant 82, the first glass 83, the second glass 84, the glass overhead strip 85, the outer decoration strip 86, the inner decoration strip 87, the glass cushion block 88, the hinge 91, the window opening angle adjusting connecting rod 92 and the window locking piece 93.

Detailed Description

In order that the above objects, features and advantages of the utility model will be readily understood, a more particular description of the utility model will be rendered by reference to the appended drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model, but the present utility model may be practiced in other ways other than those described herein, and persons skilled in the art will readily appreciate that the present utility model is not limited to the specific embodiments disclosed below.

Next, the present utility model will be described in detail with reference to the drawings, wherein the sectional view of the device structure is not partially enlarged to general scale for the convenience of description, and the drawings are only examples, which should not limit the scope of the present utility model. In addition, the three-dimensional dimensions of length, width and depth should be included in actual fabrication.

For the purpose of making the objects, technical solutions and advantages of the present utility model more apparent, embodiments of the present utility model will be described in further detail below with reference to the accompanying drawings.

According to the content of the claims and the description, the specific embodiments are as follows:

As shown in fig. 1 to 15, the utility model provides a novel bridge-cut-off steel casement window, which comprises a window sash, a window frame and a fixed window, wherein the fixed window 6 is connected with a wall body, the window frame is connected with the fixed window 6, and the window sash is connected with the window frame through a hinge 91. The window frame consists of a side window frame 2, a top window frame 5 and a bottom window frame 56, wherein the side window frame 2 consists of a first steel section 21 connected with a second steel section 24 through a heat insulation connecting strip 71, the top window frame 5 consists of a first steel section 21 connected with a sixth steel section 51 through a heat insulation connecting strip 71, and the bottom window frame 56 and the top window frame 5 are identical in structure.

The fixed window 6 positioned above the window frame comprises a fixed window frame 61, heat-insulating glass 8 and a top window frame 5, wherein the fixed window frame 61 is connected with the top window frame 5, the fixed window frame 61 is formed by connecting a steel section bar seven 62 with a steel section bar eight 66 through a heat-insulating connecting strip 71, and the fixed window 6 positioned below the window frame comprises a fixed window frame 61, heat-insulating glass 8 and a bottom window frame 56, and the fixed window frame 61 is connected with the bottom window frame 56.

The window sashes consist of a first window sashes 11 and a second window sashes 12, wherein the second window sashes 12 consist of window sashes frames 3 and heat-insulating glass 8, the window sashes frames 3 consist of steel sections III 31 connected with steel sections IV 35 through heat-insulating connecting strips 71, the first window sashes 11 consist of window sashes frames 3, heat-insulating glass 8 and overlapping frames 4, and the overlapping frames 4 are arranged on the adjacent sides of the first window sashes 11 and the second window sashes 12 and are connected with the window sashes frames 3 at the upper end and the lower end of the first window sashes 11.

The first steel section bar 21 is provided with a first connecting bar notch 22 and a first structural reinforcing rib 23, the second steel section bar 24 is provided with a second connecting bar notch 25, a second structural reinforcing rib 26 and a second sealing strip installation protruding part 27, one end of a heat insulation connecting bar 71 is connected with the first connecting bar notch 22, the other end of the heat insulation connecting bar 71 is connected with the second connecting bar notch 25, and a first sealing strip 72 arranged at the second sealing strip installation protruding part 27 can be tightly pressed and sealed with the fourth steel section bar 35.

The heat insulating glass 8 comprises a warm edge strip 81, a sealant 82, a first glass 83 and a second glass 84, silver-plated nanoparticle coatings are arranged on the surfaces of the first glass 83 and the second glass 84, the warm edge strip 81 is arranged between the first glass 83 and the second glass 84, the sealant 82 is arranged on the outer side of the warm edge strip 81 to seal the first glass 83 and the second glass 84, a glass overhead strip 85 is arranged in a large-area space between the first glass 83 and the second glass 84, an outer side decorative strip 86 capable of shielding the glass overhead strip 85 is arranged on the outer side of the first glass 83, and an inner side decorative strip 87 capable of shielding the glass overhead strip 85 is arranged on the inner side of the second glass 84.

The steel section III 31 is provided with a connecting strip notch III 32, a structural reinforcing rib III 33 and a sealing strip installation protruding part III 34, a first sealing strip 72 arranged at the sealing strip installation protruding part III 34 can be tightly pressed and sealed with the steel section I21, the steel section I21 and the heat insulation connecting strip 71 are jointly clamped and connected with the blank pressing section 13, the blank pressing section 13 is tightly pressed and sealed with the first glass 83 through a second sealing strip 73, the steel section IV 35 is provided with a connecting strip notch IV 36, a structural reinforcing rib IV 37 and a sealing strip installation protruding part IV 38, a third sealing strip 74 arranged at the sealing strip installation protruding part IV 38 can be tightly pressed and sealed with the second glass 84, the connecting strip notch III 32 is connected with one end of the heat insulation connecting strip 71, and the connecting strip notch IV 36 is connected with the other end of the heat insulation connecting strip 71.

The frame 4 is formed by connecting a steel profile five 41 with a steel profile one 21 through a heat insulation connecting strip 71, the steel profile five 41 is provided with a connecting strip notch five 42, a structural reinforcing rib five 43, a sealing strip installation protruding part five 44 and a sealing strip installation protruding part six 45, the connecting strip notch five 42 is connected with one end of the heat insulation connecting strip 71, the other end of the heat insulation connecting strip 71 is connected with the connecting strip notch one 22 of the steel profile one 21, the steel profile one 21 and the heat insulation connecting strip 71 are clamped with a blank pressing profile 13 together, the blank pressing profile 13 is tightly pressed and sealed with a first glass 83 through a second sealing strip 73, a third sealing strip 74 arranged at the six 45 parts of the sealing strip installation protruding part can be tightly pressed and sealed with a second glass 84, and a first sealing strip 72 arranged at the sealing strip installation protruding part five 44 can be tightly pressed and sealed with a steel profile four 35 of the second window sash 12.

The steel profile six 51 is provided with a connecting strip notch six 52, a structural reinforcing rib six 53, a sealing strip installation protruding part seven 54 and a sealing strip installation protruding part eight 55, the connecting strip notch six 52 is connected with one end of a heat insulation connecting strip 71, the other end of the heat insulation connecting strip 71 is connected with a connecting strip notch one 22 of a steel profile one 21, the steel profile one 21 and the heat insulation connecting strip 71 are clamped with a blank pressing profile 13 together, the blank pressing profile 13 is tightly pressed and sealed with a first glass 83 through a second sealing strip 73, a third sealing strip 74 arranged at the sealing strip installation protruding part eight 55 can be tightly pressed and sealed with a second glass 84, and a first sealing strip 72 arranged at the sealing strip installation protruding part seven 54 is tightly pressed and sealed with a steel profile four 35.

The steel profile seven 62 is provided with a connecting strip notch seven 63, a structural reinforcing rib seven 64 and a wall fixing protruding part one 65, the connecting strip notch seven 63 is connected with one end of a heat insulation connecting strip 71, the other end of the heat insulation connecting strip 71 is connected with a connecting strip notch eight 67 of a steel profile eight 66, the heat insulation connecting strip 71 and the steel profile seven 62 are clamped with a blank pressing profile 13, the blank pressing profile 13 is tightly pressed and sealed with a first glass 83 through a second sealing strip 73, the steel profile eight 66 is provided with a structural reinforcing rib eight 68, a wall fixing protruding part two 69 and a sealing strip mounting protruding part nine 601, a third sealing strip 74 arranged at the sealing strip mounting protruding part nine 601 can be tightly pressed and sealed with a second glass 84, and the wall fixing protruding part one 65 and the wall fixing protruding part two 69 are embedded into the wall to be fixedly connected.

The upper end face of the heat insulation connecting strip 71 in the top window frame 5 is provided with a glass cushion block 88, the upper end face of the heat insulation connecting strip 71 in the lower window sash frame 3 of the window sash is provided with a glass cushion block 88, and the upper end face of the heat insulation connecting strip 71 in the bottom window frame 56 is provided with a glass cushion block 88.

The window sashes are connected with the bottom window frame 56 and the window sashes 3 at the lower ends of the window sashes through window opening angle adjusting connecting rods 92, so that the angle adjustment of the window sashes and the window sashes 3 is realized, and the locking between the first window sashes 11 and the second window sashes 12 is realized through the connection of the lapping frame 4 of the first window sashes 11 and the window sashes 3 adjacent to the first window sashes 11 through window locking pieces 93.

The utility model consists of a side window frame 2, a top window frame 5 and a bottom window frame 56 through window frames, wherein each window frame is formed by connecting different steel sections through heat insulation connecting strips 71. The fixed window 6 includes a fixed window frame 61 and a heat insulating glass 8, and is connected to the upper and lower sides of the window frame, respectively. The window sashes are composed of a first window sashes 11 and a second window sashes 12, a frame 4 is arranged between the first window sashes 11 and the second window sashes 12, and all window frames and window sashes are connected and sealed through a heat insulation connecting strip 71 and a sealing strip, so that the heat insulation performance of the window is improved. In addition, the insulating glass 8 employs a silver-plated nanoparticle coating, a warm edge 81, and a sealant 82 to further enhance the insulating effect. The utility model effectively solves the problem of poor heat insulation performance of the traditional all-metal casement window by the carefully designed heat insulation structure, and is suitable for buildings needing large-area glass windows.

Although the utility model has been described hereinabove with reference to embodiments, various modifications thereof may be made and equivalents may be substituted for elements thereof without departing from the scope of the utility model. In particular, the features of the disclosed embodiments may be combined with each other in any manner as long as there is no structural conflict, and the exhaustive description of these combinations is not given in this specification merely for the sake of omitting the descriptions and saving resources. Therefore, it is intended that the utility model not be limited to the particular embodiment disclosed, but that the utility model will include all embodiments falling within the scope of the appended claims.

Claims (9)

1. A novel bridge-cut-off steel casement window comprises a window sash, a window frame and a fixed window (6), wherein the fixed window (6) is connected with a wall body, the window frame is connected with the fixed window (6), the window sash is connected with the window frame through a hinge (91),

It is characterized in that the window frame consists of a side window frame (2), a top window frame (5) and a bottom window frame (56),

The side window frame (2) is formed by connecting a first steel section (21) with a second steel section (24) through a heat insulation connecting strip (71);

The top window frame (5) is formed by connecting a first steel section (21) with a sixth steel section (51) through a heat insulation connecting strip (71), and the bottom window frame (56) has the same structure as the top window frame (5);

The fixed window (6) above the window frame comprises a fixed window frame (61), heat-insulating glass (8) and a top window frame (5), wherein the fixed window frame (61) is connected with the top window frame (5), and the fixed window frame (61) is formed by connecting a steel section bar seven (62) with a steel section bar eight (66) through a heat-insulating connecting strip (71);

the fixed window (6) positioned below the window frame comprises a fixed window frame (61), heat insulation glass (8) and a bottom window frame (56), wherein the fixed window frame (61) is connected with the bottom window frame (56);

The window sashes consist of a first window sashes (11) and a second window sashes (12), the second window sashes (12) consist of a window sashes frame (3) and heat insulation glass (8), and the window sashes frame (3) consists of a steel section III (31) connected with a steel section IV (35) through a heat insulation connecting strip (71);

The first window sash (11) consists of a window sash frame (3), heat-insulating glass (8) and a lapping frame (4), and the lapping frame (4) is arranged at the adjacent edge of the first window sash (11) and the second window sash (12) and is connected with the window sash frames (3) at the upper end and the lower end of the first window sash (11).

2. The novel bridge-cutoff steel casement window according to claim 1 is characterized in that a first steel section (21) is provided with a first connecting strip notch (22) and a first structural reinforcing rib (23), a second steel section (24) is provided with a second connecting strip notch (25), a second structural reinforcing rib (26) and a second sealing strip installation protruding part (27), one end of a heat insulation connecting strip (71) is connected with the first connecting strip notch (22), the other end of the heat insulation connecting strip (71) is connected with the second connecting strip notch (25), and a first sealing strip (72) arranged at the second sealing strip installation protruding part (27) can be tightly pressed and sealed with a fourth steel section (35).

3. The novel bridge cut-off steel flat-open window of claim 2, wherein heat insulating glass (8), warm strake (81), sealant (82), first glass (83) and second glass (84), silver-plated nanoparticle coatings are arranged on the surfaces of the first glass (83) and the second glass (84), the warm strake (81) is arranged between the first glass (83) and the second glass (84), the sealant (82) is arranged outside the warm strake (81) to seal the space between the first glass (83) and the second glass (84), glass overhead strips (85) are arranged in a large-area space between the first glass (83) and the second glass (84), outside decoration strips (86) capable of shielding the glass overhead strips (85) are arranged outside the first glass (83) provided with the glass overhead strips (85), and inside decoration strips (87) capable of shielding the glass overhead strips (85) are arranged inside the second glass overhead strips (84) provided with the glass overhead strips (85).

4. A novel bridge-cut-off steel flat-open window according to claim 3 is characterized in that a steel section III (31) is provided with a connecting strip notch III (32), a structural reinforcing rib III (33) and a sealing strip installation protruding part III (34), a first sealing strip (72) arranged at the sealing strip installation protruding part III (34) can be tightly pressed and sealed with a steel section I (21), the steel section I (21) and a heat insulation connecting strip (71) are jointly clamped with a blank pressing section (13), the blank pressing section (13) is tightly pressed and sealed with a first glass (83) through a second sealing strip (73), a steel section IV (35) is provided with a connecting strip notch IV (36), a structural reinforcing rib IV (37) and a sealing strip installation protruding part IV (38), a third sealing strip (74) arranged at the sealing strip installation protruding part IV (38) can be tightly pressed and sealed with a second glass (84), the connecting strip notch III (32) is connected with one end of the heat insulation connecting strip (71), and the connecting strip notch IV (36) is connected with the other end of the heat insulation connecting strip (71).

5. The novel bridge-cut-off steel flat-open window according to claim 4, wherein the frame (4) is formed by connecting a steel profile five (41) with a steel profile one (21) through a heat insulation connecting strip (71), the steel profile five (41) is provided with a connecting strip notch five (42), a structure reinforcing rib five (43), a sealing strip installation protruding part five (44) and a sealing strip installation protruding part six (45), the connecting strip notch five (42) is connected with one end of the heat insulation connecting strip (71), the other end of the heat insulation connecting strip (71) is connected with a connecting strip notch one (22) of the steel profile one (21), the steel profile one (21) and the heat insulation connecting strip (71) are clamped with a blank pressing profile (13), the blank pressing profile (13) is sealed with a first glass (sealing strip 83) through a second sealing strip (73), a third sealing strip (74) arranged at the sealing strip installation protruding part six (45) can be tightly pressed with a second glass (84), and a first sealing strip (72) arranged at the sealing strip installation protruding part five (44) can be tightly pressed with a fourth steel profile (35).

6. A novel bridge cut-off steel flat-open window according to claim 5 is characterized in that a steel profile six (51) is provided with a connecting strip notch six (52), a structural reinforcing rib six (53), a sealing strip installation protruding part seven (54) and a sealing strip installation protruding part eight (55), the connecting strip notch six (52) is connected with one end of a heat insulation connecting strip (71), the other end of the heat insulation connecting strip (71) is connected with a connecting strip notch one (22) of a steel profile one (21), the steel profile one (21) and the heat insulation connecting strip (71) are clamped with a blank pressing profile (13) together, the blank pressing profile (13) is tightly pressed and sealed with first glass (83) through a second sealing strip (73), a third sealing strip (74) arranged at the sealing strip installation protruding part eight (55) can be tightly pressed and sealed with second glass (84), and a first sealing strip (72) arranged at the sealing strip installation protruding part seven (54) is tightly pressed and sealed with a steel profile four (35).

7. The novel bridge-cutoff steel casement window according to claim 6, wherein the steel section bar seven (62) is provided with a connecting bar notch seven (63), a structural reinforcing rib seven (64) and a wall fixing protruding part I (65), the connecting bar notch seven (63) is connected with one end of a heat insulation connecting bar (71), the other end of the heat insulation connecting bar (71) is connected with a connecting bar notch eight (67) of a steel section bar eight (66), the heat insulation connecting bar (71) and the steel section bar seven (62) are clamped with a blank pressing section bar (13), and the blank pressing section bar (13) is tightly pressed and sealed with first glass (83) through a second sealing strip (73);

The steel section bar eight (66) is provided with a structural reinforcing rib eight (68), a wall fixing protruding part II (69) and a sealing strip installation protruding part nine (601), a third sealing strip (74) arranged at the sealing strip installation protruding part nine (601) can be tightly pressed and sealed with the second glass (84), and the wall fixing protruding part I (65) and the wall fixing protruding part II (69) are embedded into the wall for fixing connection.

8. The novel bridge-cut-off steel casement window is characterized in that a glass cushion block (88) is arranged on the upper end face of a heat insulation connecting strip (71) in a top window frame (5), a glass cushion block (88) is arranged on the upper end face of a heat insulation connecting strip (71) in a lower window sash frame (3) of a window sash, and a glass cushion block (88) is arranged on the upper end face of a heat insulation connecting strip (71) in a bottom window frame (56).

9. The novel bridge-cut-off steel flat-open window of claim 8, wherein the window sashes are connected with a bottom window frame (56) and a window sash frame (3) at the lower end of the window sashes through a window opening angle adjusting connecting rod (92), the angle adjustment of the window sashes and the window sash frame (3) is realized, and the locking between the first window sashes (11) and the second window sashes (12) is realized through a window locking piece (93) and is connected with a lapping frame (4) of the first window sashes (11) and a window sash frame (3) of the second window sashes (12) adjacent to the first window sashes (11).