CN220815393U - Six-rail heat-insulation sound-insulation bridge-cut-off sliding window - Google Patents

Abstract

The utility model provides a six-rail heat-insulation sound-insulation bridge-cut-off sliding window, which comprises an inner window frame, a glass window sash, a screen window sash and pulley assemblies which are respectively connected to the bottom of the glass window sash and the bottom of the screen window sash and movably arranged on the inner side of the inner window frame, wherein the six-rail heat-insulation sound-insulation bridge-cut-off sliding window has good adaptability, stability and safety, overcomes the defects of the existing sliding window, ensures that the window has multiple functions by combining the inner sliding glass sash, the outer sliding glass sash and the screen window sash, and can also open the screen window sash to prevent insects from entering a room so as to meet different use requirements; by arranging the inserting lock plate and the pushing lock, the inner sliding glass sash and the outer sliding glass sash can be mutually locked in a closed state, so that the safety of the window is improved; the inner window frame is connected with the supporting section bar, so that the window sashes can be prevented from directly impacting the window frame, the stability of the window frame is reduced, the risks of damage and accidents of the window frame are reduced, the stability and the structural strength of the window can be further enhanced, and the service life of the window is prolonged.

Description

Six-rail heat-insulation sound-insulation bridge-cut-off sliding window

Technical Field

The utility model relates to the field of sliding windows, in particular to a six-rail heat-insulation sound-insulation broken-bridge sliding window.

Background

The three-rail aluminium alloy sliding window is a novel aluminium alloy sliding window which is recently appeared and is provided with two glass sashes and one screen sash which are arranged on three rails and can be simultaneously pushed and pulled, and the window and the screen sash have the same size. The three-rail aluminum alloy sliding window has the advantages of good versatility of section bar specifications, reduced variety number, convenient purchase and material preparation, convenient cutting and blanking, section bar material saving, suitability for standardized operation, and reduced production, manufacture and management costs.

But the existing three-rail aluminum alloy sliding window cannot be adjusted by adding fixed glass according to the field condition, has poor adaptability, and directly impacts a window frame when a sliding glass sash is opened, so that the stability of the window frame is low, the service life of the window frame can be prolonged after long-time use, and accidents are easy to occur.

Disclosure of utility model

The utility model improves the prior art aiming at the defects, and provides a six-rail heat-insulation sound-insulation bridge-cut-off sliding window, which has the following technical scheme:

The six-rail heat-insulating sound-insulating bridge-cut-off sliding window comprises an inner window frame, a glass window sash, a window sash and pulley components respectively connected with the bottom of the glass window sash and the bottom of the window sash and movably arranged at the inner side of the inner window frame, wherein the upper end and the lower end of the inner window frame are respectively connected with inner glass fixing sectional materials, the upper end and the lower end of the inner window frame are respectively connected with an outer window frame fixed with a wall body or an outer glass fixing sectional material which is positioned at the opposite position of the inner glass fixing sectional materials and is connected with the opposite position of the inner glass fixing sectional materials through a glass outer frame, the inner glass fixing sectional materials and the outer glass fixing sectional materials form a glass window sash frame for sleeving and fixing glass, the glass window sash comprises an inner push-pull glass sash and an outer push-pull glass sash, the screen window fan is closed the back and is located one side of interior push-and-pull glass fan and be connected with first lock, interior push-and-pull glass fan corresponds first lock piece and is connected with first lock that pushes away, the back is closed to interior push-and-pull glass fan and is located one side of pushing away the pull glass fan and be connected with the second lock that pushes away, push away the pull glass fan and be connected with the second lock that pushes away corresponding second lock piece, the lower shelves of interior window frame correspond respectively and push-and-pull glass fan, push away pull glass fan and screen window fan extension are provided with the track, adjacent can dismantle between the track and be connected with the bridge cut-off apron, every the track is provided with two respectively.

The inner sliding glass fan, the outer sliding glass fan and the screen window fan are respectively provided with two fans, the two inner sliding glass fans move along opposite directions to enable the inner sliding glass fans to be closed, and the two outer sliding glass fans and the two screen window fans move along opposite directions to enable the outer sliding glass fans and the two screen window fans to be matched with the inner sliding glass fans to form the closing.

The inner side of the inner window frame is respectively connected with supporting sectional materials in the opening directions of the screen window sash, the inner push-pull glass sash and the outer push-pull glass sash.

The push-pull glass fan is provided with a handle on one side outside the room.

Compared with the prior art, the utility model has the beneficial effects that: the sliding window has good adaptability, stability and safety, overcomes the defects of the existing sliding window, and provides better adaptability and stability. The glass outer frame and the glass fixing section bar are connected, so that the fixing glass can be flexibly adjusted and sleeved in the window frame, and the adaptability of the window is improved; the combination of the inner push-pull glass sash, the outer push-pull glass sash and the screen window sash is adopted, so that the window has multiple functions. The user can select to open only the inner window sash or the outer window sash to realize ventilation, and also can open the screen window sash to prevent insects from entering the room, so that different use requirements are met; by arranging the inserting lock plate and the pushing lock, the inner sliding glass sash and the outer sliding glass sash can be mutually locked in a closed state, so that the safety of the window is improved; the inner window frame is connected with the supporting section bar, so that the window sashes can be prevented from directly striking the window frame, the stability of the window frame is reduced, the risks of damage and accidents of the window frame are reduced, and meanwhile, the stability and the structural strength of the window can be further enhanced. The setting of supporting section bar can disperse effectively and bear the pressure when the window is opened, prolongs the life of window, reduces the possibility that unexpected appears, realizes thermal-insulated sound insulation effect through bridge cut-off apron and six tracks.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present utility model, the following description of the embodiments will briefly describe the drawings that are required to be used in the description:

FIG. 1 is a side structural cross-sectional view of an embodiment of the present utility model;

FIG. 2 is a cross-sectional view of a first and second embodiment of the present utility model;

FIG. 3 is a cross-sectional view of a second side structure of an embodiment of the present utility model;

FIG. 4 is a perspective view of a tri-depression structure of an embodiment of the present utility model;

Comprising the following steps: 1. an inner window frame; 2. glass window sashes; 3. a screen window sash; 4. a pulley assembly; 5. an inner glass fixing profile; 6. an outer window frame; 7. a glass outer frame; 8. an outer glass fixing profile; 9. a glass fan frame; 10. an inner push-pull glass fan; 11. an outer push-pull glass fan; 12. a first locking piece; 13. a first push lock; 14. a second latch plate; 15. a second push lock; 16. a support profile; 17. a handle; 18. a track; 19. bridge cut-off apron.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to fall within the scope of the utility model.

Embodiments of the present utility model will be described in further detail below with reference to the attached drawings, as follows:

Embodiment one:

The utility model provides a six rail thermal-insulated sound insulation bridge cut-off austral window, sliding sash, is including interior window frame 1, glass casement 2, screen window casement 3 and connect respectively in glass casement 2 bottom and screen window casement 3 bottom and the inboard pulley assembly 4 of movable locating interior window frame 1, the upper and lower both ends of interior window frame 1 are connected with interior glass fixed profile 5 respectively, the upper and lower both ends of interior window frame 1 are connected with respectively with wall body fixed outer window frame 6, glass casement 2 is including interior push-pull glass casement 10 and push-pull glass casement 11 outward, screen window casement 3 is closed the back and is located one side of interior push-pull glass casement 10 and be connected with first lock 13 that pushes away, interior push-pull glass casement 10 is closed the back and is located one side of push-pull glass casement 11 and be connected with second lock 14 that pushes away, push-pull glass casement 11 is connected with second lock 15 that pushes away.

The inner side of the inner window frame 1 is respectively positioned in the opening directions of the window sash 3, the inner push-pull glass sash 10 and the outer push-pull glass sash 11, and is connected with a support section bar 16.

The push-pull glass fan 11 is provided with a handle 17 at the outdoor side.

The lower shelves of the inner window frame 1 are respectively provided with tracks 18 corresponding to the inner push-pull glass sash 10, the outer push-pull glass sash 11 and the screen window sash 3 in an extending manner, bridge cut-off cover plates 19 are detachably connected between the adjacent tracks 18, two tracks 18 are respectively arranged, and the heat insulation and sound insulation effects are realized through the bridge cut-off cover plates and six tracks.

Embodiment two:

In this embodiment, the upper and lower ends of the inner window frame 1 are located at the opposite positions of the inner glass fixing section bar 5 and are connected with the outer glass fixing section bar 8 through the glass outer frame 7, the inner glass fixing section bar 5 and the outer glass fixing section bar 8 form a glass sash frame 9 for sleeving fixed glass, the glass sash frame 9 is formed by the inner glass fixing section bar 5 and the outer glass fixing section bar 8, the effect of installing the glass sash frame 9 on the glass sash 2 is achieved, the fixed glass can be flexibly adjusted and sleeved in the window frame, the adaptability of the window is improved, and other structures are the same as those of the first embodiment.

Embodiment III:

In this embodiment, the inner sliding glass sash 10, the outer sliding glass sash 11 and the screen window sash 3 are respectively provided with two panes, the two inner sliding glass sashes 10 move in opposite directions to close the inner sliding glass sashes, the two outer sliding glass sashes 11 and the two screen window sashes 3 move in opposite directions to form a close together with the inner sliding glass sashes 10, and other structures are the same as those of the first embodiment.

The sliding window has good adaptability, stability and safety, overcomes the defects of the existing sliding window, and provides better adaptability and stability. The glass outer frame 7 and the glass fixing section bar 8 are connected, so that the fixed glass can be flexibly adjusted and sleeved in the window frame, and the adaptability of the window is improved; the combination of the inner push-pull glass pane 10, the outer push-pull glass pane 11 and the screen window pane 3 is used, so that the window has multiple functions. The user can select to open only the inner window sash or the outer window sash to realize ventilation, and also can open the screen window sash 3 to prevent insects from entering the room, so as to meet different use requirements; by arranging the inserting lock sheet and the pushing lock, the inner push-pull glass sash 10 and the outer push-pull glass sash 11 can be mutually locked in a closed state, so that the safety of the window is improved; the connection of the support profile 16 by the inner frame 1 can avoid that the sash directly hits the frame to reduce the stability of the frame, reduce the risk of damage and accidents of the frame, and can further enhance the stability and structural strength of the window. The arrangement of the support profile 16 can effectively disperse and bear the pressure when the window is opened, prolong the service life of the window and reduce the possibility of accidents.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (4)

1. The six-rail heat-insulation sound-insulation bridge-cut-off sliding window comprises an inner window frame, a glass window sash, a window sash and pulley components which are respectively connected with the bottom of the glass window sash and the bottom of the window sash and movably arranged on the inner side of the inner window frame, and is characterized in that the upper end and the lower end of the inner window frame are respectively connected with inner glass fixing sectional materials, the upper end and the lower end of the inner window frame are respectively connected with an outer window frame fixed with a wall body or an outer glass fixing sectional material which is positioned at the opposite position of the inner glass fixing sectional materials and is connected with the outer glass fixing sectional materials through a glass outer frame, the inner glass fixing sectional materials and the outer glass fixing sectional materials form a glass window frame for sleeving and fixing glass, the glass window sashes are characterized by comprising an inner push-pull glass sash and an outer push-pull glass sash, a first locking plug is connected to one side of the inner push-pull glass sash after the window screen sash is closed, a first locking plug is connected to the inner push-pull glass sash corresponding to the first locking plug, a second locking plug is connected to one side of the outer push-pull glass sash after the inner push-pull glass sash is closed, a second locking plug is connected to the outer push-pull glass sash corresponding to the second locking plug, tracks are respectively arranged on the lower gear of the inner window frame in an extending mode and correspond to the inner push-pull glass sash, the outer push-pull glass sash and the window screen sash, bridge-cut-off cover plates are detachably connected between the adjacent tracks, and two tracks are respectively arranged.

2. A six-rail heat and sound insulation broken bridge sliding window according to claim 1, wherein the inner sliding glass sash, the outer sliding glass sash and the screen window sash are respectively provided with two inner sliding glass sashes, the two inner sliding glass sashes move in opposite directions to close the inner sliding glass sashes, and the two outer sliding glass sashes and the two screen window sashes move in opposite directions to form the closing together with the inner sliding glass sashes.

3. A six-rail heat-insulation sound-insulation broken bridge sliding window according to claim 1, wherein the inner side of the inner window frame is respectively connected with support profiles in the opening directions of the window sashes, the inner sliding glass sashes and the outer sliding glass sashes.

4. A six-rail heat and sound insulation broken bridge sliding window according to claim 1, wherein the push-pull glass sash is provided with a handle on the outdoor side.