CN210598667U - Combined sliding window - Google Patents

Combined sliding window Download PDF

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Publication number
CN210598667U
CN210598667U CN201920897671.0U CN201920897671U CN210598667U CN 210598667 U CN210598667 U CN 210598667U CN 201920897671 U CN201920897671 U CN 201920897671U CN 210598667 U CN210598667 U CN 210598667U
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window
frame
sash
transverse
window sash
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CN201920897671.0U
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Chinese (zh)
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王湘根
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Foshan Boshi Doors And Windows Co ltd
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Individual
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Abstract

The utility model relates to a combined sliding window, which comprises a first transverse window frame, a second transverse window frame, a left vertical mullion, a right vertical mullion, 2 vertical window frame frames, a left glass window sash, a right glass window sash and an anti-rail-jumping adhesive tape, wherein the first transverse window frame, the second transverse window frame and the 2 vertical window frame frames are connected to form a frame body; glass plates are respectively arranged in the left window pane and the right window pane; the left glass window sash and the right glass window sash are slidably mounted between the first transverse window frame and the second transverse window frame, the anti-bouncing rail adhesive tape is mounted in a mounting groove formed in the first transverse window frame, and the top edges of the respective side plate parts of the left glass window sash and the right glass window sash abut against the anti-bouncing rail adhesive tape. The utility model has the characteristics of large window width, wide visual field, high lighting rate, no space occupation, convenient use and the like.

Description

Combined sliding window
Technical Field
The utility model relates to a door and window product technology field, especially a combined austral window, sliding sash.
Background
At present, most sliding windows on the market only comprise 2 window sashes and window frames, the 2 window sashes are respectively arranged on 2 different guide rails in a sliding mode, and the 2 window sashes are overlapped after being opened, so that the window width of the sliding window with the structure is small, the visual field is not wide enough, and the lighting rate is poor. In real life, a user can open a field of vision in a room more widely, windows in places such as office buildings are generally casement windows, but the casement windows need to push window sashes inwards or outwards to open the windows when the windows are opened, so that the indoor space and the outdoor space are occupied, and the use is inconvenient.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a combined austral window, sliding sash, this combined austral window, sliding sash have simple structure, reasonable in design, the window width of cloth is big, the field of vision is wide, daylighting rate is high, occupation space and convenient to use etc. advantage.
The technical scheme of the utility model is realized like this: a combined sliding window comprises a first transverse window frame side frame, a second transverse window frame side frame, a left vertical mullion, a right vertical mullion and 2 vertical window frame side frames, wherein the first transverse window frame side frame, the second transverse window frame side frame and the 2 vertical window frame side frames are connected to form a frame body; glass plates are respectively arranged in the left window pane and the right window pane; the anti-rail-jumping window is characterized by further comprising a left glass window sash, a right glass window sash and an anti-rail-jumping adhesive tape; a first groove is formed on the frame of the first transverse window frame, 2 guide rail plate parts are integrally formed in the first groove, and an installation groove is formed in the first groove and is positioned beside the inner sides of the 2 guide rail plate parts; the anti-rail-jumping adhesive tape is arranged in the mounting groove in a penetrating manner; a second groove is formed on the frame of the second transverse window frame, the second groove and the first groove are oppositely arranged, and a guide rail bar is formed in the second groove; 2 side plate parts are respectively formed on the top of each of the left glass window sash and the right glass window sash, and a mounting concave position is formed between the 2 side plate parts; the upper wheels are respectively arranged in the mounting concave positions of the left glass window sash and the right glass window sash, and the lower wheels are respectively arranged at the bottoms of the left glass window sash and the right glass window sash; the top parts of the left glass window sash and the right glass window sash are respectively embedded into first grooves on the first transverse window frame, 2 guide rail plate parts of the first transverse window frame are inserted into a mounting concave position of the left glass window sash and a mounting concave position of the right glass window sash, upper wheels on the left glass window sash and the right glass window sash are respectively and slidably mounted between the 2 guide rail plate parts, top edges of one side plate parts of the left glass window sash and the right glass window sash are respectively abutted against a track jump prevention adhesive tape, lower wheels on the left glass window sash and the right glass window sash are respectively and slidably mounted on a guide rail plate of the second transverse window frame, so that the left glass window sash and the right glass window sash can slide between the first transverse window frame and the second transverse window frame, and the left glass window sash and the right glass window sash are in butt joint fit to close the window frames.
Further, the first transverse window frame side frame, the second transverse window frame side frame, the left vertical mullion, the right vertical mullion and the 2 vertical window frame side frames respectively comprise an inner profile, an outer profile and a heat insulation strip for connecting the inner profile and the outer profile together; the first groove is formed on the outer section bar of the first transverse window frame side frame, and the second groove is formed on the outer section bar of the second transverse window frame side frame.
And a water baffle plate part is formed along one groove side of the second groove and is positioned beside the inner side of the guide rail bar.
Still further, the utility model discloses still include the third horizontal window frame, the one end of third horizontal window frame is connected with the top of one of them vertical window frame, and the other end of this third horizontal window frame is connected with the top of another vertical window frame, causes third horizontal window frame, first horizontal window frame and 2 vertical window frame frames to connect and is formed with the upper pane, installs the glass board in the upper pane.
The utility model has the advantages that: the utility model discloses a left glass casement, right glass casement are slidable mounting between the first recess of first horizontal window frame and the second recess of second horizontal window frame, and left glass casement, the two butt joint cooperation centering pane of right glass casement are closed, left glass casement is when opening together with the glass sheet superpose in the left pane, right glass casement is together with the glass sheet superpose in the right pane, adopt this kind of fixed while activity mode, make the utility model discloses a when having great draught area and improving the daylighting rate, open the casement and do not occupy indoor outer space, and install at first horizontal window frame and prevent jumping rail adhesive tape, avoid like this promoting left glass casement, right glass casement taking place the derail in sliding process, further improve the utility model discloses a stability and security make the utility model have the advantages of simple structure, Reasonable design, large window width, wide visual field, high lighting rate, no space occupation, convenient use and the like.
Drawings
Fig. 1 is a schematic structural diagram of the embodiment.
Fig. 2 is a structural schematic view of fig. 1 after the left screen window sash, the right screen window sash, the left glass window sash and the right glass window sash are opened.
Fig. 3 is a schematic sectional view taken along the direction a-a in fig. 1.
Fig. 4 is an enlarged structural view of a portion B in fig. 3.
Fig. 5 is an enlarged schematic view of a portion C in fig. 3.
Fig. 6 is a schematic cross-sectional view taken along the direction D-D in fig. 2.
Fig. 7 is an enlarged schematic view of a portion E in fig. 6.
Fig. 8 is an enlarged structural view of a portion F in fig. 6.
Fig. 9 is a schematic sectional view in the direction of G-G in fig. 2.
Fig. 10 is an enlarged schematic view of a portion H in fig. 9.
Fig. 11 is an enlarged schematic view of portion I of fig. 9.
Description of reference numerals: 11-a first transverse frame jamb; 111-a first recess; 112. 113-a rail plate portion; 114-a mounting slot; 117-screen rail up; 12-a second transverse frame jamb; 121-a second groove; 122-a guide rail bar; 115. 123-inner section bar; 116. 124-outer section bar; 125-a breakwater part; 126-screen down rail; 13-left vertical mullion; 14-right vertical mullion; 15. 16-vertical window frame border; 17-a third transverse frame jamb; 18-a fourth transverse frame jamb; 2-left glass window sash; 3-right glass window sash; 21. 22, 31, 32-side plate parts; 23. 33-mounting the concave position; 24. 34-upper horizontal sash frame; 25. 35-lower horizontal sash frame; 26. 36-left vertical sash jamb; 27. 37-right vertical sash jamb; 28. 38-upper wheel; 29. 39-lower wheel; 4-anti-track-jumping adhesive tape; 5-outer left sealing mechanism; 51-a first hooked rabbet; 52-second hooked rabbet; 511. 521-a sealing strip; 512. 522-wool tops; 6-outer right sealing mechanism; 61-third hooked rabbet; 62-fourth hooked rabbet; 611. 621-a sealing strip; 612. 622-wool tops; 7-left screen window sash; 8-right screen window sash; 71. 81-upper pulley; 72. 82-a lower pulley; 73. 83-upper horizontal gauze sash frame; 74. 84-lower horizontal screen sash frame; 75. 85-left vertical screen sash frame; 76. 86-right vertical screen sash frame; 77. 87-a gauze; 9-inner left sealing mechanism; 91-fifth hooked rabbet; 92-sixth hooked rabbet; 911. 921-sealing strip; 912. 922-wool tops; 10-inner right sealing mechanism; 101-the seventh hooked rabbet, 102-the eighth hooked rabbet; 1011. 1021-a seal strip; 1012. 1022-wool tops; 20. 30, 40, 50, 60, 70-glass plates.
Detailed Description
As shown in fig. 1 to 11, a combined sliding window of this embodiment includes a first horizontal window frame 11, a second horizontal window frame 12, a left vertical mullion 13, a right vertical mullion 14, and 2 vertical window frame mullions 15 and 16, where the first horizontal window frame 11, the second horizontal window frame 12, and the 2 vertical window frame mullions 15 and 16 are connected to form a frame body, and the left vertical mullion 13 and the right vertical mullion 14 are respectively connected between the first horizontal window frame 11 and the second horizontal window frame mullion 12 to partition the frame body into a left window pane, a middle window pane, and a right window pane; the left pane and the right pane are respectively provided with glass plates 20 and 30; in order to realize the purpose of the combined sliding window, the combined sliding window also comprises a left glass window sash 2, a right glass window sash 3 and an anti-rail-jumping adhesive tape 4; a first groove 111 is formed on the first horizontal sash frame 11, 2 guide rail plate parts 112 and 113 are integrally formed in the first groove 111, and an installation groove 114 is formed in the first groove 111, and the installation groove 114 is positioned beside the inner sides of the 2 guide rail plate parts 112 and 113; the anti-track-jump rubber strip 4 is arranged in the mounting groove 114 in a penetrating manner; a second groove 121 is formed on the second transverse sash frame 12, the second groove 121 is opposite to the first groove 111, and a guide rail strip 122 is formed in the second groove 121; 2 side plate parts 21, 22, 31 and 32 are respectively formed on the top parts of the left glass window sash 2 and the right glass window sash 3, and mounting concave positions 23 and 33 are formed between the 2 side plate parts 21, 22, 31 and 32; the upper wheels 28 and 38 are respectively arranged in the mounting concave positions 23 and 33 of the left glass window sash 2 and the right glass window sash 3, and the lower wheels 29 and 39 are respectively arranged at the bottoms of the left glass window sash 2 and the right glass window sash 3; the top of each of the left glass window sash 2 and the right glass window sash 3 is respectively embedded into the first groove 111 of the first horizontal window frame 11, and 2 guide rail plate parts 112, 113 of the first horizontal window frame 11 are inserted into the installation concave position 23 of the left glass window sash 2 and the installation concave position 33 of the right glass window sash 3, the upper wheels 28, 38 of each of the left glass window sash 2 and the right glass window sash 3 are respectively slidably installed between the 2 guide rail plate parts 112, 113, the top edge of one side plate part 21, 31 of each of the left glass window sash 2 and the right glass window sash 3 is respectively abutted against the anti-jump rail adhesive tape 4, the lower wheels 29, 39 of each of the left glass window sash 2 and the right glass window sash 3 are respectively slidably installed on the guide rail strip 122 of the second horizontal window frame 12, so that the left glass window sash 2 and the right glass window sash 3 can slide between the first horizontal window frame 11 and the second horizontal window frame 12, the left glass window sash 2 and the right glass window sash 3 are in butt joint and matched with the centering window pane to close; in specific implementation, a locking mechanism is arranged between the left glass window sash 2 and the right glass window sash 3, so that the left glass window sash 2 and the right glass window sash 3 are locked, and the anti-theft purpose is achieved. When the combined sliding window is opened, the left glass sash 2 is overlapped with the glass plate 20 in the left window pane, the right glass sash 3 is overlapped with the glass plate 30 in the right window pane, and the mode of fixing at one side and moving at the other side is adopted, so that the combined sliding window has larger ventilation area, improves the lighting rate, does not occupy indoor and outdoor space when being opened, and is provided with the anti-track-jumping adhesive tape 4 on the first transverse window frame 11, thereby avoiding derailment in the sliding process of pushing the left glass sash 2 and the right glass sash 3, further improving the stability and safety of the combined sliding window, and the combined sliding window has the advantages of simple structure, reasonable design, large window width, wide visual field, high lighting rate, no space occupation, convenient use and the like.
In order to make the combined sliding window have better heat insulation performance, as shown in fig. 1 to 11, the first transverse window frame border 11, the second transverse window frame border 12, the left vertical mullion 13, the right vertical mullion 14 and 2 vertical window frame borders 15 and 16 respectively comprise an inner profile, an outer profile and a heat insulation strip connecting the inner profile and the outer profile together; the first groove 111 is formed in the outer profile 116 of the first horizontal sash frame 11, and the second groove 121 is formed in the outer profile 124 of the second horizontal sash frame 12. By adopting the bridge-cut-off structure, the transmission of high temperature outdoors to indoors can be hindered.
In order to prevent water accumulation in the combined sliding window and prevent rainwater from entering the indoor space during rainstorm, as shown in fig. 2, 6, 8, 9 and 11, the bottom of the second groove 121 of the second transverse window frame 12 is a water-removing surface inclined from inside to outside, a water baffle portion 125 is further formed along one groove edge of the second groove 121, and the water baffle portion 125 is located beside the inner side of the guide rail 122.
In order to increase the lighting rate of the combined sliding window, as shown in fig. 1, 2, 6 and 9, the combined sliding window further includes a third horizontal window frame 17, one end of the third horizontal window frame 17 is connected to the top end of one of the vertical window frame 15, and the other end of the third horizontal window frame 17 is connected to the top end of the other vertical window frame 16, so that the third horizontal window frame 17, the first horizontal window frame 11, and the 2 vertical window frame 15 and 16 are connected to form an upper window pane, and a glass plate 40 is installed in the upper window pane.
In order to improve the heat insulation effect of the combined sliding window, as shown in fig. 2, 6 and 9, the third transverse window frame 17 includes an inner profile, an outer profile and a heat insulation strip connecting the inner profile and the outer profile. By adopting the bridge-cut-off structure, the transmission of high temperature outdoors to indoors can be hindered.
In order to increase the lighting rate of the combined sliding window, as shown in fig. 1, 2, 6 and 9, the combined sliding window further includes a fourth horizontal window frame 18, one end of the fourth horizontal window frame 18 is connected to the bottom end of one of the vertical window frame frames 15, and the other end of the fourth horizontal window frame 18 is connected to the bottom end of the other vertical window frame 16, so that the fourth horizontal window frame 18, the second horizontal window frame 12, and the 2 vertical window frame frames 15 and 16 are connected to form a lower window pane, and a glass plate 50 is installed in the lower window pane.
In order to improve the heat insulation effect of the combined sliding window, as shown in fig. 2, 6 and 9, the fourth horizontal window frame 18 includes an inner profile, an outer profile and a heat insulation strip connecting the inner profile and the outer profile. By adopting the bridge-cut-off structure, the transmission of high temperature outdoors to indoors can be hindered.
In order to improve the sealing performance of the combined sliding window and further improve the sound insulation performance of the combined sliding window, as shown in fig. 1 to 11, the left glass window sash 2 and the right glass window sash 3 respectively comprise frames formed by upper horizontal window sash frames 24 and 34, lower horizontal window sash frames 25 and 35, left vertical window sash frames 26 and 36 and right vertical window sash frames 27 and 37, and glass plates 60 and 70 are respectively installed in the frames of the left glass window sash 2 and the right glass window sash 3; an outer left sealing mechanism 5 is installed between the left vertical window sash frame 26 of the left glass window sash 2 and the outer side surface of the left vertical mullion 13, the outer left sealing mechanism 5 comprises a first hooked rabbet 51 and a second hooked rabbet 52, the first hooked rabbet 51 is installed on the left vertical window sash frame 26 of the left glass window sash 2, a sealing strip 511 and a sealing strip 512 are installed on the first hooked rabbet 51, the second hooked rabbet 52 is installed on the left vertical mullion 13, a sealing strip 521 and a sealing strip 522 are also installed on the second hooked rabbet 52, and the sealing strip 521 on the second hooked rabbet 52 is opposite to the sealing strip 511 on the first hooked rabbet 51; install outer right sealing mechanism 6 between right vertical sash frame 37 of right side glass casement 3 and the lateral surface of right vertical mullion 14, outer right sealing mechanism 6 is including third hooked rabbet 61, fourth hooked rabbet 62, third hooked rabbet 61 is installed on right vertical sash frame 37 of right glass casement 3, installs sealing strip 611 and wool strip 612 on third hooked rabbet 61, fourth hooked rabbet 62 is installed on right vertical mullion 14, also installs sealing strip 621 and wool strip 622 on this fourth hooked rabbet 62, and sealing strip 621 on this fourth hooked rabbet 62 is relative setting with sealing strip 611 on the third hooked rabbet 61. In order to further improve the heat insulation performance of the combined sliding window, the upper horizontal sash frames 24, 34, the lower horizontal sash frames 25, 35, the left vertical sash frames 26, 36 and the right vertical sash frames 27, 37 of the left glass sash 2 and the right glass sash 3 are all formed by adopting a bridge-cut structure. Through the design that an outer left sealing mechanism 5 is arranged between the left vertical window sash frame 26 of the left glass window sash 2 and the outer side surface of the left vertical mullion 13, and an outer right sealing mechanism 6 is arranged between the right vertical window sash frame 37 of the right glass window sash 3 and the outer side surface of the right vertical mullion 14, when the left glass window sash 2 is in butt fit with the right glass window sash 3 to close the middle sash, the sealing strip 521 on the second hooked rabbet 52 is abutted against the sealing strip 511 on the first hooked rabbet 51 to seal the gap between the left vertical window sash frame 26 of the left glass window sash 2 and the left vertical mullion 13, and the second hooked rabbet 52 and the first hooked rabbet 51 can be prevented from being in hard collision, and meanwhile, the left glass window sash 2 and the left vertical mullion 13 can be relatively positioned; the sealing strip 611 on the third hooked rabbet 61 abuts against the sealing strip 621 on the fourth hooked rabbet 62 to seal a gap between the right vertical sash frame 37 of the right glass sash 3 and the right vertical mullion 14, so that the third hooked rabbet 61 and the fourth hooked rabbet 62 can be prevented from being in hard collision, and meanwhile, the right glass sash 3 and the right vertical mullion 14 can be relatively positioned; in addition, sealing structures are respectively arranged between the inner and outer side surfaces of the upper parts of the left glass window sash 2 and the right glass window sash 3 and the 2 groove wall surfaces of the first groove 111 of the first transverse window frame 11, and sealing structures are respectively arranged between the inner and outer side surfaces of the lower parts of the left glass window sash 2 and the right glass window sash 3 and the 2 groove wall surfaces of the second groove 121 of the second transverse window frame 12, so that after the left glass window sash 2 and the right glass window sash 3 are in butt joint fit to close the centering window sash, the outer wall surface of the centering window sash forms sealing with the left glass window sash 2 and the right glass window sash 3, and the combined sliding window has better sealing property; in addition, the wool tops arranged on the first hooked rabbet 51, the second hooked rabbet 52, the third hooked rabbet 61 and the fourth hooked rabbet 62 respectively play roles in shock absorption and sealing.
In order to make the combined sliding window more practical, mosquitoes and insects can be prevented from entering a room while ventilating, as shown in fig. 1, fig. 2, fig. 3, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10 and fig. 11, the combined sliding window further comprises a left screen sash 7 and a right screen sash 8; a screen upper rail 117 is formed on the inner section bar 115 of the first transverse frame side frame 11, and a screen lower rail 126 is formed on the inner section bar 123 of the second transverse frame side frame 12; the top surfaces of the left screen window sash 7 and the right screen window sash 8 are respectively provided with an upper pulley 71 and an upper pulley 81, the bottom surfaces of the left screen window sash 7 and the right screen window sash 8 are respectively provided with a lower pulley 72 and a lower pulley 82, the upper pulleys 71 and 81 on the left screen window sash 7 and the right screen window sash 8 are respectively and slidably arranged on a screen window upper rail 117 of the first transverse window frame 11, the lower pulleys 72 and 82 on the left screen window sash 7 and the right screen window sash 8 are respectively and slidably arranged on a screen window lower rail 126 of the second transverse window frame 12, so that the left screen window sash 7 and the right screen window sash 8 can slide between the first transverse window frame 11 and the second transverse window frame 12, and the left screen window sash 7 and the right screen window sash 8 are in butt joint to shield the screen window panes. In specific implementation, a locking mechanism is arranged between the left screen window sash 7 and the right screen window sash 8, so that the left screen window sash 7 and the right screen window sash 8 are locked, and the anti-theft purpose is achieved.
In order to improve the sealing performance of the combined sliding window and further improve the sound insulation performance of the combined sliding window, as shown in fig. 1 to 11, the left screen sash 7 and the right screen sash 8 respectively comprise frames composed of upper horizontal screen sash frames 73 and 83, lower horizontal screen sash frames 74 and 84, left vertical screen sash frames 75 and 85, and right vertical screen sash frames 76 and 86, and screens 77 and 87 are respectively installed in the frames of the left screen sash 7 and the right screen sash 8; an inner left sealing mechanism 9 is arranged between the left vertical screen sash frame 75 of the left screen window sash 7 and the inner side surface of the left vertical mullion 13, the inner left sealing mechanism 9 comprises a fifth hooked rabbet 91 and a sixth hooked rabbet 92, the fifth hooked rabbet 91 is arranged on the left vertical screen sash frame 75 of the left screen window sash 7, a sealing strip 911 and a sealing strip 912 are arranged on the fifth hooked rabbet 91, the sixth hooked rabbet 92 is arranged on the left vertical mullion 13, a sealing strip 921 and a sealing strip 922 are also arranged on the sixth hooked rabbet 92, and a sealing strip 921 on the sixth hooked rabbet 92 and a sealing strip 911 on the fifth hooked rabbet 91 are oppositely arranged; right sealing mechanism 10 in installing between right vertical screen sash frame 86 of right screen sash 8 and the medial surface of right vertical muntin 14, interior right sealing mechanism 10 is including seventh hooked rabbet 101, eighth hooked rabbet 102, seventh hooked rabbet 101 is installed on right vertical screen sash frame 86 of right screen sash 8, installs sealing strip 1011 and wool strip 1012 on seventh hooked rabbet 101, eighth hooked rabbet 102 is installed on right vertical muntin 14, also installs sealing strip 1021 and wool strip 1022 on this eighth hooked rabbet 102, and sealing strip 1021 on this eighth hooked rabbet 102 is relative setting with sealing strip 1011 on the seventh hooked rabbet 101. Through the design that an inner left sealing mechanism 9 is arranged between the left vertical screen sash frame 75 of the left screen window sash 7 and the inner side surface of the left vertical mullion 13, and an inner right sealing mechanism 10 is arranged between the right vertical screen sash frame 86 of the right screen window sash 8 and the inner side surface of the right vertical mullion 14, when the left screen window sash 7 is in butt joint fit with the right screen window sash 8 to shield the middle sash, the sealing strip 911 on the fifth hooked rabbet 91 is abutted against the sealing strip 921 on the sixth hooked rabbet 92 to seal the gap between the left vertical screen sash frame 75 of the left screen window sash 7 and the left vertical mullion 13, and hard collision between the fifth hooked rabbet 91 and the sixth hooked rabbet 92 can be avoided, and meanwhile, the left screen window sash 7 and the left vertical mullion 13 are relatively positioned; the sealing strip 1011 on the seventh hooked rabbet 101 abuts against the sealing strip 1021 on the eighth hooked rabbet 102 to seal a gap between the right vertical screen sash frame 86 of the right screen sash 8 and the right vertical mullion 14, so that the seventh hooked rabbet 101 and the eighth hooked rabbet 102 can be prevented from being in hard collision, and the right screen sash 8 and the right vertical mullion 14 can be relatively positioned; in addition, sealing structures are respectively arranged between the upper parts of the left screen window sash 7 and the right screen window sash 8 and the first transverse window frame 11, and sealing structures are respectively arranged between the lower parts of the left screen window sash 7 and the right screen window sash 8 and the second transverse window frame 12, so that after the left screen window sash 7 and the right screen window sash 8 are in butt joint matching and are used for shielding the centering window sash, the inner wall surface of the middle window sash forms sealing with the left screen window sash 7 and the right glass window sash 3, mosquitoes are prevented from entering from gaps among the inner wall surfaces of the left screen window sash 7, the right screen window sash 8 and the middle window sash, and the sealing performance of the combined sliding window is further improved; in addition, the wool tops arranged on the fifth hooked rabbet 91, the sixth hooked rabbet 92, the seventh hooked rabbet 101 and the eighth hooked rabbet 102 respectively play a role in shock absorption and sealing.
The above-mentioned embodiment is the preferred embodiment of the present invention, all with the similar structure of the present invention and the equivalent changes made all should belong to the protection category of the present invention.

Claims (10)

1. A combined sliding window comprises a first transverse window frame side frame, a second transverse window frame side frame, a left vertical mullion, a right vertical mullion and 2 vertical window frame side frames, wherein the first transverse window frame side frame, the second transverse window frame side frame and the 2 vertical window frame side frames are connected to form a frame body; glass plates are respectively arranged in the left window pane and the right window pane; the method is characterized in that: the anti-bouncing rail device also comprises a left glass window sash, a right glass window sash and an anti-bouncing rail adhesive tape;
a first groove is formed on the frame of the first transverse window frame, 2 guide rail plate parts are integrally formed in the first groove, and an installation groove is formed in the first groove and is positioned beside the inner sides of the 2 guide rail plate parts;
the anti-rail-jumping adhesive tape is arranged in the mounting groove in a penetrating manner;
a second groove is formed on the frame of the second transverse window frame, the second groove and the first groove are oppositely arranged, and a guide rail bar is formed in the second groove;
2 side plate parts are respectively formed on the top of each of the left glass window sash and the right glass window sash, and a mounting concave position is formed between the 2 side plate parts; the upper wheels are respectively arranged in the mounting concave positions of the left glass window sash and the right glass window sash, and the lower wheels are respectively arranged at the bottoms of the left glass window sash and the right glass window sash;
the top parts of the left glass window sash and the right glass window sash are respectively embedded into first grooves on the first transverse window frame, 2 guide rail plate parts of the first transverse window frame are inserted into a mounting concave position of the left glass window sash and a mounting concave position of the right glass window sash, upper wheels on the left glass window sash and the right glass window sash are respectively and slidably mounted between the 2 guide rail plate parts, top edges of one side plate parts of the left glass window sash and the right glass window sash are respectively abutted against a track jump prevention adhesive tape, lower wheels on the left glass window sash and the right glass window sash are respectively and slidably mounted on a guide rail plate of the second transverse window frame, so that the left glass window sash and the right glass window sash can slide between the first transverse window frame and the second transverse window frame, and the left glass window sash and the right glass window sash are in butt joint fit to close the window frames.
2. A combined sliding window according to claim 1, characterised in that: the first transverse window frame side frame, the second transverse window frame side frame, the left vertical mullion, the right vertical mullion and the 2 vertical window frame side frames respectively comprise an inner section, an outer section and a heat insulation strip for connecting the inner section and the outer section together; the first groove is formed on the outer section bar of the first transverse window frame side frame, and the second groove is formed on the outer section bar of the second transverse window frame side frame.
3. A combined sliding window according to claim 1 or 2, characterised in that: the groove bottom of the second groove of the second transverse window frame is a water removing surface which is inclined downwards from inside to outside, a water baffle plate part is further formed along one groove edge of the second groove, and the water baffle plate part is positioned beside the inner side of the guide rail bar.
4. A combined sliding window according to claim 1, characterised in that: the glass window frame is characterized by further comprising a third transverse window frame, one end of the third transverse window frame is connected with the top end of one of the vertical window frame frames, the other end of the third transverse window frame is connected with the top end of the other vertical window frame, so that the third transverse window frame, the first transverse window frame and the 2 vertical window frame frames are connected to form an upper window pane, and a glass plate is installed in the upper window pane.
5. A combined sliding window according to claim 4, characterised in that: the third horizontal window frame comprises an inner section, an outer section and a heat insulation strip which connects the inner section and the outer section together.
6. A combined sliding window according to claim 1 or 4 or 5, characterised in that: the glass window frame is characterized by further comprising a fourth transverse window frame, one end of the fourth transverse window frame is connected with the bottom end of one of the vertical window frame frames, the other end of the fourth transverse window frame is connected with the bottom end of the other vertical window frame, so that the fourth transverse window frame, the second transverse window frame and the 2 vertical window frame frames are connected to form a lower window pane, and a glass plate is installed in the lower window pane.
7. A combined sliding window according to claim 6, characterised in that: the fourth horizontal window frame comprises an inner section, an outer section and a heat insulation strip which connects the inner section and the outer section together.
8. A combined sliding window according to claim 1, characterised in that: the left glass window sash and the right glass window sash respectively comprise frames consisting of an upper transverse window sash frame, a lower transverse window sash frame, a left vertical window sash frame and a right vertical window sash frame, and glass plates are respectively arranged in the frames of the left glass window sash and the right glass window sash; an outer left sealing mechanism is arranged between the left vertical sash frame of the left glass sash and the outer side surface of the left vertical mullion and comprises a first hooked rabbet and a second hooked rabbet, the first hooked rabbet is arranged on the left vertical sash frame of the left glass sash, a sealing strip and a wool top are arranged on the first hooked rabbet, the second hooked rabbet is arranged on the left vertical mullion, a sealing strip and a wool top are also arranged on the second hooked rabbet, and the sealing strip on the second hooked rabbet is opposite to the sealing strip on the first hooked rabbet; install outer right sealing mechanism between the lateral surface of right vertical window sash frame and right vertical muntin of right side glass casement, outer right sealing mechanism is including third hooked rabbet, fourth hooked rabbet, the third hooked rabbet is installed on the right vertical window sash frame of right glass casement, installs sealing strip and wool top on the third hooked rabbet, the fourth hooked rabbet is installed on right vertical muntin, also installs sealing strip and wool top on this fourth hooked rabbet, and the sealing strip on this fourth hooked rabbet is relative setting with the sealing strip on the third hooked rabbet.
9. A combined sliding window according to claim 2, characterised in that: the window screen also comprises a left screen window sash and a right screen window sash; the inner section of the first transverse window frame is provided with a screen window upper rail, and the inner section of the second transverse window frame is provided with a screen window lower rail; the top surfaces of the left screen window sash and the right screen window sash are respectively provided with an upper pulley, the bottom surfaces of the left screen window sash and the right screen window sash are respectively provided with a lower pulley, the upper pulleys of the left screen window sash and the right screen window sash are respectively and slidably arranged on the upper screen window rail of the first transverse window frame, the lower pulleys of the left screen window sash and the right screen window sash are respectively and slidably arranged on the lower screen window rail of the second transverse window frame, so that the left screen window sash and the right screen window sash can slide between the first transverse window frame and the second transverse window frame, and the left screen window sash and the right screen window sash are in butt joint to shield the centering window frame.
10. A combined sliding window according to claim 9, characterised in that: the left screen window sash and the right screen window sash respectively comprise frames consisting of an upper transverse screen window sash frame, a lower transverse screen window sash frame, a left vertical screen window sash frame and a right vertical screen window sash frame, and screen meshes are respectively installed in the frames of the left screen window sash and the right screen window sash; an inner left sealing mechanism is arranged between the left vertical screen sash frame of the left screen window sash and the inner side surface of the left vertical mullion, the inner left sealing mechanism comprises a fifth hooked rabbet and a sixth hooked rabbet, the fifth hooked rabbet is arranged on the left vertical screen sash frame of the left screen window sash, a sealing strip and a wool top are arranged on the fifth hooked rabbet, the sixth hooked rabbet is arranged on the left vertical mullion, a sealing strip and a wool top are also arranged on the sixth hooked rabbet, and the sealing strip on the sixth hooked rabbet is opposite to the sealing strip on the fifth hooked rabbet; right sealing mechanism in installing between the medial surface of right vertical screen sash frame and the right vertical muntin of right side screen window fan, interior right sealing mechanism is including seventh hooked rabbet, eighth hooked rabbet, seventh hooked rabbet is installed on the right vertical screen sash frame of right screen window fan, installs sealing strip and wool felt on seventh hooked rabbet, eighth hooked rabbet is installed on right vertical muntin, also installs sealing strip and wool felt on this eighth hooked rabbet, and the sealing strip on this eighth hooked rabbet is relative setting with the sealing strip on the seventh hooked rabbet.
CN201920897671.0U 2019-06-14 2019-06-14 Combined sliding window Active CN210598667U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201920897671.0U CN210598667U (en) 2019-06-14 2019-06-14 Combined sliding window

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201920897671.0U CN210598667U (en) 2019-06-14 2019-06-14 Combined sliding window

Publications (1)

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CN210598667U true CN210598667U (en) 2020-05-22

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Family Applications (1)

Application Number Title Priority Date Filing Date
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Country Link
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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112854960A (en) * 2021-01-13 2021-05-28 广西英幕门窗有限公司 Sliding window
WO2022021556A1 (en) * 2020-07-27 2022-02-03 惠州美辉眼镜制品有限公司 Window

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2022021556A1 (en) * 2020-07-27 2022-02-03 惠州美辉眼镜制品有限公司 Window
CN112854960A (en) * 2021-01-13 2021-05-28 广西英幕门窗有限公司 Sliding window

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Effective date of registration: 20200706

Address after: 528200 Liannan Society Factory Building, Songgangtang Town, Shishan Town, Nanhai District, Foshan City, Guangdong Province, No. 4

Patentee after: Foshan Boshi Doors and Windows Co.,Ltd.

Address before: 528200 Boshi doors and windows, Dongfeng Road, SIASUN Songgang Industrial Park, Shihan Town, Nanhai District, Foshan, Guangdong, China, 6

Patentee before: Wang Xianggen