CN217538398U - High-performance bridge-cut-off sliding window - Google Patents

Abstract

The utility model discloses a high-performance bridge cut-off sliding window, which comprises an upper slide, an upper cross member, a window sash, a lower cross member and a lower slide, wherein the upper slide is connected with the lower slide through a frame, and both sides of the window sash are respectively provided with a smooth rabbet and a hooked rabbet; a transverse feeding material is arranged a first adhesive tape is embedded on the lower transverse material and the smooth rabbet; second adhesive tapes are respectively embedded on the upper slide, the lower slide and the hooked rabbet; the frame, the upper slide and the lower slide form a window frame broken bridge, the upper cross beam, the window sash and the lower cross beam form a window sash broken bridge, and the window frame broken bridge, the window sash broken bridge and the hooked rabbet are all made of composite materials of profiles and heat insulation strips. The sliding window is sealed by the rubber strips, and the first rubber strip and the second rubber strip are mutually matched to form two seals, so that the air tightness, the water tightness and the sound insulation are improved. Meanwhile, a window frame broken bridge and a window sash broken bridge are formed, the installation area of the heat insulation strips is increased, so that the heat insulation strips with larger width can be used conveniently, the heat insulation strips are compounded with the sectional materials, the width of the used heat insulation strips is further increased, and the heat insulation performance is extremely good.

Description

High-performance bridge-cut-off sliding window

Technical Field

The utility model belongs to the technical field of the austral window, sliding sash, concretely relates to high performance bridge cut-off austral window, sliding sash.

Background

The sliding window adopts the track of the window sash provided with the pulley on the window frame to slide, and has the advantages that no matter the sliding window is in an opening and closing state, no extra space is occupied, and the structure is simpler.

The bridge-cut-off sliding window is a sliding window comprising a heat-insulating bridge-cut-off section bar, the existing bridge-cut-off sliding window is mostly sealed in a sealing mode of a wool top, the door and window sealing wool top is a strip-shaped structure which is formed by a bottom plate made of polypropylene serving as a raw material, silicified polypropylene fibers and polypropylene films and is commonly used for plastic doors and windows, aluminum alloy doors and windows, stainless steel doors and windows, glass fiber reinforced plastic doors and windows, vehicles, furniture industry and electrical appliance industry.

But the sealing performance is poor when the sealing device is used for sealing the bridge-cut-off sliding window, so that the air tightness, the water tightness, the sound insulation and the like of the bridge-cut-off sliding window are greatly limited, and the good performance requirements cannot be met.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a high performance bridge cut-off austral window, sliding sash has solved current bridge cut-off austral window, sliding sash and has adopted the wool top to seal and lead to the poor problem of sealing performance.

In order to achieve the above-mentioned objects, the utility model adopts the following technical scheme:

a high-performance bridge cut-off sliding window comprises an upper slide, an upper cross member, window sashes, a lower cross member and a lower slide which are sequentially arranged from top to bottom, wherein two ends of the upper slide are respectively connected with a frame, the upper slide is connected with the lower slide through the frame, two sides of each window sash are respectively provided with a smooth rabbet and a hooked rabbet, at least two window sashes are arranged, and adjacent window sashes are clamped through respective hooked rabbet to limit;

a plurality of first notches are respectively formed in the upper transverse material, the lower transverse material and the smooth rabbet, and first adhesive tapes are embedded in the first notches; a plurality of second notches are respectively arranged on the upper sliding part, the lower sliding part and the hooked rabbet, and second adhesive tapes are embedded in the second notches; the first adhesive tape is arranged on the outdoor side of the window sash, the second adhesive tape is arranged on the indoor side of the window sash, and the first adhesive tape and the second adhesive tape are arranged around the window sash;

the frame, the upper slide and the lower slide form a window frame broken bridge, the upper cross beam, the window sash and the lower cross beam form a window sash broken bridge, and the window frame broken bridge, the window sash broken bridge and the hooked rabbet are all made of composite materials of profiles and heat insulation strips.

In one possible embodiment, the heat insulation strips are pressed onto the surface of the profile by a rolling process.

In one possible design, the upper slide is provided with an upper slide insert and divides the upper slide into at least two upper slideways by the upper slide insert, the lower slide is provided with a lower slide insert and divides the lower slide into at least two lower slideways by the lower slide insert, the upper slideways and the lower slideways are arranged in one-to-one correspondence, and the corresponding upper slideways and the lower slideways form slideways which are adaptive to the window sashes.

In one possible design, the top surface of the upper sliding plug-in is clamped on the upper sliding, the bottom surface of the upper sliding plug-in is provided with at least two downward extending lower bulges, and the upper transverse material is provided with at least two downward extending lower bulges which are arranged in one-to-one correspondence with the lower bulges; the upper end of the upper transverse material is connected with the lower bulge in a clamping mode through the first adhesive tape or the second adhesive tape, and the lower end of the upper transverse material is connected with the window sash in a sliding mode.

In one possible design, the bottom surface of the lower sliding plug-in is clamped on the lower sliding, the top surface of the lower sliding plug-in is provided with at least two upper bulges extending upwards, and the lower transverse material is provided with at least two upper bulges which are arranged in one-to-one correspondence with the upper bulges; the upper end and the casement joint of lower horizontal material, the lower extreme of lower horizontal material passes through pulley and last protruding sliding connection, and the both sides of pulley are equipped with first adhesive tape or second adhesive tape respectively.

In one possible design, a locking system is arranged on the frame, and a panel lock matched with the locking system is arranged on the smooth rabbet.

In a possible design, first adhesive tape or second adhesive tape still inlay the lap-joint of establishing at frame and casement, wherein, are equipped with first adhesive tape towards the lap-joint of outdoor side, are equipped with the second adhesive tape towards the lap-joint of indoor side.

In one possible design, the hooked rabbet heat insulation strips facing the adjacent window sashes are arranged on the hooked rabbet, and when the adjacent window sashes are clamped and connected through the hooked rabbet, the hooked rabbet heat insulation strip on one hooked rabbet is abutted against the other hooked rabbet.

In one possible design, the sash comprises two glasses arranged parallel to each other.

Has the advantages that:

the high-performance bridge-cut-off sliding window is sealed by the rubber strips, two seals are formed on two sides of the window sash through the mutual matching of the first rubber strip and the second rubber strip, the sealing performance is improved, and media such as air, water, sound and the like are difficult to penetrate through, so that the air tightness, the water tightness and the sound insulation are improved.

Meanwhile, a window frame broken bridge and a window sash broken bridge are formed, so that on one hand, the installation area of the heat insulation strips is increased, the heat insulation strips with larger width can be used conveniently, and the heat insulation performance is improved; on the other hand, the heat insulation strips and the sectional materials are compounded to be integrally formed, so that the area for laying the heat insulation strips is further increased, the width of the used heat insulation strips is further increased, and the heat insulation performance is extremely good.

Drawings

Fig. 1 is a schematic structural diagram of a high-performance bridge cut-off sliding window.

Fig. 2 isbase:Sub>A schematic sectional view of the sectionbase:Sub>A-base:Sub>A in fig. 1.

FIG. 3 is a cross section B-B of FIG. 1 schematic cross-sectional structure of (a).

In the figure:

1. sliding upwards; 2. feeding a transverse material; 3. a window sash; 4. feeding a horizontal material; 5. a first adhesive tape; 6. sliding downwards; 7. an upper slide insert; 8. a heat insulating strip; 9. glass cement; 10. a pulley; 11. a second adhesive tape; 12. a gliding insert; 13. a frame; 14. a locking system; 15. a smooth rabbet; 16. a hooked rabbet; 17. a hooked rabbet heat insulation strip; 18. a panel lock.

Detailed Description

Example (b):

the performance indexes of the sliding window can be measured by air tightness, water tightness, sound insulation and heat preservation and insulation performance, and the existing sliding window is sealed by wool tops to cause poor air tightness, water tightness and sound insulation; for the heat preservation and heat insulation performance, the existing sliding window adopts a heat insulation strip with smaller width due to the structural limitation, and the heat preservation and heat insulation performance can not reach the expected effect.

Aiming at the problems of the existing sliding window, a high-performance bridge-cut-off sliding window is provided, as shown in fig. 1-3, the high-performance bridge-cut-off sliding window comprises an upper sliding rail 1, an upper cross member 2, window sashes 3, a lower cross member and a lower sliding rail 6 which are sequentially arranged from top to bottom, wherein two ends of the upper sliding rail 1 are respectively connected with a frame 13, the upper sliding rail 1 is connected with the lower sliding rail 6 through the frame 13, two sides of each window sash 3 are respectively provided with a smooth rabbet 15 and a hooked rabbet 16, the window sashes 3 are at least provided with two window sashes, and adjacent window sashes 3 are clamped through respective hooked rabbet 16 to limit.

A plurality of first notches are respectively arranged on the upper transverse material 2, the lower transverse material 4 and the smooth rabbet 15, and first adhesive tapes 5 are embedded in the first notches; a plurality of second notches are respectively arranged on the upper slide 1, the lower slide 6 and the hooked rabbet 16, and second adhesive tapes 11 are embedded in the second notches; first adhesive tape 5 sets up at 3 outdoor sides of orientation of casement, and second adhesive tape 11 sets up at 3 indoor sides of orientation of casement, and just first adhesive tape 5 and 11 all encircle casement 3 settings.

The frame 13, the upper slide 1 and the lower slide 6 form a window frame broken bridge, the upper cross material 2, the window sash 3 and the lower cross beam form a window sash 3 broken bridge, and the window frame broken bridge, the window sash 3 broken bridge and the hooked rabbet 16 are all made of composite materials of section bars and heat insulation strips 8.

The improvement of the high-performance bridge-cut-off sliding window is as follows:

a pair of sealing structures of the window sash are improved, namely the sealing structures are changed into adhesive tape sealing, and meanwhile, the first adhesive tape 5 and the second adhesive tape 11 are mutually matched to form two seals on two sides of the window sash 3, so that the sealing performance is improved, and media such as air, water, sound and the like are difficult to penetrate through, so that the air tightness, the water tightness and the sound insulation are improved.

The two pairs of structures are improved, namely a window frame broken bridge and a window sash 3 broken bridge are formed, on one hand, the installation area of the heat insulation strips 8 is increased, so that the heat insulation strips 8 with larger width can be used conveniently, and the heat insulation performance is improved; on the other hand, the heat insulation strips 8 and the sectional materials are compounded to be integrally formed, so that the area for distributing the heat insulation strips 8 is further increased, the width of the used heat insulation strips 8 is further increased, and the heat insulation performance is extremely good.

Preferably, the insulating strips 8 are pressed onto the surface of the profile by a rolling process. Therefore, the composite material of the section bar and the heat insulation strip 8 is formed, the manufacturing difficulty and the manufacturing cost are reduced, and a balance point is found between the process and the cost.

In this embodiment, the upper slide 1 is provided with an upper slide insert 7 and divides the upper slide 1 into at least two upper slideways by the upper slide insert 7, the lower slide 6 is provided with a lower slide insert 12 and divides the lower slide 6 into at least two lower slideways by the lower slide insert 12, the upper slideways and the lower slideways are arranged in a one-to-one correspondence manner, and the corresponding upper slideways and the lower slideways form a slideway adapted to the window sash 3.

Based on this, the window sashes 3 are arranged in the slide ways in a sliding manner, and two or more window sashes 3 are arranged in the high-performance bridge-cut-off sliding window, specifically, under a general condition, as shown in fig. 1 to fig. 3, two slide ways and two window sashes 3 are arranged, or more slide ways and more window sashes 3 can be arranged according to actual use requirements.

The structure of the upper slide insert 7 includes, but is not limited to: the top surface of the upper sliding plug-in 7 is clamped on the upper sliding 1, the bottom surface of the upper sliding plug-in 7 is provided with at least two downward extending lower bulges, and the upper transverse material 2 is provided with at least two downward extending lower bulges which are arranged in one-to-one correspondence with the lower bulges; the upper end of the upper transverse material 2 is connected with the lower bulge in a clamping manner through a first adhesive tape 5 or a second adhesive tape 11, and the lower end of the upper transverse material 2 is connected with the window sash 3 in a sliding manner.

The configuration of the glide insert 12 includes, but is not limited to: the bottom surface of the lower sliding plug-in 12 is clamped on the lower sliding 6, the top surface of the lower sliding plug-in 12 is provided with at least two upper bulges extending upwards, and the lower transverse material 4 is provided with at least two upper bulges which are arranged in one-to-one correspondence with the upper bulges; the upper end of the lower transverse material 4 is clamped with the window sash 3, the lower end of the lower transverse material 4 is connected with the upper bulge in a sliding mode through a pulley 10, and a first adhesive tape 5 or a second adhesive tape 11 are arranged on two sides of the pulley 10 respectively.

The upper and lower slide inserts 7, 12 cooperate with each other, as will be explained herein: the greatest difference is in the deployed position, i.e. the upper sliding insert 7 is located above the lower sliding insert 12. But mutually support in the function, both formed spacingly to casement 3, ensured that casement 3 is in on the predetermined mounted position, led to the slip of casement 3 again to reduce wearing and tearing, improve the smoothness nature of push-and-pull.

Based on reducing wearing and tearing and push-and-pull smoothness nature, set up pulley 10 on horizontal material 4 down, changed the slip into the roll, further reduce coefficient of friction and wearing and tearing, improve life, promote the push-and-pull smoothness nature.

In addition, the upper protrusions and the corresponding lower protrusions form a limiting group, the limiting group limits the window sashes 3, and accordingly, the number of the window sashes 3 can be increased by increasing the number of the limiting group. Based on the design, the width of the slide way is reduced, and occupied space can be reduced when a plurality of window sashes 3 are arranged.

In this embodiment, a locking system 14 is provided on the frame 13, and a panel lock 18 adapted to the locking system 14 is provided on the smooth rabbet 15. In this way, the upper slide 1, the border 13 and the lower slide 6 cooperate to form a frame structure adapted to the sash 3; meanwhile, the locking system 14 and the panel lock 18 are mutually matched to fixedly connect the window sash 3 with the frame 13 so as to fix the position of the window sash 3, and as is easy to understand, the locking system 14 and the panel lock 18 are respectively selected from any suitable commercially available model.

Preferably, the first adhesive tape 5 or the second adhesive tape 11 is further embedded in the lap joint of the frame 13 and the sash 3, wherein the lap joint facing the outdoor side is provided with the first adhesive tape 5, and the lap joint facing the indoor side is provided with the second adhesive tape 11. Based on the design, the first adhesive tape 5 and the second adhesive tape 11 surrounding the window sash 3 are arranged in the circumferential direction of the window sash 3, so that the air tightness, the water tightness, the sound insulation and the like of the whole window are greatly improved.

The sliding window is at least provided with two window sashes 3, when the window sashes 3 are pulled open to lock the window, the adjacent window sashes 3 are clamped and limited through the hooked rabbet 16, a certain gap is formed at the hooked rabbet 16, the gap influences the overall performance of the sliding window, particularly the heat insulation performance, therefore, in the embodiment, the hooked rabbet heat insulation strip 17 facing the adjacent window sashes 3 is arranged on the hooked rabbet 16, and when the adjacent window sashes 3 are clamped and connected through the hooked rabbet 16, the hooked rabbet heat insulation strip 17 on one hooked rabbet 16 is abutted to the other hooked rabbet 16.

Based on this, when adjacent hooked rabbet 16 joint, the outside of hooked rabbet heat insulating strip 17 receives the extrusion of opposite side hooked rabbet 16 and warp, blocks the intercommunication of above-mentioned gap and external world, plays sealed effect, improves gas tightness, water proofness and sound insulation. Meanwhile, the hooked rabbet heat insulation strip 17 has heat insulation performance, and heat insulation at the hooked rabbet 16 is guaranteed. In addition, two adjacent hooked rabbet 16 are respectively provided with a hooked rabbet heat insulation strip 17, and the two hooked rabbet heat insulation strips 17 are parallel to each other and form two seals, so that the performance is further improved.

In a possible implementation, the sash 3 comprises two glasses arranged parallel to each other. Based on the above design, a cavity is formed between the two glasses, the cavity helps to improve the performance of the window sash 3, and the volume and weight of the window sash 3 are kept within a proper range without causing excessive increase in the thickness of the window sash 3. Meanwhile, the two sides of the glass are the smooth rabbet 15 or the hooked rabbet 16 which are connected through the glass cement 9.

Finally, it should be noted that: the above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. A high-performance bridge-cut-off sliding window is characterized by comprising an upper slide (1), an upper cross material (2), window sashes (3), a lower cross beam and a lower slide (6) which are sequentially arranged from top to bottom, wherein two ends of the upper slide (1) are respectively connected with a frame (13), the upper slide (1) is connected with the lower slide (6) through the frame (13), two sides of each window sash (3) are respectively provided with a smooth rabbet (15) and a hooked rabbet (16), at least two window sashes (3) are arranged, and adjacent window sashes (3) are clamped through respective hooked rabbet (16) to limit;

a plurality of first notches are respectively arranged on the upper transverse material (2), the lower transverse material (4) and the smooth rabbet (15), and first adhesive tapes (5) are embedded in the first notches; a plurality of second notches are respectively arranged on the upper slide (1), the lower slide (6) and the hooked rabbet (16), and second adhesive tapes (11) are embedded in the second notches; the first adhesive tape (5) is arranged on the outdoor side of the window sash (3), the second adhesive tape (11) is arranged on the indoor side of the window sash (3), and the first adhesive tape (5) and the second adhesive tape (11) are arranged around the window sash (3);

the frame (13), the upper slide (1) and the lower slide (6) form a window frame broken bridge, the upper cross material (2), the window sash (3) and the lower cross beam form a window sash (3) broken bridge, and the window frame broken bridge, the window sash (3) broken bridge and the hooked rabbet (16) are all made of section bars and heat insulation strips (8) composite materials.

2. High performance sliding sash according to claim 1, characterised in that the insulating strips (8) are pressed onto the surface of the profiles by a rolling process.

3. The high performance sliding sash with broken bridge according to claim 1, characterized in that the upper slide (1) is provided with an upper slide insert (7) and divides at least two upper slideways on the upper slide (1) by the upper slide insert (7), the lower slide (6) is provided with a lower slide insert (12) and divides at least two lower slideways on the lower slide (6) by the lower slide insert (12), the upper slideways and the lower slideways are arranged in one-to-one correspondence, and the corresponding upper slideways and the lower slideways form a slideway adapted to the sash (3).

4. The high-performance bridge-cut-off sliding window according to claim 3, characterized in that the top surface of the upper sliding plug-in (7) is clamped on the upper sliding (1), the bottom surface of the upper sliding plug-in (7) is provided with at least two downward protrusions extending downwards, the upper cross-piece (2) is provided with at least two protrusions corresponding to the downward protrusions one by one; the upper end of the upper transverse material (2) is clamped with the lower bulge through a first adhesive tape (5) or a second adhesive tape (11), and the lower end of the upper transverse material (2) is connected with the window sash (3) in a sliding manner.

5. The high-performance bridge-cut-off sliding window according to claim 3, characterized in that the bottom surface of the lower sliding insert (12) is clamped on the lower sliding (6), the top surface of the lower sliding insert (12) is provided with at least two upper protrusions extending upwards, and the lower cross member (4) is provided with at least two upper protrusions corresponding to the upper protrusions one to one; the upper end of the lower transverse material (4) is clamped with the window sash (3), the lower end of the lower transverse material (4) is connected with the upper bulge in a sliding mode through a pulley (10), and a first adhesive tape (5) or a second adhesive tape (11) are arranged on two sides of the pulley (10) respectively.

6. The high-performance bridge-cut-off sliding window according to claim 1, characterized in that the frame (13) is provided with a locking system (14), and the smooth rabbet (15) is provided with a panel lock (18) adapted to the locking system (14).

7. The high-performance bridge cut-off sliding window according to claim 6, characterized in that the first rubber strip (5) or the second rubber strip (11) is embedded at the joint of the frame (13) and the window sash (3), wherein the first rubber strip (5) is arranged at the joint facing the outdoor side, and the second rubber strip (11) is arranged at the joint facing the indoor side.

8. The high-performance bridge cut-off sliding window according to claim 1, characterized in that the hooked rabbet (16) is provided with a hooked rabbet heat insulation strip (17) facing the adjacent window sash (3), when the adjacent window sash (3) is clamped by the hooked rabbet (16), the hooked rabbet heat insulation strip (17) on one hooked rabbet (16) is abutted against the other hooked rabbet (16).

9. High performance sliding sash according to claim 1, characterized in that the sash (3) comprises two glasses arranged parallel to each other.

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