CN205876007U - Prevent wind slide rail under waterproof energy -conserving sliding door - Google Patents

Abstract

The utility model discloses a prevent wind slide rail under waterproof energy -conserving sliding door, including the vertical aluminium alloy ex -trusions of indoor side, horizontal aluminium alloy ex -trusions, be equipped with slide rail section bar under inboard slide rail section bar down and the outside in horizontal aluminium alloy ex -trusions upper end, and inboard slide rail section bar down is higher than outside slide rail section bar down, inboard slide rail section bar down is from last to embedding the groove including inboard C type slide rail section bar, first the drainage channel of several who is equipped with and inboard wool top down below inboard C type slide rail section bar, the outside down the slide rail section bar from last to saying the built -in groove of drainage channel and outside wool top including outside C type slide rail section bar, the several second that is equipped with in outside C type slide rail section bar below down. The utility model discloses simple structure, convenient to use, with low costs, guaranteed original sliding windows structure and water proofness performance, improved greatly the austral window, sliding sash the anti -wind piezotropy can, watertightness - performance and gas tightness ability.

Description

A kind of energy-saving sliding door and window glidepath of wind and water preventing

Technical field

This utility model relates to building field, particularly relates to a kind of sliding door and window, is specifically related to one and applies at sliding door The energy-saving sliding door and window glidepath of the wind and water preventing on window.

Background technology

Sliding window has the advantage preventing take up the interior space, and beautiful appearance, price economy, sealing are preferable.Use top grade sliding Rail, one pushes away gently, opens flexibly.Mix the glass of bulk, both increased the daylighting of indoor, and improved again the overall pattern of building. The stress of sash is good, be hardly damaged.

In Hainan Region and other cities coastal, tropical storm and typhoon frequently occur, the watertight of its tradition sliding window Property, air-tightness does not reaches building doors and windows specification for curtain wall requirement.Under high wind, heavy rain effect, its lower railway rainwater can be at strong wind Spilling over indoor under effect, under strong wind action, lower railway is airtight the most sternly can produce the biggest noise and dust.

Utility model content

The purpose of this utility model is to provide a kind of simple in construction, easy to use, low cost, ensure that original sliding window Structure and watertightness performance, substantially increase the wind and water preventing of the resisting wind press capacity of sliding window, watertightness performance and air-tightness Energy-saving sliding door and window glidepath.

To achieve these goals, the technical solution of the utility model is: provide the energy-saving sliding door of a kind of wind and water preventing Window glidepath, horizontal with what the indoor vertical integral type of longitudinal direction aluminium alloy extrusions was connected including indoor longitudinal direction aluminium alloy extrusions Aluminium alloy extrusions, wherein, is provided with inner-side lower sliding rail section bar and outside lower sliding rail profile, and inner side in horizontal aluminium alloy extrusions upper end Lower sliding rail profile be higher than outside lower sliding rail profile, described inner-side lower sliding rail section bar include from top to bottom inner side c-type slide rail section, The several first drainage channels being provided with below the c-type slide rail section of inner side and the built-in groove of inner side wool top；Described outside glidepath Section bar includes that outside c-type slide rail section, several second drainings of being provided with below the c-type slide rail section of outside are led to from top to bottom Road and the built-in groove of outside wool top.

Further, described inner side c-type slide rail section, first drainage channel, the built-in groove of inner side wool top are the most right The outside c-type slide rail section answered, second drainage channel, the built-in groove of outside wool top.

Further, several only pomphus it is interval with between described inner-side lower sliding rail section bar and outside lower sliding rail profile.

Further, longitudinal direction aluminium alloy extrusions upper end, described indoor is provided with reinforcement water retaining ribs.

The energy-saving sliding door and window glidepath of this utility model wind and water preventing has a following beneficial effect:

1, the energy-saving sliding door and window glidepath simple in construction of this utility model wind and water preventing, easy to use, low cost；

2, the energy-saving sliding door and window glidepath of this utility model wind and water preventing uses low inside and high outside glidepath structure, wind resistance Performance and water resistance are more preferable.

3, the energy-saving sliding door and window glidepath of this utility model wind and water preventing uses c-type slide rail supporting construction, c-type structure shape The dashpot become, limits climbing of rainwater, increases the resistance of water, wind-force and rainwater all play the effect of buffering.

4, the energy-saving sliding door and window glidepath of this utility model wind and water preventing uses twice drainage channel, and inner side draining is led to Road is higher than the drainage channel in outside so that indoor rainwater is discharged smoothly, can effectively stop again the rainwater of outdoor to climb Enter indoor.

5, the longitudinal direction aluminium alloy extrusions upper end, indoor of the energy-saving sliding door and window glidepath of this utility model wind and water preventing sets There is reinforcement water retaining ribs, it is ensured that this utility model is unlikely to deform, the effect of dash can be played again.

Accompanying drawing explanation

Fig. 1 is the overall structure schematic diagram after the energy-saving sliding door and window glidepath installation of this utility model wind and water preventing；

Fig. 2 is the structural representation of the energy-saving sliding door and window glidepath of this utility model wind and water preventing；

Fig. 3 is the interior lower sectional bar structure of the energy-saving sliding door and window glidepath Matching installation with this utility model wind and water preventing Schematic diagram；

Fig. 4 is the outer lower side profile structure of the energy-saving sliding door and window glidepath Matching installation with this utility model wind and water preventing Schematic diagram；

In figure: 1, lower sliding rail profile；2, water retaining ribs is strengthened；3, inner side c-type slide rail section；4, inner side dashpot；5, first Road drainage channel；6, the built-in groove of inner side wool top；7, outside c-type slide rail section；8, second drainage channel；9, outside wool top is built-in Groove；10, interior lower sectional bar；11, outer lower side section bar；12, sister block；13, pomphus is stopped；14, horizontal aluminium alloy extrusions；15, plectrum Silication wool top.

Detailed description of the invention

In order to describe the technology contents of the energy-saving sliding door and window glidepath of this utility model wind and water preventing, structure spy in detail Levy, below in conjunction with embodiment and coordinate accompanying drawing to be described further.

As in figure 2 it is shown, the energy-saving sliding door and window glidepath of this utility model wind and water preventing, including indoor longitudinal direction aluminium alloy The horizontal aluminium alloy extrusions 14 that section bar is connected with the indoor vertical integral type of longitudinal direction aluminium alloy extrusions, at horizontal aluminium alloy extrusions 14 upper ends are provided with inner-side lower sliding rail section bar and outside lower sliding rail profile, and inner-side lower sliding rail section bar is higher than outside lower sliding rail profile, Using low inside and high outside glidepath structure, wind resistance and water resistance are more preferable.

Described inner-side lower sliding rail section bar includes inner side c-type slide rail section 3, from top to bottom below inner side c-type slide rail section 3 The several first drainage channels 5 being provided with and the built-in groove of inner side wool top 6；Described outside lower sliding rail profile includes from top to bottom Outside c-type slide rail section 7, the several second drainage channels 8 being provided with below outside c-type slide rail section 7 and outside wool top Built-in groove 9.Inner side c-type slide rail section 3, first drainage channel 5, outside c-type corresponding to the built-in groove of inner side wool top 6 Slide rail section 7, second drainage channel 8, the built-in groove of outside wool top 9.Dashpot 4 inside the c-type slide rail section structure formation of inner side, Dashpot outside the c-type slide rail section section bar of outside, uses c-type slide rail supporting construction, and two low inside and high outside dashpots limit Climbing of rainwater, increases the resistance of water, wind-force and rainwater all plays the effect of buffering.Use twice drainage channel, and inner side Drainage channel is higher than the drainage channel in outside so that indoor rainwater is discharged smoothly, can effectively stop again the rain of outdoor Water climbs and enters indoor.

Longitudinal direction aluminium alloy extrusions upper end, described indoor is provided with reinforcement water retaining ribs 2, strengthens water retaining ribs 2 and guarantees this utility model It is unlikely to deform, the effect of dash can be played again.

As shown in Figure 1,2,3, 4, the energy-saving sliding door and window glidepath of this utility model wind and water preventing and interior lower sectional bar 10, Outer lower side section bar 11 and sister block 12 are installed and used.Rustless steel sister block is installed on interior lower sectional bar 10 and outer lower side section bar 11 In, and by set screw regulation height.After installation, interior lower sectional bar 10, outer lower side section bar 11 correspondence and inner-side lower sliding respectively Wear silication wool top in rail section bar and lower sliding rail profile junction, outside notch to seal, simultaneously at the built-in groove of inner side wool top 6, outside hair Elongated threading plastics plectrum silication wool top 15 in bar built-in groove 9 notch, between inner-side lower sliding rail section bar and outside lower sliding rail profile It is interval with several only pomphus 13.The energy-saving sliding door and window glidepath of this utility model wind and water preventing uses many places to seal, significantly Improve the resisting wind press capacity of sliding window, watertightness performance and air-tightness.

Above disclosed only preferred embodiment of the present utility model, can not limit this practicality with this new certainly The interest field of type, the equivalent variations therefore made according to this utility model claim, still fall within what this utility model was contained Scope.

Claims (4)

1. an energy-saving sliding door and window glidepath for wind and water preventing, longitudinal including indoor longitudinal direction aluminium alloy extrusions and indoor Aluminium alloy extrusions horizontal aluminium alloy extrusions connected vertically, it is characterised in that: under horizontal aluminium alloy extrusions upper end is provided with inner side Slide rail section and outside lower sliding rail profile, and inner-side lower sliding rail section bar is higher than outside lower sliding rail profile, described inner-side lower sliding rail type Material include from top to bottom inner side c-type slide rail section, the several first drainage channels being provided with below the c-type slide rail section of inner side, And the built-in groove of inner side wool top；Described outside lower sliding rail profile includes outside c-type slide rail section from top to bottom, slides in outside c-type The several second drainage channels being provided with below rail section bar and the built-in groove of outside wool top.

2. the energy-saving sliding door and window glidepath of wind and water preventing as claimed in claim 1, it is characterised in that: described inner side c-type is sliding Rail section bar, first drainage channel, the built-in groove of inner side wool top respectively higher than the outside c-type slide rail section of correspondence, second draining Passage, the built-in groove of outside wool top.

3. the energy-saving sliding door and window glidepath of wind and water preventing as claimed in claim 1, it is characterised in that: described inner-side lower sliding rail Several only pomphus it is interval with between section bar and outside lower sliding rail profile.

4. the energy-saving sliding door and window glidepath of wind and water preventing as claimed in claim 1, it is characterised in that: described indoor is longitudinally Aluminium alloy extrusions upper end is provided with reinforcement water retaining ribs.