CN221799556U - Energy-saving window with window screen capable of being opened outside - Google Patents

Abstract

The utility model discloses an energy-saving window with a window screen, which relates to the technical field of door and window profiles, solves the problems of poor blocking effect and high energy consumption loss of the energy-saving door and window, and comprises hollow cavities arranged in aluminum outside a frame, aluminum inside the frame, aluminum compression joint of the frame, aluminum outside the frame, aluminum inside the frame, aluminum outside the window screen and aluminum inside a fan, the quality of the window body is reduced, the use of materials is reduced, the barrier performance and the sealing effect are improved, the heat insulation performance of the window body is improved, heat insulation filling structures are filled at a plurality of positions in the window body, the heat insulation performance of the window body is improved, the energy-saving effect is achieved, a plurality of closed structures are arranged in the window body, and the sealing performance and the heat insulation performance of the window body are improved, so that the energy-saving effect is achieved.

Description

Energy-saving window with window screen capable of being opened outside

Technical Field

The utility model relates to the technical field of door and window profiles, in particular to an energy-saving window with a window screen capable of being opened outside.

Background

With the acceleration of the urban process and the improvement of the quality of life of people, the proportion of building energy consumption in the total consumption of society is continuously increased. And most of the energy consumption of the building is lost through doors and windows, and the energy consumption of the doors and windows accounts for more than 50% of the energy consumption of the building. The existing energy-saving door and window generally adopts a double-layer glass structure to keep warm, but when the indoor and outdoor temperature difference is large, the common door and window cannot block heat loss, so that a large amount of energy loss is caused. The energy-saving door and window is a door and window for increasing lighting and ventilation area or representing character features of modern buildings. The energy-saving door and window can improve the optical performance, the thermal performance and the sealing performance of the material, improve the structure of the door and window to achieve the expected effect, and the energy-saving door and window should be considered from the following aspects: 1. door and window materials; 2. glass; 3. the energy saving of the door and window is the integral energy saving. In summary, the energy saving of a door or window depends not only on the material, but also on the glass, and more on the process of the door or window.

Disclosure of utility model

Aiming at the problems of poor blocking effect and high energy loss of the energy-saving doors and windows, the utility model aims to provide an energy-saving window with a window screen which is opened outside.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

a window screening integrated energy efficient window comprising: the window comprises a window frame 1, a window screen 2 and a window sash 3, wherein the window screen 2 and the window sash 3 are assembled on the window frame 1, the window screen 2 can be opened towards the indoor side, the window sash 3 can be opened towards the outdoor side, and the window screen 2 is arranged on the indoor side of the window sash 3;

The window frame 1 is provided with a first window frame part 11 for assembling the window screen 2 and the window sash 3, a second window frame part 12 for assembling the window glass 4 and a third window frame part 13, and two adjacent second window frame parts 12 or two adjacent first window frame parts 11 and second window frame parts 12 are connected through the third window frame part 13;

The window frame 1 includes: the out-of-frame aluminum 14 and the in-frame aluminum 15 further include: a first connecting member 6 and a second connecting member 7, wherein the aluminum outside frame 14 and the aluminum inside frame 15 in the first window frame portion 11 are connected by one of the first connecting members 6, the aluminum outside frame 14 and the aluminum inside frame 15 in the second window frame portion 12 are connected by the other of the first connecting members 6, and the aluminum outside frame 14 and the aluminum inside frame 15 in the third window frame portion 13 are connected by one of the second connecting members 7;

The window frame 1 further comprises: the outdoor side of the outer end face of the frame support liner 18 is connected with the frame outer aluminum 14, the indoor side of the outer end face of the frame support liner 18 is connected with the frame inner aluminum 15, the frame support aluminum 17 is mounted on the inner end face of the frame support liner 18, the outdoor side of the frame support aluminum 17 is in sealing connection with the frame outer aluminum 14, the indoor side of the frame support aluminum 17 is in sealing connection with the frame inner aluminum 15, the window sash 3 is mounted on the outdoor side of the frame support aluminum 17, and the window screen 2 is mounted on the indoor side of the frame support aluminum 17.

The window screening one body outward opening energy saving window, wherein the frame supporting aluminum 17 comprises: outer support aluminum 171 and inner support aluminum 172, further comprising: a third connection assembly 19, said third connection assembly 19 comprising: the fifth connecting piece 191 and the sixth connecting piece 192, the one end of the fifth connecting piece 191 with outer support aluminum 171 is connected, the other end of the fifth connecting piece 191 with inner support aluminum 172 is connected, the one end of the sixth connecting piece 192 with outer support aluminum 171 is connected, the other end of the sixth connecting piece 192 with inner support aluminum 172 is connected, a gap is arranged between the fifth connecting piece 191 and the sixth connecting piece 192, and a limiting end portion is arranged in the middle of the fifth connecting piece 191.

The window screening one body is opened energy-conserving window outward, wherein, casement 3 includes: an outer aluminum sector 31 and an inner aluminum sector 32, said outer aluminum sector 31 and said inner aluminum sector 32 being connected by said second connecting assembly 7.

The window screening one body is opened energy-conserving window outward, wherein, second coupling assembling 7 includes: the third connecting piece 71 and the fourth connecting piece 72, one side end face of the third connecting piece 71 is connected with one side end face of the fourth connecting piece 72, the other side end face of the third connecting piece 71 is used for supporting the window glass 4, and the other side end face of the fourth connecting piece 72 is provided with a mounting groove;

one end of the third connecting piece 71 located at the third window frame portion 13 is mounted on the outside aluminum 14, the other end of the third connecting piece 71 located at the third window frame portion 13 is mounted on the inside aluminum 15, one end of the fourth connecting piece 72 located at the third window frame portion 13 is mounted on the outside aluminum 14, and the other end of the fourth connecting piece 72 located at the third window frame portion 13 is mounted on the inside aluminum 15;

One end of the third connecting piece 71 positioned on the window sash 3 is installed on the outside aluminum 31, the other end of the third connecting piece 71 positioned on the window sash 3 is installed on the inside aluminum 32, one end of the fourth connecting piece 72 positioned on the window sash 3 is installed on the outside aluminum 31, and the other end of the fourth connecting piece 72 positioned on the window sash 3 is installed on the inside aluminum 32;

Further comprises: the first sealing members 73 are each arranged in the mounting groove of the fourth connecting member 72 of the window sash 3, and one first sealing member 73 is arranged in each mounting groove, and when the window sash 3 is in the closed state, the first sealing member 73 abuts against the limiting end part of the fifth connecting member 191.

The window screening one body is opened energy-conserving window outward, wherein, window screening 2 includes: the screen comprises screen window outer aluminum 21, screen window inner aluminum 22 and a screen 23, wherein the screen 23 is pressed and connected in the screen window outer aluminum 21 through the screen window inner aluminum 22.

The window screening one-piece energy-saving window comprises the window frame 1, wherein the window frame 1 further comprises: and a glass sealing structure 5, wherein the glass sealing structure 5 is mounted on the aluminum in frame 15, and the end part of the glass sealing structure 5 is abutted against the indoor side of the window glass 4 positioned at the second window frame part 12.

The window screening one-piece energy-saving window comprises the window frame 1, wherein the window frame 1 further comprises: a frame crimping aluminum 16, the frame crimping aluminum 16 being mounted on the glass sealing structure 5.

The window screening one-piece energy-saving window comprises the window frame 1, wherein the window frame 1 further comprises: the outer glass adhesive tape 8 is arranged on the outer frame aluminum 14, and the end part of the outer glass adhesive tape 8 is propped against the outdoor side of the window glass 4 positioned on the second window frame part 12.

The window screening one body is opened energy-conserving window outward, wherein, first coupling assembling 6 includes: the first connecting piece 61, the second connecting piece 62 and fill insulation construction 63, the one end of first connecting piece 61 is connected with outside aluminium 14, and the other end of first connecting piece 61 is connected with inside aluminium 15, and the one end of second connecting piece 62 is connected with outside aluminium 14, and the other end of second connecting piece 62 is connected with inside aluminium 15, first connecting piece 61 with fill between the second connecting piece 62 have fill insulation construction 63.

The energy-saving window is opened to above-mentioned window screening one, wherein still includes: the second sealing element is arranged on the inner supporting aluminum 172 and the screen window outer aluminum 21, when the screen window 2 and the window sash 3 are in a closed state, the second sealing element on the screen window outer aluminum 21 is propped against the frame inner aluminum 15, and the second sealing element on the inner supporting aluminum 172 is propped against the window inner aluminum 32.

The utility model adopts the technology, so that compared with the prior art, the utility model has the positive effects that:

(1) According to the utility model, hollow cavities are arranged in the aluminum outside the frame, the aluminum inside the frame, the frame crimping aluminum, the outer supporting aluminum, the inner supporting aluminum, the outer aluminum of the window screen and the inner aluminum of the fan, so that the quality of the window is reduced, the use of materials is reduced, the barrier performance and the sealing effect are improved, and the heat insulation performance of the window is improved.

(2) According to the utility model, the heat-insulating filling structures are filled at a plurality of positions in the window body, so that the heat-insulating performance of the window body is improved, and an energy-saving effect is achieved.

(3) According to the utility model, the window body is internally provided with a plurality of closed structures, so that the sealing performance and the heat insulation performance of the window body are improved, and an energy-saving effect is achieved.

Drawings

Fig. 1 is a schematic view of a first sash section of an energy efficient window of a window screening assembly according to the present utility model.

Fig. 2 is a schematic cross-sectional structure of fig. 1.

Fig. 3 is a schematic view of a third sash section of an energy efficient window of an exterior sash unit of the present utility model connecting adjacent first and second sash sections.

Fig. 4 is a schematic cross-sectional structure of fig. 3.

Fig. 5 is a schematic view of a second sash section of an energy efficient window with a window screening assembly according to the present utility model.

Fig. 6 is a schematic cross-sectional structure of fig. 5.

Fig. 7 is a schematic view of the structure of an energy saving window of the present utility model, wherein two adjacent second window frame sections are connected to each other.

Fig. 8 is a schematic cross-sectional structure of fig. 7.

In the accompanying drawings: 1. a window frame; 2. a window screening; 3. window sashes; 4. a window pane; 5. a glass sealing structure; 6. a first connection assembly; 7. a second connection assembly; 8. an outer glass adhesive tape; 11. a first window frame portion; 12. a second window frame portion; 13. a third window frame portion; 14. aluminum outside the frame; 15. aluminum in the frame; 16. frame crimping aluminum; 17. frame supporting aluminum; 18. a frame support pad; 19. a third connection assembly; 21. aluminum outside the window screen; 22. aluminum in the screen window; 23. a gauze; 31. aluminum outside the fan; 32. aluminum in the fan; 61. a first connector; 62. a second connector; 63. filling a heat preservation structure; 71. a third connecting member; 72. a fourth connecting member; 73. a first seal; 171. an outer support aluminum; 172. an inner support aluminum; 191. a fifth connecting member; 192. and a sixth connecting piece.

Detailed Description

The utility model is further described below with reference to the drawings and specific examples, which are not intended to be limiting.

Referring to fig. 1 to 8, there is shown a window screening integrated outward opening energy saving window, comprising: the window comprises a window frame 1, a window screen 2 and a window sash 3, wherein the window screen 2 and the window sash 3 are assembled on the window frame 1, the window screen 2 can be opened towards the indoor side, the window sash 3 can be opened towards the outdoor side, and the window screen 2 is arranged on the indoor side of the window sash 3;

The window frame 1 is provided with a first window frame part 11 for assembling the window screen 2 and the window sash 3, a second window frame part 12 for assembling the window glass 4 and a third window frame part 13, and two adjacent second window frame parts 12 or two adjacent first window frame parts 11 and second window frame parts 12 are connected through the third window frame part 13;

The window frame 1 includes: the out-of-frame aluminum 14 and the in-frame aluminum 15 further include: the first connecting component 6 and the second connecting component 7, the aluminum outside the frame 14 and the aluminum inside the frame 15 which are positioned at the first window frame part 11 are connected through one first connecting component 6, the aluminum outside the frame 14 and the aluminum inside the frame 15 which are positioned at the second window frame part 12 are connected through the other first connecting component 6, and the aluminum outside the frame 14 and the aluminum inside the frame 15 which are positioned at the third window frame part 13 are connected through one second connecting component 7;

The window frame 1 further comprises: the frame support aluminum 17 and the frame support gasket 18, the outdoor side of the outer end face of the frame support gasket 18 is connected with the frame outer aluminum 14, the indoor side of the outer end face of the frame support gasket 18 is connected with the frame inner aluminum 15, the frame support aluminum 17 is mounted on the inner end face of the frame support gasket 18, the outdoor side of the frame support aluminum 17 is connected with the frame outer aluminum 14 in a sealing manner, the indoor side of the frame support aluminum 17 is connected with the frame inner aluminum 15 in a sealing manner, the window sash 3 is mounted on the outdoor side of the frame support aluminum 17, and the window screen 2 is mounted on the indoor side of the frame support aluminum 17.

Further, in a preferred embodiment, the frame support aluminum 17 comprises: outer support aluminum 171 and inner support aluminum 172, further comprising: third coupling assembly 19, third coupling assembly 19 includes: the fifth connecting piece 191 and the sixth connecting piece 192, the one end of fifth connecting piece 191 is connected with outer support aluminum 171, and the other end of fifth connecting piece 191 is connected with interior support aluminum 172, and the one end of sixth connecting piece 192 is connected with outer support aluminum 171, and the other end of sixth connecting piece 192 is connected with interior support aluminum 172, is equipped with the clearance between fifth connecting piece 191 and the sixth connecting piece 192, and the middle part of fifth connecting piece 191 is equipped with spacing tip.

Further, in a preferred embodiment, the window sash 3 comprises: the outer fan aluminum 31 and the inner fan aluminum 32, and the outer fan aluminum 31 and the inner fan aluminum 32 are connected by the second connecting member 7.

Further, in a preferred embodiment, the second connection assembly 7 comprises: the third connecting piece 71 and the fourth connecting piece 72, one side end face of the third connecting piece 71 is connected with one side end face of the fourth connecting piece 72, the other side end face of the third connecting piece 71 is used for supporting the window glass 4, and the other side end face of the fourth connecting piece 72 is provided with a mounting groove;

one end of the third connecting piece 71 located at the third window frame portion 13 is mounted on the outside aluminum 14, the other end of the third connecting piece 71 located at the third window frame portion 13 is mounted on the inside aluminum 15, one end of the fourth connecting piece 72 located at the third window frame portion 13 is mounted on the outside aluminum 14, and the other end of the fourth connecting piece 72 located at the third window frame portion 13 is mounted on the inside aluminum 15;

One end of the third connecting piece 71 positioned on the window sash 3 is installed on the outside aluminum 31, the other end of the third connecting piece 71 positioned on the window sash 3 is installed on the inside aluminum 32, one end of the fourth connecting piece 72 positioned on the window sash 3 is installed on the outside aluminum 31, and the other end of the fourth connecting piece 72 positioned on the window sash 3 is installed on the inside aluminum 32;

Further comprises: the first sealing members 73 are each arranged in the mounting groove of the fourth connecting member 72 of the window sash 3, and one first sealing member 73 is arranged in each mounting groove, and when the window sash 3 is in the closed state, the first sealing member 73 abuts against the limiting end part of the fifth connecting member 191.

Further, in a preferred embodiment, the window screen 2 comprises: the screen window outer aluminum 21, the screen window inner aluminum 22 and the screen mesh 23, wherein the screen mesh 23 is pressed in the screen window outer aluminum 21 through the screen window inner aluminum 22.

Further, in a preferred embodiment, the window frame 1 further comprises: and a glass sealing structure 5, wherein the glass sealing structure 5 is mounted on the in-frame aluminum 15, and an end of the glass sealing structure 5 abuts against the indoor side of the window glass 4 located in the second window frame portion 12.

Further, in a preferred embodiment, the window frame 1 further comprises: the frame crimping aluminum 16, the frame crimping aluminum 16 is mounted on the glass seal structure 5.

Further, in a preferred embodiment, the window frame 1 further comprises: the outer glass rubber strip 8, the outer glass rubber strip 8 is installed on the outer frame aluminum 14, and the end of the outer glass rubber strip 8 is propped against the outdoor side of the window glass 4 positioned on the second window frame part 12.

Further, in a preferred embodiment, the first connection assembly 6 comprises: the first connecting piece 61, the second connecting piece 62 and the filling insulation structure 63, one end of the first connecting piece 61 is connected with the aluminum outside the frame 14, the other end of the first connecting piece 61 is connected with the aluminum inside the frame 15, one end of the second connecting piece 62 is connected with the aluminum outside the frame 14, the other end of the second connecting piece 62 is connected with the aluminum inside the frame 15, and the filling insulation structure 63 is filled between the first connecting piece 61 and the second connecting piece 62.

Further, in a preferred embodiment, the method further comprises: the second sealing element is arranged on the inner support aluminum 172 and the screen window outer aluminum 21, when the screen window 2 and the window sash 3 are in a closed state, the second sealing element arranged on the screen window outer aluminum 21 abuts against the frame inner aluminum 15, and the second sealing element arranged on the inner support aluminum 172 abuts against the window inner aluminum 32.

The foregoing is merely a preferred embodiment of the present utility model, and is not intended to limit the embodiments and the protection scope of the present utility model.

The present utility model has the following embodiments based on the above description:

In a further embodiment of the present utility model, the bottom of the aluminum outside the frame 14 is provided with a drain hole, as shown in fig. 2, 6 and 8, to enhance the drainage performance of the whole window and avoid water accumulation in the window.

In a further embodiment of the present utility model, reinforcing steel plates are installed on the frame outer aluminum 14, the screen outer aluminum 21 and the inner support aluminum 172, and the frame outer aluminum 14, the screen outer aluminum 21 and the inner support aluminum 172 are additionally provided with reinforcing steel plates to increase the support strength, thereby avoiding deformation.

In a further embodiment of the utility model, hollow cavities are arranged in the frame outer aluminum 14, the frame inner aluminum 15, the frame compression joint aluminum 16, the outer support aluminum 171, the inner support aluminum 172, the screen window outer aluminum 21 and the fan inner aluminum 32, so that the heat insulation performance of the window body is improved, and the energy-saving effect is achieved.

In a further embodiment of the present utility model, hollow cavities are respectively disposed in the first connecting piece 61 and the second connecting piece 62, and a heat insulation filling structure 63 is filled between the first connecting piece 61 and the second connecting piece 62, so that heat insulation performance of the window is improved, and an energy saving effect is achieved.

In a further embodiment of the present utility model, the heat insulation filling structure 63 is filled between the fifth connecting piece 191 and the sixth connecting piece 192, so as to increase the heat insulation performance of the window body and achieve the energy saving effect.

In a further embodiment of the utility model, the outer periphery of the window glass 4 is provided with a gasket, the window glass 4 is supported by the gasket, the window glass 4 is prevented from being in direct contact with the first connecting piece 61, the third connecting piece 71 and the fourth connecting piece 72, and the bonding connection is adopted, so that the supporting strength and the blocking performance of the gasket to the window glass 4 are improved.

In a further embodiment of the present utility model, the inner support aluminum 172 and the outer aluminum 21 of the screen window are both provided with the second sealing member, when the screen window 2 and the window sash 3 are both in the closed state, the second sealing member positioned on the outer aluminum 21 of the screen window abuts against the inner aluminum 15 of the frame, and the second sealing member positioned on the inner support aluminum 172 abuts against the inner aluminum 32 of the window sash, so that the barrier performance and the sealing effect are increased, and the thermal insulation performance of the window is increased.

In a further embodiment of the utility model, the first seal 73 is mounted on the fourth connector 74, the end of the first seal 73 abutting the limit end of the fifth connector 191 when the sash 3 is in the closed condition.

In a further embodiment of the utility model, the frame support cushion 18 is mounted on the inner support aluminum 172 by screws, and the frame support cushion 18 is snapped onto the outer and inner frame aluminum 14, 15 and sealed by glue.

In a further embodiment of the present utility model, the frame support cushion 18 is a hollow structure, which reduces material usage, reduces mass, increases thermal insulation of the window, and provides an energy saving effect.

In a further embodiment of the utility model, the indoor side and the outdoor side of the window glass 4 are respectively provided with a rubber strip for sealing, so that the sealing effect is enhanced.

In a further embodiment of the utility model, the outer support aluminum 171 and the outer aluminum 14 are connected by gluing, so that the heat insulation performance of the window body is improved, and the energy-saving effect is achieved.

In a further embodiment of the utility model, the inner support aluminum 172 and the inner aluminum 15 are connected by gluing, so that the heat insulation performance of the window body is improved, and the energy-saving effect is achieved.

In a further embodiment of the present utility model, the third connecting piece 71 and the fourth connecting piece 72 form a hollow cavity structure by surrounding, so that the heat insulation performance of the window is improved, and the energy-saving effect is achieved.

In a further embodiment of the present utility model, the end of the first sealing member 73 abuts against the limiting end of the fifth connecting member 191 to perform a sealing effect, so as to enhance the insulation performance.

In a further embodiment of the utility model, the glass sealing structure 5 is arranged on the aluminum 15 in the frame, and the end part of the glass sealing structure 5 is propped against the indoor side of the window glass 4 to play a role in sealing, thereby enhancing the barrier and heat insulation performance.

In a further embodiment of the utility model, hollow cavities are arranged in the frame outer aluminum 14, the frame inner aluminum 15, the frame compression joint aluminum 16, the outer support aluminum 171, the inner support aluminum 172, the screen window outer aluminum 21 and the fan inner aluminum 32, so that the quality of the window is reduced, the use of materials is reduced, the barrier performance and the sealing effect are improved, and the heat insulation performance of the window is improved.

In a further embodiment of the utility model, a plurality of heat-insulating filling structures 63 are filled in the window body, so that the heat-insulating performance of the window body is improved, and the energy-saving effect is achieved.

In a further embodiment of the utility model, a plurality of closed structures are arranged in the window body, so that the sealing performance and the heat insulation performance of the window body are improved, and the energy-saving effect is achieved.

In a further embodiment of the utility model, the utility model is an aluminum alloy window with heat preservation (K < 2.5W/(m 2. K)), heat insulation (SHGC is less than or equal to 0.44), the thickness of a frame body is 86.8mm, the thickness of a main profile base material wall is 1.8mm, and the width of a PA66GF25 Ni Long Bo fiber heat insulation strip is as follows: frame 35.3, center 25, fan 24mm.

In a further embodiment of the utility model, the utility model can be optionally matched with heat preservation filling in the cavity of the nylon 66 heat insulation layer and around the hollow glass.

In a further embodiment of the utility model, the indoor opening fan aluminum material and the fixed glass buckling strip are welded in a seamless manner, and are smooth and attractive, and the product defects of leakage and the like caused by heat shrinkage, deformation, mechanical property reduction, composite strength attenuation and corner cracking in the processing process of the nylon glass fiber heat insulation strip due to integral welding of the aluminum alloy profile are overcome.

In a further embodiment of the utility model, a hidden hinge is adopted, the indoor and outdoor pure flat design is adopted, four corners of the opening fan and the fixed glass buckling strip are rounded, the indoor lines are round and soft, the damage of a user in the use process of the product is effectively avoided, and the 180-degree opening hardware configuration can be realized.

In a further embodiment of the utility model, the indoor and outdoor aluminum materials can realize double-sided color spraying, and the requirements of different decorative styles of the inner and outer vertical surfaces of the outer window are met.

In a further embodiment of the utility model, the glass-containing thickness of the glazing 4 is: opening the fan by 26-43mm and fixing by 26-49 mm.

In a further embodiment of the utility model, the opening fan is provided with the inward opening screen window, so that the operation and maintenance are safe and reliable, and the operation and maintenance are convenient.

In a further embodiment of the utility model, the width of the visible surface of the frame is 59mm, the width of the visible surface of the window sash is 61mm, and the window is slim and transparent.

In a further embodiment of the utility model, the lower frame is a clear drain structure, and the mosquito-proof buckle cover is optionally matched with an aluminum alloy window table plate.

In a further embodiment of the utility model, the window frame adopts a connecting structure of mechanical collision angle and glue injection angle code filling glue sealing angle piece for screw connection 2, thereby not only ensuring mass production efficiency and sealing quality, but also meeting the installation requirement of on-site frame closing under special conditions.

In a further embodiment of the utility model, the whole window may be used to make a panoramic ventilation window.

In a further embodiment of the utility model, the whole window is optionally fitted with a glass guardrail.

In a further embodiment of the utility model, the whole window can be optionally matched with a glass inner scenery strip and a glass outer scenery strip.

In a further embodiment of the utility model, the whole window is suitable for window for residence and public buildings in climatic regions of buildings with hot summer, cold winter, mild summer, hot winter and warm winter.

The foregoing is merely illustrative of the preferred embodiments of the present utility model and is not intended to limit the embodiments and scope of the present utility model, and it should be appreciated by those skilled in the art that equivalent substitutions and obvious variations may be made using the description and illustrations of the present utility model, and are intended to be included in the scope of the present utility model.

Claims (10)

1. A window screening integrated energy saving window comprising: the window comprises a window frame (1), a window screen (2) and a window sash (3), wherein the window screen (2) and the window sash (3) are assembled on the window frame (1), the window screen (2) can be opened towards the indoor side, the window sash (3) can be opened towards the outdoor side, and the window screen (2) is arranged on the indoor side of the window sash (3);

The window frame (1) is provided with a first window frame part (11) for assembling the window screen (2) and the window sash (3), a second window frame part (12) for assembling the window glass (4) and a third window frame part (13), wherein two adjacent second window frame parts (12) or two adjacent first window frame parts (11) and second window frame parts (12) are connected through the third window frame part (13);

The window frame (1) comprises: an out-of-frame aluminum (14) and an in-frame aluminum (15), further comprising: a first connecting component (6) and a second connecting component (7), wherein the aluminum (14) outside the frame and the aluminum (15) inside the frame are positioned at a first window frame part (11) and are connected through one first connecting component (6), the aluminum (14) outside the frame and the aluminum (15) inside the frame are positioned at a second window frame part (12) and are connected through the other first connecting component (6), and the aluminum (14) outside the frame and the aluminum (15) inside the frame are positioned at a third window frame part (13) and are connected through one second connecting component (7);

The window frame (1) further comprises: frame supporting aluminum (17) and frame supporting liner (18), the outdoor side of the outer terminal surface of frame supporting liner (18) with frame outer aluminum (14) is connected, the indoor side of the outer terminal surface of frame supporting liner (18) with frame inner aluminum (15) is connected, frame supporting aluminum (17) is installed at the interior terminal surface of frame supporting liner (18), the outdoor side of frame supporting aluminum (17) with frame outer aluminum (14) sealing connection, the indoor side of frame supporting aluminum (17) with frame inner aluminum (15) sealing connection, casement (3) are installed at the outdoor side of frame supporting aluminum (17), window screening (2) are installed at the indoor side of frame supporting aluminum (17).

2. A window screening according to claim 1, characterized in that the frame supporting aluminium (17) comprises: outer support aluminum (171) and inner support aluminum (172), further comprising: -a third connection assembly (19), the third connection assembly (19) comprising: the novel connecting device comprises a fifth connecting piece (191) and a sixth connecting piece (192), wherein one end of the fifth connecting piece (191) is connected with the outer supporting aluminum (171), the other end of the fifth connecting piece (191) is connected with the inner supporting aluminum (172), one end of the sixth connecting piece (192) is connected with the outer supporting aluminum (171), the other end of the sixth connecting piece (192) is connected with the inner supporting aluminum (172), a gap is reserved between the fifth connecting piece (191) and the sixth connecting piece (192), and a limiting end part is arranged in the middle of the fifth connecting piece (191).

3. A window screening according to claim 2, characterized in that the sash (3) comprises: -an outer aluminum (31) and an inner aluminum (32), said outer aluminum (31) and said inner aluminum (32) being connected by said second connecting assembly (7).

4. A window screening according to claim 3, wherein said second connection assembly (7) comprises: the device comprises a third connecting piece (71) and a fourth connecting piece (72), wherein one side end surface of the third connecting piece (71) is connected with one side end surface of the fourth connecting piece (72), the other side end surface of the third connecting piece (71) is used for supporting window glass (4), and an installation groove is formed in the other side end surface of the fourth connecting piece (72);

One end of a third connecting piece (71) positioned at the third window frame part (13) is installed on the aluminum (14) outside the frame, the other end of the third connecting piece (71) positioned at the third window frame part (13) is installed on the aluminum (15) inside the frame, one end of a fourth connecting piece (72) positioned at the third window frame part (13) is installed on the aluminum (14) outside the frame, and the other end of the fourth connecting piece (72) positioned at the third window frame part (13) is installed on the aluminum (15) inside the frame;

one end of a third connecting piece (71) positioned on the window sash (3) is arranged on an external aluminum (31), the other end of the third connecting piece (71) positioned on the window sash (3) is arranged on an internal aluminum (32), one end of a fourth connecting piece (72) positioned on the window sash (3) is arranged on the external aluminum (31), and the other end of the fourth connecting piece (72) positioned on the window sash (3) is arranged on the internal aluminum (32);

Further comprises: and the first sealing parts (73) are respectively arranged in the mounting grooves of the fourth connecting parts (72) of the window sashes (3), one first sealing part (73) is arranged in each mounting groove, and when the window sashes (3) are in a closed state, the first sealing parts (73) are abutted against the limiting end parts of the fifth connecting parts (191).

5. A window screening according to claim 2, characterized in that the window screening (2) comprises: the screen window comprises screen window outer aluminum (21), screen window inner aluminum (22) and a screen mesh (23), wherein the screen mesh (23) is pressed and connected in the screen window outer aluminum (21) through the screen window inner aluminum (22).

6. A window screening according to claim 1, characterized in that the window frame (1) further comprises: and a glass sealing structure (5), wherein the glass sealing structure (5) is installed on the aluminum (15) in the frame, and the end part of the glass sealing structure (5) is abutted against the indoor side of the window glass (4) positioned at the second window frame part (12).

7. A window screening according to claim 6, characterized in that the window frame (1) further comprises: and a frame crimping aluminum (16), wherein the frame crimping aluminum (16) is mounted on the glass sealing structure (5).

8. A window screening according to claim 1, characterized in that the window frame (1) further comprises: the glass outer adhesive tape (8), the glass outer adhesive tape (8) is installed on frame outer aluminium (14), and the tip of glass outer adhesive tape (8) supports in the outdoor side that is located window glass (4) of second window frame portion (12).

9. A window screening according to claim 1, characterized in that the first connection assembly (6) comprises: first connecting piece (61), second connecting piece (62) and packing insulation construction (63), the one end and the outside aluminium (14) of frame of first connecting piece (61) are connected, and the other end and the inside aluminium (15) of frame of first connecting piece (61) are connected, and the one end and the outside aluminium (14) of frame of second connecting piece (62) are connected, and the other end and the inside aluminium (15) of frame of second connecting piece (62) are connected, first connecting piece (61) with it has to pack between second connecting piece (62) packing insulation construction (63).

10. The window screening one-piece out-opening energy saving window according to claim 5, further comprising: the second sealing piece is arranged on the inner supporting aluminum (172) and the screen window outer aluminum (21), when the window screen (2) and the window sash (3) are in a closed state, the second sealing piece on the screen window outer aluminum (21) is propped against the frame inner aluminum (15), and the second sealing piece on the inner supporting aluminum (172) is propped against the fan inner aluminum (32).