CN212130327U - Energy-saving sound insulation type lifting sliding door - Google Patents

Abstract

The utility model discloses an energy-saving and sound-insulating type lifting sliding door, which comprises a rectangular outer frame and two rectangular movable door leaves, wherein the top edges of the two rectangular movable door leaves are provided with heat-insulating chutes which are respectively matched with two upper rails on the top edge of the rectangular outer frame in a sliding and sealing manner along the length direction; a first heat insulation groove is fixedly arranged in the middle of the top edge of the rectangular outer frame along the length direction; the middle part of the bottom edge of the rectangular outer frame is fixedly provided with a second heat insulation groove which is respectively matched with the bottom edges of the two rectangular movable door leaves in a sliding and sealing manner along the length direction; two heat insulation hooks are symmetrically and fixedly arranged at the two overlapped side edges of the closed two rectangular movable door leaves along the length direction; the side of the rectangular outer frame is provided with a side sealing plate and a second heat insulation groove in parallel along the length direction, the side sealing plate is in sealing fit with the leaf sealing plate on one rectangular movable door leaf side, and the second heat insulation groove is in sealing fit with the other rectangular movable door leaf side. The utility model discloses can effectively improve the heat preservation sound insulation performance that promotes the push-and-pull door.

Description

Energy-saving sound insulation type lifting sliding door

Technical Field

The utility model relates to a push-and-pull door field especially relates to an energy-conserving type that gives sound insulation promotes push-and-pull door.

Background

The aluminum alloy that uses in the present building market promotes push-and-pull door is similar with ordinary push-and-pull door structure, do not embody the use advantage that promotes the push-and-pull door from essence, and its sealing material uses and mixes, it is tight that mostly all exist sealed, lead to promoting the sealed thermal insulation performance sound barrier propterty of push-and-pull door relatively poor, after the push-and-pull door closes tightly, in the overlap joint of two removal door leafs, the overlap joint between removal door leaf and the upper and lower track and the overlap joint leakproofness between removal door leaf and the rectangle frame founding material are not good, so lead to it not to possess better thermal insulation sound barrier propterty.

SUMMERY OF THE UTILITY MODEL

The utility model provides an energy-conserving type that gives sound insulation promotes push-and-pull door to solve the current not good enough technical problem of heat preservation sound-proof quality who promotes the push-and-pull door.

The utility model adopts the technical scheme as follows:

an energy-saving and sound-insulation type lifting sliding door comprises a rectangular outer frame and two rectangular movable door leaves movably arranged in the rectangular outer frame, wherein each of the two rectangular movable door leaves comprises a leaf material and sound-insulation glass, and heat-insulation sliding chutes which are respectively in sliding sealing fit with two upper rails on the top side of the rectangular outer frame are arranged on the top sides of the two rectangular movable door leaves along the length direction; a first heat insulation groove is fixedly arranged in the middle of the top edge of the rectangular outer frame along the length direction; the middle part of the bottom edge of the rectangular outer frame is fixedly provided with a second heat insulation groove which is respectively matched with the bottom edges of the two rectangular movable door leaves in a sliding and sealing manner along the length direction; two heat insulation hook materials which can be tightly contacted are symmetrically and fixedly arranged at the length direction of the two overlapped side edges of the closed two rectangular movable door leaves; the side of the rectangular outer frame is provided with a side sealing plate and a second heat insulation groove in parallel along the length direction, the side sealing plate is in sealing fit with the leaf sealing plate on one rectangular movable door leaf side, and the second heat insulation groove is in sealing fit with the other rectangular movable door leaf side.

In one embodiment, the heat insulation sliding chute comprises two side sliding plates which are symmetrically arranged in the fan material and are respectively in sealing sliding fit with the upper rail and the side surface of the first heat insulation groove, and a bottom sliding plate which is fixedly arranged between the two side sliding plates and is in sealing sliding fit with the upper rail and the bottom surface of the first heat insulation groove.

In one embodiment, two side edges of the first heat insulation groove symmetrically extend downwards to a position between the corresponding upper track and the corresponding side sliding plate, and are in sealing sliding fit with the corresponding inner side sliding plate and the corresponding bottom sliding plate.

In one embodiment, sound insulation foam is further fixedly arranged in the first heat insulation groove and the second heat insulation groove.

In one embodiment, the opposite surfaces of the two heat insulation hook materials are symmetrically provided with wedge-shaped parts.

In one embodiment, one end of the edge sealing plate is fixedly connected with the side edge of the rectangular outer frame, and the other end of the edge sealing plate is in sealing contact with the second heat insulation groove arranged on the side edge of the rectangular outer frame.

In an embodiment, the rectangular outer frame and the rectangular movable door leaf are made of multi-cavity bridge-cut-off aluminum alloy sections, and each section comprises a multi-cavity aluminum alloy part and a heat insulation strip connected and arranged between the multi-cavity aluminum alloy parts, wherein the heat insulation strip in the rectangular outer frame is a hollow heat insulation strip provided with a plurality of mutually isolated cavities.

In an embodiment, a plurality of cavities isolated from each other are arranged in the heat insulation sliding groove, the first heat insulation groove, the second heat insulation groove and the heat insulation hook material.

In one embodiment, sound insulation glass cushion blocks are arranged in the glass grooves of the two rectangular movable door leaves along the length direction.

In an embodiment, the material of the heat insulation sliding groove, the first heat insulation groove, the second heat insulation groove, the heat insulation hook material and the sound insulation glass cushion block is any one of PVC, PP, PE and ABS.

The utility model discloses following beneficial effect has:

the utility model discloses a synthesize and set up sound proof glass, set up measures such as thermal-insulated spout, first heat dam, second heat dam, the thermal-insulated hook material of continuity in rectangle frame and interior fan respectively, improved the push-and-pull door and closed tightly the back, remove door leaf overlap department, rectangle between removal door leaf and the last lower rail, the leakproofness and the heat-proof quality between rectangle removal door leaf and the rectangle frame side at two rectangles, effectively improve the heat preservation sound insulation performance that promotes the push-and-pull door.

In addition to the above-described objects, features and advantages, the present invention has other objects, features and advantages. The present invention will be described in further detail below with reference to the accompanying drawings.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification. In the drawings:

fig. 1 is an appearance schematic view of an energy-saving and sound-insulating type lifting sliding door according to a preferred embodiment of the present invention.

Fig. 2 is a schematic sectional view taken along line D-D in fig. 1.

FIG. 3 is a schematic sectional view taken along line C-C in FIG. 1.

FIG. 4 is a schematic sectional view taken along line B-B in FIG. 1.

Fig. 5 is a schematic structural view of two heat insulation hooks according to the preferred embodiment of the present invention.

Fig. 6 is a schematic sectional view taken along line a-a in fig. 1.

Fig. 7 is a schematic cross-sectional view of a rectangular outer frame profile according to a preferred embodiment of the present invention.

Fig. 8 is a schematic cross-sectional view of the inner sash section according to the preferred embodiment of the present invention.

Fig. 9 is a schematic view of a first heat shield groove according to a preferred embodiment of the present invention.

Fig. 10 is a schematic view of a second heat shield groove according to a preferred embodiment of the present invention.

Fig. 11 is a schematic view of a first glass mat according to a preferred embodiment of the present invention.

Fig. 12 is a schematic view of a second glass mat according to a preferred embodiment of the present invention.

Fig. 13 is a schematic structural view of a side slide plate according to a preferred embodiment of the present invention.

Fig. 14 is a schematic structural view of an acoustic glass according to a preferred embodiment of the present invention.

Fig. 15 is a schematic view of a fan assembly according to a preferred embodiment of the present invention.

Fig. 16 is a schematic diagram of the corners of the rectangular outer frame according to the preferred embodiment of the present invention.

In the figure: 1. a rectangular outer frame; 101. a frame material cavity; 102. hollow heat insulating strips; 103. a heat insulation groove mounting part; 104. a seal mounting portion; 2. a screw; 3. an airtight adhesive tape; 4. a flashing; 5. a side slide plate; 6. a bottom slide plate; 7. material fanning; 701. a fan material cavity; 702. a fan material heat insulation strip; 8. pressing glass lines; 9. sound-proof glass; 10. an upper rail; 11. sound insulation foam; 12. a first heat insulation groove; 13. a first foam baffle; 14. a first glass mat block; 15. a pulley; 16. a lower rail; 17. a second heat insulation groove; 18. a second foam baffle; 19. a fan closing plate; 20. heat insulation hook material; 201. a wedge portion; 202. hooking the material cavity; 21. a second glass mat block; 22. and (4) edge sealing plates.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

As shown in fig. 1 to 6, the energy-saving and sound-insulating lifting sliding door comprises a rectangular outer frame 1 and two rectangular movable door leaves movably arranged in the rectangular outer frame 1, wherein pulleys 15 are arranged on the bottom edges of the two rectangular movable door leaves, and a lower rail 16 matched with the pulleys 15 is arranged on the bottom edge of the rectangular outer frame 1. The two rectangular movable door leaves comprise a sash material 7 and sound insulation glass 9, airtight rubber strips 3 are arranged at the matching positions among the rectangular outer frame 1, the sash material 7 and the sound insulation glass 9, and heat insulation sliding chutes which are respectively in sliding sealing fit with the two upper rails 10 at the top edge of the rectangular outer frame 1 are arranged at the top edges of the two rectangular movable door leaves along the length direction; a first heat insulation groove 12 is fixedly arranged in the middle of the top edge of the rectangular outer frame 1 along the length direction; a second heat insulation groove 17 which is respectively matched with the bottom edges of the two rectangular movable door leaves in a sliding and sealing manner is fixedly arranged in the middle of the bottom edge of the rectangular outer frame 1 along the length direction; two heat insulation hook materials 20 which can be tightly contacted are symmetrically and fixedly arranged at the length direction of the two overlapped side edges of the two closed rectangular movable door leaves; the side of the rectangular outer frame 1 is provided with a side sealing plate 22 and a second heat insulation groove 17 in parallel along the length direction, the side sealing plate 22 is in sealing fit with a leaf sealing plate 19 on one rectangular movable door leaf side, and the second heat insulation groove 17 is in sealing fit with the other rectangular movable door leaf side. Thermal-insulated spout, first heat-insulating chute 12, second heat-insulating chute 17, two thermal-insulated hook material 20 all adopt heat-proof material, like any one of PVC, PP, PE, ABS, this embodiment adopts PVC, consequently, have guaranteed the thermal-insulated sound-proof performance between rectangle frame 1 and the fan material 7, satisfy energy-conserving syllable-dividing demand.

Specifically, as shown in fig. 2, the heat insulation chute includes two side sliding plates 5 symmetrically disposed in the fan material 7 and respectively in sealed sliding fit with the side surfaces of the upper rail 10 and the first heat insulation groove 12, and a bottom sliding plate 6 fixedly disposed between the two side sliding plates 5 and in sealed sliding fit with the bottom surfaces of the upper rail 10 and the first heat insulation groove 12. As shown in fig. 2 and 13, the side sliding plate 5 is in an inverted F shape, and is symmetrically installed on the fan material 7, and an airtight rubber strip 3 is further disposed in a gap between the side sliding plate 5 and the fan material 7, so as to further ensure the sealing performance between the side sliding plate 5 and the fan material 7, and between the upper end of the side sliding plate 5 and the upper rail 10, the bottom sliding plate 6 is in a rectangular plate-shaped structure, and the upper surface thereof is in a sealing and sliding fit with the bottom surfaces of the upper rail 10 and the first heat insulation groove 12, that is, the upper rail 10, the side sliding plate 5, and the bottom surface of the first heat insulation groove 12 together form a sealing sliding pair, when the rectangular moving door leaf is pushed, the heat insulation sliding groove slides back and forth along the upper rail 10 and is tightly attached, so as to ensure the sealing performance between the two, and at the same time, the heat insulation sliding groove is made of a heat insulation material, such as any one of PVC, PP, PE, and ABS in this embodiment, so as to ensure, the energy-saving requirement is met.

Further, as shown in fig. 2 and 9, two sides of the first heat insulation groove 12 symmetrically extend downwards to between the corresponding upper rail 10 and the corresponding side sliding plate 5, and are in sealing sliding fit with the corresponding inner side sliding plate 5 and the corresponding bottom sliding plate 6. When the two side edges symmetrically extend downwards to a position between the corresponding upper track 10 and the corresponding side sliding plate 5, the first heat insulation groove 12 is made of heat insulation materials, so that the heat resistance in a heat conduction path can be effectively increased, the heat conduction between the outdoor and the indoor is further reduced, the heat insulation and sound insulation performance of the sliding door is improved, and the requirements of energy conservation and sound insulation are met.

Further, as shown in fig. 2, 3 and 6, the first heat insulation groove 12 and the second heat insulation groove 17 are also fixedly provided with sound insulation foam 11, and the sound insulation foam 11 of the embodiment adopts EPDM foam, and has excellent characteristics such as sound insulation, sound absorption, heat resistance, corrosion resistance, flame resistance, heat preservation and heat insulation.

As shown in fig. 2, the sound insulation foam 11 is filled in the groove of the first heat insulation groove 12, and a first foam baffle 13 capable of limiting the position of the sound insulation foam 11 is further provided in the groove of the first heat insulation groove 12 in order to ensure that the sound insulation foam 11 is removed, and the first foam baffle 13 is also made of a heat insulation material such as PVC. The opening part of first heat dam 12 is provided with the binding off, the width that the width of binding off the department is less than the width of first heat dam 12 inslot and the width of first bubble cotton baffle 13, consequently, pack into the cotton baffle 13 of first heat dam 12 with sound insulation bubble in proper order back in the recess of first heat dam 12, first bubble cotton baffle 13 quilt the binding off stops, can guarantee that sound insulation bubble cotton 11 can not drop from first heat dam 12.

As shown in fig. 3, the sound insulation foam 11 is filled in the groove of the second heat insulation groove 17, and in order to prevent the sound insulation foam 11 from falling off, a second foam baffle 18 capable of limiting the position of the sound insulation foam 11 is further provided in the groove of the second heat insulation groove 17, the second foam baffle 18 is also made of a heat insulation material such as PVC, the upper surface of the second foam baffle 18 is in sliding sealing contact with the fan material 7, and the second foam baffle 18 is prevented from falling off from the groove of the second heat insulation groove 17.

As shown in fig. 6, the soundproof foam 11 is filled and attached in a cavity surrounded by the second heat insulation groove 17 and the edge sealing plate 22, and the edge sealing plate 22 prevents the soundproof foam 11 from falling off from the groove of the second heat insulation groove 17.

As shown in fig. 4 and 5, the opposite surfaces of the two insulating hook materials 20 are symmetrically provided with wedge-shaped portions 201 capable of being in close contact. In this embodiment, the two heat-insulating hooks 20 are fixed on the leaf material 7 of the two rectangular moving door leaves respectively through the screws 2, and is connected with a corresponding leaf sealing plate 19, when the two rectangular movable door leaves are respectively pushed and pulled leftwards and rightwards to realize the closing of the push-pull door, the two heat insulation hook materials 20 move along with the two rectangular movable door leaves, after the two rectangular moving door leaves move to the closed position, the wedge-shaped parts 201 of the two heat insulation hooks 20 are overlapped and kept in close contact, meanwhile, the other end of the two heat insulation hook materials 20 far away from the wedge-shaped part 201 is in sealing contact with the leaf material 7 at the overlapping part of the two rectangular movable door leaves through the airtight rubber strip 3, the gap at the overlapping part of the two rectangular movable door leaves is effectively sealed, the aluminum product lap joint is completely prevented, the heat transfer channel is blocked, the sealing property and the heat insulation property at the overlapping part of the two rectangular movable door leaves are ensured, and the heat insulation and sound insulation performance of the sliding door is improved. In addition, a plurality of mutually isolated hook material cavities 202 are arranged inside the two heat insulation hook materials 20, so that the sound insulation and heat insulation performance is further improved.

As shown in fig. 6, one end of the edge sealing plate 22 is fixedly connected to the side of the rectangular outer frame 1, and the other end is in sealing contact with the second heat insulation groove 17 disposed on the side of the rectangular outer frame 1. In this embodiment, one end of the edge sealing plate 22 is fixedly connected to the side of the rectangular outer frame 1, and the other end of the edge sealing plate is in sealing contact with the second heat insulation groove 17 through the airtight rubber strip 3, and the second heat insulation groove 17 and the airtight rubber strip 3 are both heat insulation materials, so that heat conduction between the indoor side and the outdoor side of the lifting sliding door can be effectively prevented, and the heat insulation performance of the lifting sliding door is improved.

Further, as shown in fig. 7 and 8, the rectangular outer frame 1 and the fan material 7 of the rectangular movable door leaf both adopt multi-cavity bridge-cut-off aluminum alloy sections, and include multi-cavity aluminum alloy components and heat insulation strips connected and arranged between the multi-cavity aluminum alloy components, wherein the fan material 7 includes two aluminum alloy components provided with a plurality of fan material cavities 701 and fan material heat insulation strips 702 connected and arranged between the two aluminum alloy components, the section of the rectangular outer frame 1 includes two aluminum alloy components provided with a plurality of frame material cavities 101 and hollow heat insulation strips 102 connected and arranged between the aluminum alloy components, a plurality of mutually isolated cavities are arranged in the hollow heat insulation strips 102, and the aluminum alloy component of the rectangular outer frame 1 is provided with a sealing component mounting part 104 which can be used for mounting an airtight adhesive tape 3 and can also be used for mounting a flashing 4 for blocking water. The heat insulation groove mounting part 103 is formed between the two aluminum alloy members and the hollow heat insulation bar 102 to mount the first heat insulation groove 12 or the second heat insulation groove 17. This embodiment is through adopting the preparation of many cavitys bridge cut-off aluminum alloy ex-trusions rectangle frame 1 and rectangle removal door leaf, not only intensity is high, stable in structure, and sound insulation and heat-proof quality is good moreover.

As shown in fig. 9 and 10, in order to further improve the sound and heat insulation performance, in one possible embodiment, a plurality of cavities isolated from each other are respectively disposed inside the heat insulation chute, the first heat insulation chute 12, and the second heat insulation chute 17, and the cavities are isolated from each other and symmetrically distributed, so that the heat resistance of each part is balanced, and the sound and heat insulation performance is high, the structure is stable, and the sound and heat insulation performance is good.

The soundproof glass blocks are arranged in the glass groove openings of the two rectangular movable door leaves along the length direction, wherein the glass groove openings at the bottom edges of the two rectangular movable door leaves need to bear the gravity of soundproof glass 9, so that the soundproof glass blocks arranged in the glass groove openings at the bottom edges of the two rectangular movable door leaves adopt first glass blocks 14 as shown in fig. 11, the first glass blocks 14 are integrally in a transverse F shape, are made of PVC or ABS and have certain structural strength, and one side of each soundproof glass 9 is arranged to be a plane so as to obtain a larger supporting contact area, reduce the pressure of the soundproof glass 9 on the first glass blocks 14, insulate heat and buffer, and prolong the service life. Because the glass notches on the top edges and the two side edges of the two rectangular movable door leaves do not need to bear the gravity of the sound-proof glass 9, the sound-proof glass cushion blocks positioned in the glass notches on the top edges and the two side edges of the two rectangular movable door leaves adopt the second glass cushion block 21 shown in figure 12, the second glass cushion block 21 is made of any one of PVC, PP, PE and ABS, and one side of the second glass cushion block relative to the sound-proof glass 9 is provided with a plurality of sharp protrusions.

In the embodiment, the soundproof glass cushion blocks are arranged in the glass grooves of the two rectangular movable door leaves, so that the soundproof and heat-insulating properties of the joint of the soundproof glass 9 and the fan material 7 can be effectively improved.

As shown in fig. 14, sound-proof glass 9 adopt many thickness combination formula vacuum glass, including three monolithic glasses that thickness, interval differ, wherein, the thickness of each monolithic glass is 6mm, 4mm, 8mm respectively, and the interval of adjacent monolithic glass is 13mm and 16mm respectively and does the evacuation processing, sound-proof glass 9 after the glass notch of packing into, the one side of sound-proof glass 9 directly passes through airtight adhesive tape 3 and the sealing contact of fan material 7, the another side pass through airtight adhesive tape 3 with install 8 sealing contact of glass line ball on the fan material 7, this embodiment adopts the complete joint strip design of multichannel and special glass collocation, can filter the sound of multiple amplitude, effectively blocks the propagation path of sound, reaches good syllable-dividing effect.

As shown in fig. 15 and 16, each side of the rectangular outer frame 1 and the rectangular movable door leaf is spliced by adopting a 45-degree corner combining connection mode, before corner combining, a section bar to be subjected to corner combining is cut by 45 degrees, when in butt joint, the proper corner codes are selected for corner combination, thereby forming a detachable rectangular outer frame 1 and a rectangular movable door leaf, wherein, the rectangular outer frame 1 and each sector material 7 of the rectangular movable door leaf adopt invisible corner connectors for corner combination, two corner connector arms of the invisible corner connectors are respectively inserted into the cavities of the sector materials 7 to be corner combined, then the screw is screwed in from the inner side surface of the glass notch and then connected with the invisible corner connector to realize corner combination, after the corner combination is finished, the sound insulation glass 9 is arranged in the glass groove of the rectangular movable door leaf, and the sound insulation glass 9 covers the screws connected with the invisible corner codes, so that the invisible corner mark combination is realized, and the appearance of the rectangular movable door leaf is attractive and has no mark.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. 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 (10)

1. The utility model provides an energy-conserving type that gives sound insulation promotes push-and-pull door, includes rectangle frame (1), movably sets up two rectangles in rectangle frame (1) remove the door leaf, two rectangles remove the door leaf and all include fan material (7) and sound insulation glass (9), its characterized in that:

the top edges of the two rectangular movable door leaves are provided with heat insulation sliding chutes which are respectively matched with the two upper tracks (10) on the top edge of the rectangular outer frame (1) in a sliding and sealing way along the length direction; a first heat insulation groove (12) is fixedly arranged in the middle of the top edge of the rectangular outer frame (1) along the length direction;

the middle part of the bottom edge of the rectangular outer frame (1) is fixedly provided with a second heat insulation groove (17) which is respectively matched with the bottom edges of the two rectangular movable door leaves in a sliding and sealing way along the length direction;

two heat insulation hook materials (20) which can be tightly contacted are symmetrically and fixedly arranged at the length direction of the two overlapped side edges of the closed two rectangular movable door leaves;

the side of the rectangular outer frame (1) is provided with a side sealing plate (22) and a second heat insulation groove (17) in parallel along the length direction, the side sealing plate (22) is in sealing fit with a leaf sealing plate (19) on the side of one rectangular movable door leaf, and the second heat insulation groove (17) is in sealing fit with the side of the other rectangular movable door leaf.

2. The energy saving and sound insulating type lifting sliding door according to claim 1,

the heat insulation sliding groove comprises two side sliding plates (5) which are symmetrically arranged in the fan material (7) and are respectively in sealed sliding fit with the side surfaces of the upper rail (10) and the first heat insulation groove (12), and a bottom sliding plate (6) which is fixedly arranged between the two side sliding plates (5) and is in sealed sliding fit with the bottom surfaces of the upper rail (10) and the first heat insulation groove (12).

3. The energy-saving and sound-insulating type lifting sliding door according to claim 2, wherein two sides of the first heat insulation groove (12) symmetrically extend downwards to a position between the corresponding upper rail (10) and the corresponding side sliding plate (5) and are in sealing sliding fit with the corresponding inner side sliding plate (5) and the corresponding bottom sliding plate (6).

4. The energy-saving and sound-insulating type lifting sliding door according to claim 1, wherein sound-insulating foam (11) is fixedly arranged in the first heat-insulating groove (12) and the second heat-insulating groove (17).

5. The energy-saving and sound-insulating type lifting sliding door according to claim 1, characterized in that opposite faces of the two heat-insulating hook materials (20) are symmetrically provided with wedge-shaped parts (201).

6. The energy saving and sound insulating type lifting sliding door according to claim 1,

one end of the edge sealing plate (22) is fixedly connected with the side edge of the rectangular outer frame (1), and the other end of the edge sealing plate is in sealing contact with a second heat insulation groove (17) arranged on the side edge of the rectangular outer frame (1).

7. The energy-saving and sound-insulating type lifting sliding door according to claim 1, wherein the rectangular outer frame (1) and the fan material (7) of the rectangular movable door leaf are both made of multi-cavity bridge-cut-off aluminum alloy sections, and comprise multi-cavity aluminum alloy components and heat insulation strips connected and arranged among the multi-cavity aluminum alloy components, wherein the heat insulation strips in the rectangular outer frame (1) are hollow heat insulation strips provided with a plurality of mutually isolated cavities.

8. The energy-saving and sound-insulation type lifting sliding door according to claim 1, wherein a plurality of cavities isolated from each other are arranged in the heat insulation sliding groove, the first heat insulation groove (12), the second heat insulation groove (17) and the heat insulation hook material (20).

9. The energy-saving and sound-insulating type lifting sliding door according to any one of claims 1 to 8, wherein sound-insulating glass cushion blocks are arranged in the glass grooves of the two rectangular movable door leaves along the length direction.

10. The energy-saving and sound-proof type lifting sliding door according to claim 9, wherein the materials of the heat insulation sliding groove, the first heat insulation groove (12), the second heat insulation groove (17), the heat insulation hook material (20) and the sound insulation glass cushion block are any one of PVC, PP, PE and ABS.

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