CN109025684A - A kind of energy-saving lifting sliding door - Google Patents

Abstract

The invention discloses a kind of energy-saving lifting sliding door, solve the problems, such as sliding door air-tightness, watertightness, anti-theft performance difference etc. in the prior art.The present invention includes doorframe, energy saving threshold and door leaf, the lower part of doorframe is arranged in energy saving threshold, door leaf is matched with doorframe, energy saving threshold respectively, the doorframe includes doorframe material, bridge-cut-off aluminum lining and filler are equipped in doorframe material, filler is matched with bridge-cut-off aluminum lining, and the inside of doorframe material is equipped with side seals profile, and side seals profile is matched with door leaf；The door leaf includes sectional, and closed loop steel lining is equipped in sectional, and sectional is equipped with door plate, and sectional is matched with doorframe material, energy saving threshold respectively.Lifting sliding door of the present invention is designed using two-orbit, and doorframe uses multi-chamber doorframe, has efficient heat preservation, heat-insulated, sound insulation value, bridge-cut-off aluminum lining is equipped in doorframe to reinforce, while guaranteeing heat preservation, heat-insulated, sound insulation value, increase profile intensity, anti-theft performance greatly improves.

Description

A kind of energy-saving lifting sliding door

Technical field

The present invention relates to window technology fields, particularly relate to a kind of energy-saving lifting sliding door.

Background technique

Traditional sliding door leaf is to carry out dislocation sealing in two sliding on rails, because of the relationship of contact friction, contact More, frictional force is bigger, and the unlatching resistance of door leaf is also bigger, is in a sealing fashion mostly wool top sealing, the effect of wool top sealing Fruit it is clear that be only have certain dustproof effect, it is ineffective for air-tightness, watertightness, entire door leaf Surrounding can be described as the state of water-permeable and air permeable.Thermal insulation property is even more to have a greatly reduced quality.The anti-theft performance of sliding door is poor, it is easy to quilt It forces open the door.So many factors restrict so that present conventional push pull door can be used only in interior, as a kind of space every It is disconnected, it there is no on entering house door.But the space utilization rate of sliding door is higher, and it is space-saving, it is other opening squares The door of formula is incomparable.Continuous improvement with present society to heat preservation energy-saving demand, the optimization and upgrading to sliding door It is also a kind of trend.

Summary of the invention

For the deficiency in above-mentioned background technique, the present invention proposes a kind of energy-saving lifting sliding door, solves existing skill The problem of sliding door air-tightness, watertightness, anti-theft performance difference etc. in art.

The technical scheme of the present invention is realized as follows: a kind of energy-saving lifting sliding door system, including doorframe, energy-saving doors The lower part of doorframe is arranged in sill and door leaf, energy saving threshold, and door leaf is matched with doorframe, energy saving threshold respectively, and the doorframe includes Doorframe material, doorframe material is interior to be equipped with bridge-cut-off aluminum lining and filler, and filler is matched with bridge-cut-off aluminum lining, and the inside of doorframe material is equipped with side Side seal profile, side seals profile are matched with door leaf；The door leaf includes sectional, is equipped with closed loop steel lining in sectional, Sectional is equipped with door plate, and sectional is matched with doorframe material, energy saving threshold respectively.

The energy conservation threshold includes main sill profile and subsill profile, and main sill profile is connected by connection section bar with subsill profile Connect, filler be equipped in connection section bar, main sill profile is matched with sectional, main sill profile and subsill profile with doorframe material phase Cooperation, subsill profile are equipped with pedal.

The top of the subsill profile is slope surface, and the top of slope surface is equipped with the second card slot, and the side of main sill profile is equipped with the One card slot, pedal are equipped with the first strip and the second strip, and the first strip is matched with the first card slot, the second strip and the second card Slot matches.

Gradient θ=2 ° ~ 6 ° of subsill profile top slope surface.

It is equipped with upper groove and lower groove in the sectional, special-shaped cavity, closed loop steel are equipped between upper groove and lower groove Lining be located in special-shaped cavity and with special-shaped cavity mates；Third card slot, third card slot are equipped on the cell wall of upper groove two sides In be equipped with the first sealing joint strip, the lower part of lower groove is equipped with the 4th card slot, is equipped with the second sealing joint strip in the 4th card slot.

The main sill profile is equipped at least one lower guideway, and lower guideway connects with the second sealing joint strip of sectional lower part Touching.

The doorframe material includes two side profiles and a upper sectional material, the rectangle of side profile and upper sectional material composition bottom opening Doorframe；The lower part of upper sectional material is equipped at least one upper rail, and upper rail connects with second sealing joint strip on sectional top Touching.

The cross section of the upper rail be inverted T-shaped or I-shaped, second sealing joint strip on sectional top respectively with above lead The two sides of rail match.

The door plate is located in upper groove and is in contact with the first sealing joint strip.

Lifting sliding door of the present invention is designed using two-orbit, and doorframe uses multi-chamber doorframe, have efficient heat preservation, every Heat, sound insulation value are equipped with bridge-cut-off aluminum lining in doorframe and reinforce, while guaranteeing heat preservation, heat-insulated, sound insulation value, increment type Material intensity, anti-theft performance greatly improve.Sectional is similarly multiple chamber design, and it is consistent with doorframe to be allowed to performance, sectional The interior closed loop steel lining that is equipped with is reinforced, and the intensity of single unit system is improved.For the airtight water seal for guaranteeing lifting sliding door, all nodes Place is equipped with adhesive tape contact sealing, uses dedicated low friction adhesive tape at Frictional Slipping, reduces resistance.Upper rail is using up-narrow and down-wide Formula design, sealing joint strip can effectively be contacted with track when sliding door leaf locking falls, and ensure that effective airtight water-tight function. The present invention is ingenious in design, and thermal insulation property and leakproofness are greatly improved than existing lifting sliding door, is that the one of sliding door is big Innovation, increases the scope of application of sliding door, energy conservation and environmental protection, promotional value with higher.

Detailed description of the invention

In order to illustrate the embodiments of the present invention more clearly, attached drawing needed in describing below to embodiment makees letter Singly introduce, it should be apparent that, drawings in the following description are only some embodiments of the invention, skill common for this field For art personnel, without creative efforts, it is also possible to obtain other drawings based on these drawings.

Fig. 1 is the whole sample corner structure schematic diagram of the present invention.

Fig. 2 is the energy saving threshold of the present invention and door leaf connecting structure schematic diagram.

Fig. 3 is partial enlarged view at A in Fig. 2.

Fig. 4 is upper sectional material of the present invention and door leaf connecting structure schematic diagram.

Fig. 5 is partial enlarged view at B in Fig. 4.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, those of ordinary skill in the art are obtained every other under that premise of not paying creative labor Embodiment shall fall within the protection scope of the present invention.

As shown in Figure 1-3, embodiment 1, a kind of energy-saving lifting sliding door, including doorframe 1, energy saving threshold 2 and door leaf 3, Energy saving threshold 2 is arranged in the lower part of doorframe 1, and door leaf 3 is matched with doorframe 1, energy saving threshold 2 respectively, door leaf setting doorframe it Between, it is ensured that leakproofness.Lifting sliding door decoration design cover board, capping, edge sealing sectional material, optimize product appearance.The door Frame 1 includes doorframe material 1-1, and bridge-cut-off aluminum is equipped in doorframe material 1-1 and serves as a contrast 1-2 and filler 1-3, it is multi-chamber aluminium that bridge-cut-off aluminum, which serves as a contrast 1-2, Lining increases doorframe intensity, and bridge-cut-off aluminum serves as a contrast 1-2 points as left aluminium lining and right aluminium lining, and filler is located between left aluminium lining and right aluminium lining, fills out It fills object 1-3 to match with bridge-cut-off aluminum lining 1-2, it is ensured that leakproofness.The inside of doorframe material 1-1 is equipped with side seals profile 1-4, side Seal profile 1-4 is matched with door leaf 3, when door leaf is slided towards doorframe, is prevented door leaf from colliding with doorframe, is played buffering And sealing function.The door leaf 3 includes sectional 3-1, is equipped with closed loop steel lining 3-2, closed loop steel lining and sectional in sectional 3-1 It is fitted close, enhances the intensity of sectional.Sectional 3-1 be equipped with door plate 3-3, sectional 3-1 respectively with doorframe material 1- 1, energy saving threshold 2 matches, and composition is sealed, intensity is high, energy-saving and environment-friendly push-and-pull door system.

Further, the energy saving threshold 2 includes that main sill profile 2-1 and subsill profile 2-2, main sill profile 2-1 pass through connection Profile 2-3 is connected with subsill profile 2-2, and the two sides of connection section bar 2-3 are fastened with main sill profile 2-1, subsill profile 2-2 respectively Together, the bottom surface of main sill profile 2-1 and the bottom surface of subsill profile 2-2 are located in the same horizontal plane, and are equipped in connection section bar 2-3 Filler 1-3, filler 1-3 use low heat transfer coefficient material, and polyurethane foam can be used.Main sill profile 2-1 and sectional 3-1 It matches, the top of main sill profile 2-1 is matched with the lower part of sectional 3-1, is used to support sectional, and sectional can be along main sill Profile sliding.Main sill profile 2-1 and subsill profile 2-2 are matched with doorframe material 1-1, are used to support doorframe material.Subsill profile 2-2 is equipped with pedal 2-4, and pedal is matched with subsill profile.The top of the subsill profile 2-2 is slope surface, the top of slope surface Side equipped with the second card slot 2-5, main sill profile 2-1 is equipped with the first card slot 2-6, and pedal 2-4 is equipped with the first strip 2-7 and the Two strip 2-8, the first strip 2-7 are located in the first card slot 2-6 and match with the first card slot 2-6, and the second strip 2-8 is located at the It is matched in two draw-in groove 2-5 and with the second card slot 2-5, is used for fixed pedestal, pedal is made to match with the subsill profile gradient.It is described Gradient θ=2 ° of the top subsill profile 2-2 slope surface, 4 °, one of 6 °.

Embodiment 2, a kind of energy-saving lifting sliding door, gradient θ=5 ° of the top subsill profile 2-2 slope surface；Sectional It is equipped with upper groove 3-4 and lower groove 3-5 in 3-1, special-shaped cavity 3-6, special-shaped cavity are equipped between upper groove 3-4 and lower groove 3-5 The cross section of body is inverted L-shaped, and closed loop steel lining 3-2 is located in special-shaped cavity 3-6 and matches with special-shaped cavity 3-6, i.e. closed loop steel The cross section for serving as a contrast 3-2 is the sealing ring of inverted L-shaped, improves the whole cavity of sectional.It is equipped on the cell wall of the two sides upper groove 3-4 The first sealing joint strip 3-8 is arranged in third card slot 3-7, third card slot 3-7, the lower part of lower groove 3-5 is symmetrically arranged with the 4th card The second sealing joint strip 3-10, the first sealing joint strip 3-8 and the second sealing joint strip 3-10 are arranged in slot 3-9, the 4th card slot 3-9 The leakproofness for improving node is set, and energy conservation and environmental protection improves the heat insulating ability of door.

Further, the main sill profile 2-1 is equipped under at least one lower guideway 2-9, lower guideway 2-9 and sectional 3-1 The second sealing joint strip 3-10 in portion is in contact；Sectional 3-1 can be slided along lower guideway, realize its push pull maneuver.Lower guideway is group It is box-like, it can be combined to single track, the modes such as two-orbit meet biparting single push-and-pull of lifting sliding door, biparting push-and-pull, and three fans push and pull, The sliding door of the various structures such as four fan push-and-pulls, can match the hardware of a variety of producers.

Other structures are same as Example 1.

As illustrated in figures 4-5, embodiment 3, a kind of energy-saving lifting sliding door, the doorframe material 1-1 include two side profiles 101 and a upper sectional material 102, side profile 101 and upper sectional material 102 form the rectangle doorframe of bottom opening；Side profile 101 divides It is not matched with the two sides of sectional, the lower part of upper sectional material 102 is equipped at least one upper rail 1-5, and the quantity of upper rail is under The quantity of guide rail is identical, and assemblied guide rail can be used.The second sealing joint strip 3-10 phase on the top upper rail 1-5 and sectional 3-1 Contact.Sectional 3-1 can be slided along upper rail, realize its push pull maneuver.

Further, the cross section of the upper rail 1-5 is inverted T-shaped or I-shaped, and upper rail 1-5 is set using up-narrow and down-wide formula Meter, sealing joint strip can effectively be contacted with track when sliding door leaf locking falls, and ensure that effective airtight water-tight function.Fan type The second sealing joint strip 3-10 on the top material 3-1 is matched with the two sides of upper rail 1-5 respectively.The door plate 3-3 is located at upper It is in contact in groove 3-4 and with the first sealing joint strip 3-8, improves the tightness of door plate and sectional, improve heat preservation, sound insulation effect Fruit.

Other structures are same as Example 2.

The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all in essence of the invention Within mind and principle, any modification, equivalent replacement, improvement and so on be should all be included in the protection scope of the present invention.

Claims (9)

1. a kind of energy-saving lifting sliding door, including doorframe (1), energy saving threshold (2) and door leaf (3), energy saving threshold (2) setting exist The lower part of doorframe (1), door leaf (3) are matched with doorframe (1), energy saving threshold (2) respectively, it is characterised in that: doorframe (1) packet It includes doorframe material (1-1), bridge-cut-off aluminum lining (1-2) and filler (1-3), filler (1-3) and bridge-cut-off aluminum is equipped in doorframe material (1-1) Lining (1-2) matches, and the inside of doorframe material (1-1) is equipped with side seals profile (1-4), side seals profile (1-4) and door leaf (3) it matches；The door leaf (3) includes sectional (3-1), is equipped with closed loop steel lining (3-2) in sectional (3-1), sectional (3- 1) it is equipped with door plate (3-3), sectional (3-1) is matched with doorframe material (1-1), energy saving threshold (2) respectively.

2. energy-saving lifting sliding door according to claim 1, it is characterised in that: the energy conservation threshold (2) includes main sill Profile (2-1) and subsill profile (2-2), main sill profile (2-1) are connected by connection section bar (2-3) with subsill profile (2-2), It is equipped with filler (1-3) in connection section bar (2-3), main sill profile (2-1) matches with sectional (3-1), main sill profile (2-1) It is matched with doorframe material (1-1) with subsill profile (2-2), subsill profile (2-2) is equipped with pedal (2-4).

3. energy-saving lifting sliding door according to claim 2, it is characterised in that: the top of the subsill profile (2-2) Top for slope surface, slope surface is equipped with the second card slot (2-5), and the side of main sill profile (2-1) is equipped with the first card slot (2-6), pedal (2-4) is equipped with the first strip (2-7) and the second strip (2-8), and the first strip (2-7) is matched with the first card slot (2-6), the Two strips (2-8) are matched with the second card slot (2-5).

4. energy-saving lifting sliding door according to claim 3, it is characterised in that: subsill profile (2-2) the top slope Gradient θ=2 ° ~ 6 ° in face.

5. described in any item energy-saving lifting sliding doors according to claim 1 ~ 4, it is characterised in that: the sectional (3-1) It is interior to be equipped with upper groove (3-4) and lower groove (3-5), special-shaped cavity (3-6) is equipped between upper groove (3-4) and lower groove (3-5), Closed loop steel lining (3-2) is located in special-shaped cavity (3-6) and matches with special-shaped cavity (3-6)；The cell wall of the two sides upper groove (3-4) On be equipped with third card slot (3-7), in third card slot (3-7) be equipped with the first sealing joint strip (3-8), the lower part of lower groove (3-5) Equipped with the 4th card slot (3-9), the second sealing joint strip (3-10) is equipped in the 4th card slot (3-9).

6. energy-saving lifting sliding door according to claim 5, it is characterised in that: the main sill profile (2-1) is equipped with At least one lower guideway (2-9), lower guideway (2-9) are in contact with second sealing joint strip (3-10) of the lower part sectional (3-1).

7. energy-saving lifting sliding door according to claim 5 or 6, it is characterised in that: the doorframe material (1-1) includes two A side profile (101) and a upper sectional material (102), the rectangle doorframe of side profile (101) and upper sectional material (102) composition bottom opening Profile；The lower part of upper sectional material (102) is equipped at least one upper rail (1-5), upper rail (1-5) and the top sectional (3-1) Second sealing joint strip (3-10) is in contact.

8. energy-saving lifting sliding door according to claim 7, it is characterised in that: the cross section of the upper rail (1-5) For inverted T-shaped or I-shaped, second sealing joint strip (3-10) on the top sectional (3-1) two sides with upper rail (1-5) respectively It matches.

9. energy-saving lifting sliding door according to claim 8, it is characterised in that: the door plate (3-3) is located at fovea superior It is in contact in slot (3-4) and with the first sealing joint strip (3-8).