CN215056416U - Gliding track section bar of energy-saving heat-preservation bridge-cut-off aluminum sliding window - Google Patents

Abstract

The utility model discloses a gliding rail section bar of energy-conserving heat preservation bridge cut-off aluminium push-and-pull aluminium window, including bridge cut-off aluminium glide slope section bar, the top of bridge cut-off aluminium glide slope section bar is connected with the bridge cut-off sliding sash, from last to being equipped with cavity glass, glass cushion, the thermal-insulated chamber of section bar and being used for the slide rail that the push-and-pull pulley removed down in proper order in the bridge cut-off sliding sash, it is fixed through fan glass adhesive tape between bridge cut-off sliding sash and the cavity glass, the glide slope of slide rail is umbrella type slide rail glide slope, and the push-and-pull pulley is umbrella type pulley, umbrella type slide rail glide slope bottom supports through the center pillar wall, forms two direction slide rails that bear the interior outer fan of sliding sash, is equipped with the sealed brush strip that makes bridge cut-off sliding sash frame and a pair of relative brush strip seal groove of slide rail both sides face friction in every direction slide rail bottom inboard. The utility model provides an among the prior art have potential safety hazard, guidance quality poor and the easy impaired problem in aluminum product surface. The utility model discloses the guidance quality is good, bearing nature is good and open a fan anti-drop.

Description

Gliding track section bar of energy-saving heat-preservation bridge-cut-off aluminum sliding window

Technical Field

The utility model belongs to energy-conserving building door frame field, concretely relates to glide slope section bar of building energy-saving heat preservation bridge cut-off aluminum alloy austral window, sliding sash.

Background

In order to implement national construction energy-saving policies, the construction doors and windows in China are gradually updated from large, medium and small cities, and the energy-saving heat-preservation bridge-cut-off aluminum doors and windows are widely applied to the development and construction of houses in cities.

The structure of the lower slideway slide rail section bar of the existing common bridge cut-off sliding aluminum window (as shown in figure 3) has the following defects:

(1) the lower slideway slide rail is cylindrical, is lapped with the lower slide rail by a pulley of the sliding sash, has small lapping amount and is cambered lapping, and hard particles are blocked in the moving process of the sliding sash to easily cause the pulley to derail, so that the sliding sash falls downstairs to cause safety accidents.

(2) The sliding window in China is large in size and heavy in weight, and the lower slideway slide rail is cylindrical and small in width, so that poor guidance performance is often caused to be unfavorable for opening and moving.

(3) The sealing wool tops of the sliding sash and the lower slideway are in friction sealing with the upper plane of the lower slideway, so that sand storm is large in northern areas of China, dust particles often fall on the upper surface, and the wool tops and the friction surface have friction of the dust particles, so that the surfaces of the wool tops and the aluminum profiles are easy to damage.

Disclosure of Invention

In order to overcome the defect that potential safety hazard, guidance quality are poor and the aluminum product surface is easy to be damaged among the prior art, the utility model provides a glide slope section bar of energy-conserving heat preservation bridge cut-off aluminum alloy austral window, sliding sash of building that guidance quality is good, bearing capacity is good and open a fan anti-drop.

The utility model discloses a realize that the technical scheme that above-mentioned purpose adopted is:

the top of the broken bridge aluminum downslide section is connected with a broken bridge sliding sash, hollow glass, a glass cushion block, a section heat insulation cavity with a heat insulation strip and a sliding rail for sliding a sliding pulley to move are sequentially arranged in the broken bridge sliding sash from top to bottom, the broken bridge sliding sash and the hollow glass are fixed through sash glass adhesive tapes, the downslide of the sliding rail is an umbrella-shaped sliding rail downslide, the sliding pulley is an umbrella-shaped sliding rail, the bottom of the umbrella-shaped sliding rail downslide is supported through a middle column wall to form two guide sliding rails for bearing the inner sash and the outer sash of the sliding sash, and a pair of opposite bristle sealing grooves for enabling sealing bristle strips of a broken bridge sliding sash frame to rub with two side faces of the sliding rail are arranged on the inner side of the bottom of each guide sliding rail.

Furthermore, the upper surface of the lower slideway of the umbrella-shaped slide rail is provided with an umbrella-shaped bulge, the lower surface of the lower slideway of the umbrella-shaped slide rail is provided with a rectangular bulge, the bottom of the rectangular bulge is supported by the wall of the central column, and sealing brush strips are respectively arranged between the two outer sides of the rectangular bulge and the bridge cutoff sliding sash.

Preferably, the wool top sealing groove is a pair of U-shaped clamping grooves which are opposite up and down and are arranged on the inner wall of the bottom of the bridge-cut-off sliding sash, and the distance between the U-shaped clamping grooves is adapted to the height of the outer side of the sealing wool brush strip.

Furthermore, a lower slide inner and outer section heat insulation groove is arranged between the two guide slide rails.

Furthermore, a lower air blocking block is embedded in the heat insulation groove of the inner and outer sectional materials of the lower slideway.

The utility model discloses structural design to bridge cut-off austral window, sliding sash glide slope section bar increases the width height of glide slope down, adopts umbrella type pulley to support and removes the bridge cut-off sliding sash, makes the sealed position of sealed brush strip and the both sides face of umbrella type slide rail sealed, makes the lower wing limit and the overlap joint of slide rail both sides face of sliding sash simultaneously, has increased guarantee anti-drop's overlap joint volume.

Two convex structures with cavities, the upper surfaces of which are umbrella-shaped and the lower surfaces of which are rectangular are additionally arranged on the upper surfaces of the push-pull lower sliding ways, and a lower middle column wall is used for supporting to form two guide sliding rails for bearing the inner sash and the outer sash of the push-pull sash; two wool top sealing grooves of each sliding sash are designed to face the sliding rail, so that wool top sealing of the sash is in friction with two side faces of the sliding rail; the umbrella-shaped pulley of the standard model of a hardware manufacturer is selected, so that a technical structure system with good guidance, good bearing performance and falling prevention when a fan is opened is formed.

The umbrella-shaped slideway bridge-cut-off sliding window with the structure does not increase the technical process in the aspect of processing and assembling, does not increase hardware fittings, and also solves the problem of preventing the sliding sash from falling off.

The utility model prevents the drop problem of the sliding sash and solves the danger factor of the sliding sash dropping in the construction site; the corresponding overlapping amount of the fan frame is increased, and the problem of poor guidance of a sliding track of the original common sliding window is solved; the sealing wool tops are in friction sealing at two sides of the sliding rail, and are not in friction on the upward surface of falling dust, so that the service life of the wool tops is prolonged, and the upper surface of the lower sliding rail is protected from being damaged by friction.

Drawings

The invention will be further described with reference to the accompanying drawings, in which:

figure 1 is a schematic view of a sectional elevation of a window of a bridge cut-off push-pull aluminium window.

Fig. 2 is a schematic left sectional view of the glidepath of fig. 1.

Fig. 3 is a left side sectional view of a conventional bridge cut-off aluminum sliding window.

Description of reference numerals: 1. the bridge cutoff aluminum downslide section bar, 2, a sealing brush strip, 3, a push-pull pulley, 4, a heat insulation strip, 5, a bridge cutoff push-pull sash, 6, a glass cushion block, 7, a sash glass adhesive tape, 8, hollow glass, 9, a downslide inner and outer section bar heat insulation groove, 10, a lower wind blocking block, 11, a slide rail, 12, a center pillar wall, 13, a wool strip sealing groove, 14, an umbrella-shaped bulge, 15 and a rectangular bulge.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1 to 2, the lower slideway section of the energy-saving heat-preserving bridge-cut-off aluminum sliding window of the present embodiment comprises a bridge-cut-off aluminum lower slideway section 1, the top of the bridge-cutoff aluminum downslide section bar 1 is connected with a bridge-cutoff sliding sash 5, a hollow glass 8, a glass cushion block 6, a section bar heat insulation cavity with a heat insulation strip 4 and a sliding rail 11 for moving a sliding pulley 3 are sequentially arranged in the bridge-cutoff sliding sash 5 from top to bottom, the bridge-cutoff sliding sash 5 and the hollow glass 8 are fixed through a sash glass adhesive tape 7, the lower slideway of the sliding rail 11 is an umbrella-shaped sliding rail lower slideway, the push-pull pulley 3 is an umbrella-shaped pulley, the bottom of the umbrella-shaped sliding rail lower slideway is supported by a middle column wall 12 to form two guide sliding rails 11 for bearing the inner sash and the outer sash of the sliding sash, a pair of opposite wool top sealing grooves 13 which enable the sealing wool top 2 of the sash frame of the bridge cut-off sliding sash to rub with two side surfaces of each sliding rail 11 are arranged on the inner side of the bottom of each guiding sliding rail 11.

Furthermore, an umbrella-shaped bulge 14 is arranged on the upper surface of the lower slideway of the umbrella-shaped slide rail, a rectangular bulge 15 is arranged on the lower surface of the lower slideway of the umbrella-shaped slide rail, the bottom of the rectangular bulge 15 is supported by a middle column wall 12, and sealing brush strips 2 are respectively arranged between the two outer sides of the rectangular bulge 16 and the bridge-cutoff sliding sash 5.

Preferably, the bristle bar sealing groove 13 is a pair of vertically opposite U-shaped clamping grooves formed in the inner wall of the bottom of the bridge-cut-off sliding sash 5, and the distance between the U-shaped clamping grooves is adapted to the height of the outer side of the sealing bristle bar 2.

Further, a lower slide inner and outer section heat insulation groove 9 is arranged between the two guide slide rails 11.

Furthermore, a lower air blocking block 10 is embedded in the heat insulation groove 9 of the inner and outer section materials of the lower slideway.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The lower slideway section bar of the energy-saving heat-preservation bridge-cutoff aluminum sliding aluminum window comprises a bridge-cutoff aluminum lower slideway section bar, wherein the top of the bridge-cutoff aluminum lower slideway section bar is connected with a bridge-cutoff sliding sash, hollow glass, a glass cushion block, a section bar heat insulation cavity with a heat insulation strip and a sliding rail for sliding a sliding pulley are sequentially arranged in the bridge-cutoff sliding sash from top to bottom, and the bridge-cutoff sliding sash and the hollow glass are fixed through sash glass adhesive tapes.

2. The energy-saving heat-preserving bridge-cut-off aluminum sliding window glider sectional material according to claim 1, wherein an umbrella-shaped bulge is arranged on the upper surface of the umbrella-shaped slideway, a rectangular bulge is arranged on the lower surface of the umbrella-shaped slideway, the bottom of the rectangular bulge is supported by a center pillar wall, and sealing brush strips are respectively arranged between the two outer sides of the rectangular bulge and the bridge-cut-off sliding sash.

3. The energy-saving heat-insulating bridge-cut-off aluminum push-pull aluminum window glider sectional material according to any one of claims 1 to 2, wherein the wool top sealing groove is a pair of vertically opposite U-shaped clamping grooves arranged on the inner wall of the bottom of the bridge-cut-off push-pull sash, and the distance between the U-shaped clamping grooves is adapted to the height of the outer side of the sealing wool top.

4. The energy-saving heat-insulating bridge-cut-off aluminum sliding window lower slideway profile according to any one of claims 1 to 2, wherein a lower slideway inner and outer profile heat insulation groove is arranged between the two guide sliding rails.

5. The lower slideway section bar of an energy-saving heat-insulating bridge-cut-off aluminum push-pull aluminum window as claimed in claim 4, wherein a lower wind-blocking block is embedded in a heat-insulating groove of the inner and outer section bars of the lower slideway.

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