CN216446771U - Fully-sealed low-heat-transfer sliding door system - Google Patents

Abstract

The utility model discloses a fully-sealed low-heat-transfer sliding door system, relates to the technical field of doors and windows, and solves the problems that a sliding door in the prior art is poor in sealing performance and high in heat transfer coefficient due to the fact that wool tops are adopted. The utility model comprises a push-pull frame, a first sash section bar and a second sash section bar, wherein the first sash section bar and the second sash section bar are connected in the push-pull frame in a sliding manner; the first sash section bar and the second sash section bar respectively comprise a hooked rabbet, a seal strip and a cover plate are arranged on the hooked rabbet, a hooked rabbet sealing rubber strip is arranged on the seal strip, one side of the hooked rabbet is connected with the cover plate, and an L-shaped heat insulation strip matched with the seal strip is arranged on the other side of the hooked rabbet. The utility model realizes multi-sealing design through the sealing rubber strip, and effectively improves the air tightness and the water tightness. The L-shaped heat insulation strips are arranged, so that the heat transfer coefficient is effectively reduced. The transverse frame and the light opener both use the same section bar, so that the manufacturing difficulty and the manufacturing cost are reduced.

Description

Fully-sealed low-heat-transfer sliding door system

Technical Field

The utility model relates to the technical field of doors and windows, in particular to a fully-sealed low-heat-transfer sliding door system.

Background

At present, in most sliding doors and windows, two-rail sliding doors and three-rail sliding doors and windows occupy more space, while the two-rail sliding doors and windows and the three-rail sliding doors and windows all adopt a plurality of door and window leaves to perform plane sliding operation on different door and window tracks, and a hooked rabbet is arranged at the position where the door and window leaves coincide with each other to realize sealing, but in order to ensure that the plane sliding operation of the door and window leaves is smooth and free from mutual friction, a certain gap is inevitably left between the coincidence of the door and window leaves, and the gap can reduce the air tightness, the water tightness and the air sound insulation of the sliding doors and windows. Sliding doors in the existing market are basically sealed by wool tops, the water tightness and the air tightness are low, the heat transfer coefficient is high, most users select vertical hinged doors, sliding doors or lifting sliding doors with good water tightness and air tightness in order to meet daily needs, but the vertical hinged doors occupy indoor use space, and the manufacturing cost of the sliding doors and the lifting sliding doors is high.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model provides a full-sealing low-heat-transfer sliding door system, which solves the problems of poor sealing performance and high heat transfer coefficient of a sliding door adopting wool tops in the prior art.

The technical scheme of the utility model is realized as follows: a full-sealed low-heat-transfer sliding door system comprises a sliding frame, a first fan-shaped section and a second fan-shaped section, wherein the first fan-shaped section and the second fan-shaped section are both connected in the sliding frame in a sliding mode, and sealing heat insulation assemblies are arranged at the joints of the first fan-shaped section and the sliding frame and the joints of the second fan-shaped section and the sliding frame; the first sash section bar and the second sash section bar respectively comprise a hooked rabbet, the hooked rabbet on the first sash section bar is matched with the hooked rabbet of the second sash section bar in a closed state, a seal and a cover plate are arranged on the hooked rabbet, a hooked rabbet sealing rubber strip is arranged on the seal, one side of the hooked rabbet is connected with the cover plate, and an L-shaped heat insulation strip matched with the seal is arranged on the other side of the hooked rabbet.

Preferably, the L-shaped heat insulation strip comprises a first hooked rabbet heat insulation strip and a second hooked rabbet heat insulation strip, the second hooked rabbet heat insulation strip is arranged on one side connected with the seal strip, and the second hooked rabbet heat insulation strip is connected in the hooked rabbet and is perpendicular to the first hooked rabbet heat insulation strip.

Preferably, the seal is connected to one side of the hooked rabbet close to the cover plate, the seal is a PVC seal, and a filler is arranged inside the PVC seal.

Preferably, the hooked rabbet sealing rubber strip comprises a first hooked rabbet sealing rubber strip and a second hooked rabbet sealing rubber strip, when the first sash section and the second sash section are in a closed state, the first hooked rabbet sealing rubber strip and the second hooked rabbet sealing rubber strip on the first sash section are matched with a hooked rabbet on the second sash section, and the first hooked rabbet sealing rubber strip and the second hooked rabbet sealing rubber strip on the second sash section are matched with a hooked rabbet on the first sash section.

Preferably, the sealing and heat insulating assembly comprises a sash frame heat insulating strip and a sash frame sealing rubber strip, the sash frame heat insulating strip is connected to the inside of the first sash section bar and the inside of the second sash section bar, and the sash frame sealing rubber strip is connected to the sash frame heat insulating strip and matched with the push-pull frame.

Preferably, the push-pull frame comprises a frame heat insulation strip, an edge seal and a transverse frame, the frame heat insulation strip is arranged on the edge seal and matched with the sash frame heat insulation strip, and a transverse frame sealing rubber strip matched with the first sash section bar and the second sash section bar is arranged in the middle of the transverse frame; and a frame sealing rubber strip matched with the first sash section bar and the second sash section bar when the first sash section bar and the second sash section bar are closed is arranged in the middle of the edge seal.

Preferably, the first sash section bar and the second sash section bar both further comprise a smooth rabbet and a sash frame which is transversely arranged, the smooth rabbet and the hooked rabbet are connected into a frame structure through the sash frame, and glass is connected in the frame structure.

Preferably, the fan frame is provided with a hardware connecting piece, and the hardware connecting piece is arranged in parallel with the sealing heat insulation assembly and is matched with the push-pull frame.

The utility model has the beneficial effects that: the utility model realizes multi-sealing design through the sealing rubber strip, and effectively improves the air tightness and the water tightness. And the sealing is realized by adopting the rubber strip, and the air tightness and the water tightness are better than those of the traditional wool top sealing design. The L-shaped heat insulation strips are arranged, so that the heat transfer coefficient is effectively reduced. The transverse frame and the light starter both use the same section bar, so that the manufacturing difficulty and the manufacturing cost are reduced.

Drawings

In order to illustrate the embodiments of the utility model more clearly, the drawings that are needed in the description of the embodiments will be briefly described below, it being apparent that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be derived from those drawings by a person skilled in the art without inventive effort.

FIG. 1 is a schematic view of a hooked rabbet structure of the present invention;

FIG. 2 is a schematic view of the connection structure of the smooth rabbet and the edge seal of the utility model;

fig. 3 is a schematic view of the combination of the fan frame and the horizontal frame of the present invention.

In the figure: 1. a hooked rabbet; 2. a seal; 3. a first hooked rabbet heat insulation strip; 4. a second hooked rabbet heat insulation strip; 5. a hooked rabbet sealing rubber strip; 6. edge sealing; 7. a frame heat insulation strip; 8. a fan frame sealing rubber strip; 9. a fan frame heat insulation strip; 10. a frame sealing rubber strip; 11. a smooth rabbet; 12. a transverse frame; 13. hardware connecting pieces; 14. a fan frame; 15. a transverse frame sealing rubber strip; 16. a cover plate; 17. a first fan section; 18. a second fan section; 19. and (3) glass.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without inventive effort based on the embodiments of the present invention, are within the scope of the present invention.

As shown in fig. 1, in embodiment 1, a fully-sealed low-heat-transfer sliding door system includes a sliding frame, and further includes a first sector material 17 and a second sector material 18, where the first sector material 17 and the second sector material 18 are both slidably connected in the sliding frame, and a sealing and heat-insulating assembly is disposed at a connection between the first sector material 17 and the sliding frame and between the second sector material 18 and the sliding frame; the first sash section bar 17 and the second sash section bar 18 both comprise a hooked rabbet 1, the hooked rabbet 1 on the first sash section bar 17 is matched with the hooked rabbet 1 of the second sash section bar 18 in a closed state, the hooked rabbet is an aluminum alloy hooked rabbet, the hooked rabbet 1 is provided with a seal 2 and a cover plate 16, the cover plate and the seal are adopted as two independent bodies, and compared with a traditional structure integrated with the sash section bars, the influence of the cover plate and the seal on the heat transfer coefficient of the hooked rabbet can be reduced. A hooked rabbet sealing rubber strip 5 is arranged on the seal strip 2, one side of the hooked rabbet 1 is connected with the cover plate 16, and an L-shaped heat insulation strip matched with the seal strip 2 is arranged on the other side of the hooked rabbet 1. The cover plate 16 is arranged on one side of the hooked rabbet, so that the hooked rabbet is a closed hooked rabbet, and the seal and the cover plate are separated into two parts, so that the defect that the whole window needs to be replaced due to damage of the seal can be avoided. The L-shaped heat insulation strip is matched with the seal strip to ensure the sealing effect of the hooked rabbet, and is matched and combined with the sealing assembly to ensure the sealing and heat insulation effect of the whole door.

Embodiment 2, a totally enclosed low heat transfer sliding door system's L type heat insulating strip includes first hooked rabbet heat insulating strip 3 and second hooked rabbet heat insulating strip 4, and second hooked rabbet heat insulating strip 4 sets up in the one side that is connected with strip of paper used for sealing 2, and second hooked rabbet heat insulating strip 4 is connected on hooked rabbet 1 and sets up with first hooked rabbet heat insulating strip 3 is perpendicular. First hooked rabbet heat insulating strip 3 and second hooked rabbet heat insulating strip 4 set up on the hooked rabbet, and the hooked rabbet is the weakest place of push-and-pull door heat transfer coefficient, so here pertinence adoption L type heat insulating strip design of arranging.

The other structures are the same as those of embodiment 1.

Embodiment 3, a seal 2 of a fully-sealed low-heat-transfer sliding door system is connected to one side of the hooked rabbet 1 close to the cover plate 16, the seal 2 is a PVC seal, and a filler is arranged inside the PVC seal. The filler is made of foamed polyurethane, one side of each seal is an inclined plane which can be spliced mutually, the seals on the hooked rabbet of the first fan-shaped section 17 and the second fan-shaped section 18 are clamped mutually, so that the first fan-shaped section 17 is connected with the second fan-shaped section 18, the PVC seal is simple to manufacture and low in cost, and the filler can increase the heat insulation performance of the hooked rabbet connection of the first fan-shaped section 17 and the second fan-shaped section 18.

In this embodiment, the hooked rabbet sealing rubber strip 5 includes a first hooked rabbet sealing rubber strip 51 and a second hooked rabbet sealing rubber strip 52, when the first sash profile 17 and the second sash profile 18 are in a closed state, the first hooked rabbet sealing rubber strip 5 and the second hooked rabbet sealing rubber strip 5 on the first sash profile 17 are both connected with the hooked rabbet 1 on the second sash profile 18, and the first hooked rabbet sealing rubber strip 5 and the second hooked rabbet sealing rubber strip 5 on the second sash profile 18 are both connected with the hooked rabbet 1 on the first sash profile 17. The first hooked rabbet sealing rubber strip 51 and the second hooked rabbet sealing rubber strip 52 on the hooked rabbet of the first fan-shaped section 17 and the second fan-shaped section 18 can form four layers of sealing when the first fan-shaped section 17 and the second fan-shaped section 18 are closed, so that the sealing effect of the sealing joint on the hooked rabbet is ensured.

The other structures are the same as those of embodiment 2.

Embodiment 4, a sealing and heat insulating assembly of a fully sealed sliding door system with low heat transfer includes a sash frame heat insulating strip 9 and a sash frame sealing rubber strip 8, wherein the sash frame heat insulating strip 9 is connected inside a first sash section 17 and a second sash section 18, and the sash frame sealing rubber strip 8 is connected to the sash frame heat insulating strip 9 and is matched with the sliding frame. The fan frames of the first fan-shaped section 17 and the second fan-shaped section 18 close to the indoor side are provided with fan frame heat insulation strips, and the fan frame heat insulation strips are matched with the fan frame sealing rubber strips 8, so that the heat insulation effect and the sealing effect of the first fan-shaped section 17 and the second fan-shaped section 18 are ensured.

In this embodiment, the push-pull frame includes a frame heat insulating strip 7, an edge seal 6 and a transverse frame 12, the frame heat insulating strip 7 is disposed on the edge seal 6 and is matched with the sash frame heat insulating strip 9, and a transverse frame sealing rubber strip 15 matched with the first sash section 17 and the second sash section 18 is disposed in the middle of the transverse frame 12; the transverse frame sealing rubber strips 15 are two symmetrical sealing rubber strips, the two sealing rubber strips are respectively matched with the first sash section 17 and the second sash section 18 to ensure the sealing performance of the joint of the first sash section 17 and the second sash section 18 with the transverse frame when closed, the middle part of the edge seal 6 is provided with a frame sealing rubber strip 10 matched with the first sash section 17 and the second sash section 18 when closed, the sealing rubber strips are contacted with the first sash section 17 and the second sash section 18 and matched with the sash frame sealing rubber strips on the first sash section 17 and the second sash section 18 to form multi-layer sealing of the first sash section 17 and the second sash section 18 with the frame, and the sealing performance of the first sash section 17 and the second sash section 18 when closed is ensured. Horizontal frame 12 is including going up the slip and gliding, goes up the slip and all cooperatees with first fan-shaped section bar 17 and second fan-shaped section bar 18 with the gliding, the width of the outdoor side of horizontal frame 12 is greater than the width of indoor side, is equipped with on the outdoor side with fan frame heat insulating strip complex heat insulating strip, guarantees the heat-proof quality of horizontal frame.

The other structures are the same as those in embodiment 3.

Embodiment 5, a first sash section 17 and a second sash section 18 of a fully-sealed low-heat-transfer sliding door system each further include a smooth rabbet 11 and a sash frame 14 disposed horizontally, the sash frames 14 are respectively above and below, the smooth rabbet 11, above, hooked rabbet 1 and below are connected end to form a frame structure, and a glass 19 is connected in the frame structure. And a hardware connecting piece 13 is arranged on the fan frame 14, and the hardware connecting piece 13 is arranged in parallel with the sealing heat insulation assembly and is matched with the push-pull frame. The hardware connecting piece is connected with the transverse frame in a sliding mode, and the lower portions of the first sash section bar 17 and the second sash section bar 18 are respectively matched with the transverse frame 12, so that the sealing performance and the heat insulation performance are guaranteed.

The other structures are the same as those in embodiment 4.

Specifically, during processing, the edge seal, the upper slide and the lower slide use right angle corner combining, after 90-degree cutting, the upper slide and the lower slide mill end heads, attention needs to be paid to the fact that the indoor and outdoor sides of the left edge seal and the right edge seal are not consistent, self-tapping is used for screwing according to reserved hole positions, and splicing of the push-pull frame is completed. And installing a sealing rubber strip after the push-pull frame is assembled. The first sector 17 and the second sector 18 are assembled in the same way as the push-pull frame, but without the need for reverse framing and before framing the glass has to be put in place. PVC sealing strips and cover plates are arranged at the hooked rabbet positions, adhesive tapes are arranged at corresponding positions, and attention needs to be paid to the difference between the indoor surface and the outdoor surface of the two fans. And (4) mounting the assembled push-pull frame on the reserved hole, and ensuring the level and the verticality of the push-pull frame by using instruments such as an electronic level meter and the like. The first sector section bar 17 and the second sector section bar 18 are provided with hardware such as pulleys, locks, drivers and the like. The first sash section bar 17 is an outdoor sash, the second sash section bar 18 is an indoor sash, the second sash section bar 18 is installed firstly, then the first sash section bar 17 is installed, hardware such as a rear adjusting pulley and the like are installed, the first sash section bar 17 and the second sash section bar 18 are pushed and pulled smoothly, the locking resistance is small, and all parts are sealed tightly. This device uses the adhesive tape sealed, and the leakproofness has obtained very big improvement, has reached the purpose of low heat transfer through the position that changes heat insulating strip, and does not increase too much processing step, does not adopt special five metals, and the price is substantial.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (8)

1. The utility model provides a totally enclosed low heat transfer push-and-pull door system, includes the push-and-pull frame, its characterized in that: the sliding frame is characterized by further comprising a first sash section bar (17) and a second sash section bar (18), wherein the first sash section bar (17) and the second sash section bar (18) are connected in the sliding frame in a sliding mode, and sealing and heat-insulating assemblies are arranged at the joints of the first sash section bar (17) and the second sash section bar (18) and the sliding frame; first fan-shaped section bar (17) and second fan-shaped section bar (18) all include hooked rabbet (1), and hooked rabbet (1) on first fan-shaped section bar (17) and hooked rabbet (1) of second fan-shaped section bar (18) cooperate when closed condition, be equipped with on hooked rabbet (1) seal (2) and apron (16), be equipped with hooked rabbet joint strip (5) on seal (2), one side and apron (16) of hooked rabbet (1) are connected, the opposite side is equipped with the heat insulating strip of L type with seal (2) complex.

2. The fully sealed low heat transfer sliding door system according to claim 1, wherein: the L-shaped heat insulation strip comprises a first hooked rabbet heat insulation strip (3) and a second hooked rabbet heat insulation strip (4), the second hooked rabbet heat insulation strip (4) is arranged on one side connected with the seal strip (2), and the second hooked rabbet heat insulation strip (4) is connected in the hooked rabbet (1) and is perpendicular to the first hooked rabbet heat insulation strip (3).

3. A fully sealed low heat transfer sliding door system according to claim 1 or 2, wherein: the seal (2) is connected to one side of the hooked rabbet (1) close to the cover plate (16), the seal (2) is a PVC seal, and a filler is arranged in the PVC seal.

4. The fully sealed low heat transfer sliding door system according to claim 3, wherein: the hooked rabbet sealing rubber strip (5) comprises a first hooked rabbet sealing rubber strip (51) and a second hooked rabbet sealing rubber strip (52), when the first sash section (17) and the second sash section (18) are in a closed state, the first hooked rabbet sealing rubber strip (51) and the second hooked rabbet sealing rubber strip (52) on the first sash section (17) are matched with a hooked rabbet (1) on the second sash section (18), and the first hooked rabbet sealing rubber strip (51) and the second hooked rabbet sealing rubber strip (52) on the second sash section (18) are matched with a hooked rabbet (1) on the first sash section (17).

5. A fully sealed low heat transfer push-pull door system according to claim 1 or 2 or 4, wherein: the sealing and heat-insulating assembly comprises a sash frame heat-insulating strip (9) and a sash frame sealing rubber strip (8), the sash frame heat-insulating strip (9) is connected to the inside of the first sash section bar (17) and the inside of the second sash section bar (18), and the sash frame sealing rubber strip (8) is connected to the sash frame heat-insulating strip (9) and matched with the push-pull frame.

6. The fully sealed low heat transfer sliding door system according to claim 5, wherein: the push-pull frame comprises a frame heat insulation strip (7), an edge seal (6) and a transverse frame (12), the frame heat insulation strip (7) is arranged on the edge seal (6) and matched with the sash frame heat insulation strip (9), and a transverse frame sealing rubber strip (15) matched with the first sash section bar (17) and the second sash section bar (18) is arranged in the middle of the transverse frame (12); and a frame sealing rubber strip (10) matched with the first sash section bar (17) and the second sash section bar (18) when the first sash section bar and the second sash section bar are closed is arranged in the middle of the edge seal (6).

7. A fully sealed low heat transfer push-pull door system according to claim 1 or 2 or 4 or 6, wherein: the first sash section bar (17) and the second sash section bar (18) both further comprise a smooth rabbet (11) and a sash frame (14) which is transversely arranged, the smooth rabbet (11) and the hooked rabbet (1) are connected into a frame structure through the sash frame (14), and glass (19) is connected in the frame structure.

8. The fully sealed low heat transfer sliding door system according to claim 7, wherein: be equipped with hardware connecting piece (13) on fan frame (14), hardware connecting piece (13) and sealed thermal-insulated subassembly parallel arrangement and cooperate with the push-and-pull frame.

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