CN115263149A

CN115263149A - Aluminum alloy window structure with exposed frames and hidden frames alternated

Info

Publication number: CN115263149A
Application number: CN202210997054.4A
Authority: CN
Inventors: 王妹; 汤汝铿
Original assignee: Shenzhen Ruiwei Engineering Co ltd
Current assignee: Shenzhen Ruiwei Engineering Co ltd
Priority date: 2022-08-19
Filing date: 2022-08-19
Publication date: 2022-11-01

Abstract

The utility model relates to an aluminium alloy window structure that hidden frame of bright frame was alternated relates to window structure technical field, it contains stand and crossbeam, the crossbeam is provided with a set of perpendicular symmetric distribution in the both sides of stand, stand and crossbeam are "ten" shape structure, be provided with hidden frame on the stand and press the seat, the tip of crossbeam is provided with the bright frame and presses the seat, the bright frame is pressed and is formed with the inserting groove of upper portion and lower part symmetry between seat and two crossbeams respectively, it has glass components to peg graft in the inserting groove, the bright frame is pressed the outside that the seat is located glass components, hidden frame is pressed the inside that the seat is located glass components. The whole aluminum alloy window of this application has certain stereovision, and pleasing to the eye degree is showing and is promoting, has certain product advantage competitiveness, and whole practicality is strong, has great market spreading value.

Description

Aluminum alloy window structure with exposed frames and hidden frames alternated

Technical Field

The application relates to the technical field of window structures, in particular to an aluminum alloy window structure with an exposed frame and a hidden frame alternated.

Background

As is well known, various types of windows are inevitably arranged on various buildings at present, the windows serve as devices for communicating the internal space of the building with the external environment, and the main functions of the windows comprise ventilation, lighting, sound insulation and the like, and people not only require the building to have a home rest, keep out wind and rain, but also have higher and higher requirements on the external aesthetic effect of the building along with the continuous development of social productivity.

In the existing market, the external expression forms of the windows are classified into the exposed frame windows and the hidden frame windows, the exposed frame windows are the windows capable of obviously distinguishing the window frames from the outside of the building as the name implies, the hidden frame windows are the windows which cannot observe the window frames from the outside of the building, the whole lines of the exposed frame windows protrude to have certain spatial hierarchy, the hidden frame windows are neatly and smoothly displayed as the frames are hidden behind the window glass, and the existing buildings adopt the hidden frame windows or adopt the exposed frame windows in a unified mode. Aiming at the related technologies, the inventor thinks that the whole window body has single aesthetic degree, poor layering and poor product competition by adopting a single hidden frame window or exposed frame window. Therefore, how to design an aluminum alloy window with an exposed frame and a hidden frame which are alternated to improve the layering and the attractiveness of the whole window body and form certain product competitiveness is a problem to be solved by the technical personnel in the field.

Disclosure of Invention

In order to improve present window and adopt single hidden frame window or bright frame window, pleasing to the eye degree relatively poor and product competition in the problem of disadvantage, the purpose of this application is to provide an aluminum alloy window structure that hidden frame of bright frame is alternative.

The application provides an aluminum alloy window structure that hidden frame of bright frame was alternated adopts following technical scheme:

the utility model provides an aluminium alloy window structure of latent frame in bright frame is alternative, contains stand and crossbeam, the crossbeam is provided with a set of perpendicular symmetric distribution and is in the both sides of stand, stand and crossbeam are "ten" shape structure, be provided with latent frame on the stand and press the seat, the tip of crossbeam is provided with the bright frame and presses the seat, bright frame presses seat and two be formed with the inserting groove of upper portion and lower part symmetry respectively between the crossbeam, it has glass components to peg graft in the inserting groove, bright frame presses the outside that the seat is located glass components, latent frame presses the inside that the seat is located glass components.

Through adopting above-mentioned technical scheme, the bright frame presses the outside that the seat is located glass subassembly for whole aluminum alloy window installation is accomplished the back, the window appearance that the seat was pressed to the bright frame of differentiation that can be obvious from the building outside, the hidden frame presses the inside that the seat is located glass subassembly simultaneously, can not observe the window appearance that the seat was pressed to the hidden frame from the building outside, the hidden frame alternating aluminum alloy window that forms through this integrated configuration from this, make whole aluminum alloy window have certain stereovision, pleasing to the eye degree is showing and is promoting, certain product advantage competitiveness has.

Optionally, a set of sliding rods is arranged on the upright post, and a sliding groove matched with the sliding rods is arranged on the hidden frame pressing seat.

Through adopting above-mentioned technical scheme, hidden frame presses the seat to pass through the spout sliding connection on the slide bar of stand, can effectively fix the position installation that hidden frame pressed the seat, and process mounting structure is simple.

Optionally, a first clearance cavity is arranged on the hidden frame pressing seat, and a fixed-distance pressing block is inserted into the first clearance cavity.

Through adopting above-mentioned technical scheme, through inserting the distance briquetting in first clearance holds the chamber for latent frame pressure seat installation stability is stronger, and the structure is firm.

Optionally, a first buckle cover is inserted into the cross beam, a second gap containing cavity is formed between the first buckle cover and the cross beam, a connection angle aluminum is inserted into the end of the second gap containing cavity, faces the upright column, and is connected with the upright column through a through screw.

Through adopting above-mentioned technical scheme, connect angle aluminium and insert and establish in second clearance holds the intracavity for support whole crossbeam, connect angle aluminium through to wearing screw rod fixed connection on the stand, realize that two crossbeams stabilize and install in the both sides of stand, form the stable frame who is used for inlaying glass assembly.

Optionally, an anti-corrosion gasket is arranged between the connection angle aluminum and the upright post.

Through adopting above-mentioned technical scheme, through setting up anticorrosive gasket, the structural stability of angle aluminium installation is connected in the reinforcing, avoids simultaneously that the junction is ageing rusty, improves life.

Optionally, a supporting portion is arranged on one side, facing the exposed frame pressing seat, of the cross beam, a rubber cushion block is arranged between the exposed frame pressing seat and the supporting portion, and the inserting groove is formed by mutual abutting of the exposed frame pressing seat, the supporting portion and the cross beam.

Through adopting above-mentioned technical scheme, through setting up the bearing portion for the whole weight of support glass subassembly carries out effectual spacing through the bright frame pressure seat and the crossbeam of both sides simultaneously, through setting up the rubber cushion, reduces local rigidity stress, improves glass subassembly's installation stability.

Optionally, a clearance groove is arranged between the supporting parts of the group of cross beams, the clearance groove is located at the position of the hidden frame pressing seat, and glue bars are arranged in the clearance groove along the distribution of the hidden frame pressing seat.

Through adopting above-mentioned technical scheme, through setting up the clearance groove, be convenient for with the installation of glass unit piecemeal, utilize simultaneously to set up gluey stick in the clearance groove for isolated butt stress between every piece of glass prevents that the great production of stress from bursting.

Optionally, the glass assembly comprises inner glass, outer glass and a connecting piece, the connecting piece is arranged between the inner glass and the outer glass and distributed along the inner side edges of the inner glass and the outer glass, the glass assembly is composed of four pieces of glass distributed in an array mode, the four pieces of glass are sequentially embedded in the insertion groove, and a sealant is filled between the glass assembly and the insertion groove.

By adopting the technical scheme, the glass component is combined to form the hollow glass through the inner layer glass and the outer layer glass, so that the glass component has a certain sound insulation effect, and when the glass component is installed in the insertion groove, the joint of the glass component and the insertion groove is filled with the sealant, so that the stable installation of the glass component is realized.

Optionally, the four pieces of glass abut against each other in the gap groove and are isolated from each other by the glue stick.

Through adopting above-mentioned technical scheme, through gluing the isolated every glass of stick, reduce every glass's installation stress, stability is good.

Optionally, a second buckle cover is inserted on one outward side of the exposed frame pressing seat.

Through adopting above-mentioned technical scheme, through setting up the second buckle closure for promote whole bright frame and press the pleasing to the eye degree of seat, press the outside that the seat is located glass components because of bright frame simultaneously, can receive external environment's erosion, the second buckle closure can effectually press the seat to the bright frame and protect.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the exposed frame pressing seat is positioned outside the glass assembly, so that after the whole aluminum alloy window is installed, the appearance of the window of the exposed frame pressing seat can be obviously distinguished from the outside of a building, meanwhile, the hidden frame pressing seat is positioned inside the glass assembly, and the appearance of the window of the hidden frame pressing seat cannot be observed from the outside of the building, so that the whole aluminum alloy window with alternate exposed frames and hidden frames formed by the combined structure has certain layering, the attractiveness is obviously improved, certain product advantage competitiveness is realized, the overall practicability is high, and the market popularization value is high;

2. the connecting angle aluminum is inserted into the second gap containing cavity and used for supporting the whole cross beam, the connecting angle aluminum is fixedly connected to the upright post through the opposite penetrating screw rods, so that the two cross beams are stably installed on two sides of the upright post, and a stable frame for embedding the glass assembly is formed;

3. the supporting part is arranged and used for supporting the whole weight of the glass assembly, effective limiting is carried out through the exposed frame pressing seats and the cross beams on the two sides, and the rubber cushion blocks are arranged, so that the local rigid stress is reduced, and the installation stability of the glass assembly is improved;

4. through setting up the clearance groove, be convenient for with glass subassembly piecemeal installation, utilize simultaneously to set up gluey stick in the clearance groove for isolated butt stress between every piece of glass prevents that the great production of stress from bursting.

Drawings

Fig. 1 is a schematic view of an overall structure of a hidden frame pressing base and a visible frame pressing base in embodiment 1 of the present application;

FIG. 2 is a schematic view corresponding to the exploded structure of FIG. 1;

FIG. 3 is a schematic view of the overall structure of embodiment 1 of the present application;

FIG. 4 is a schematic structural view of a glass assembly according to example 1 of the present application.

Description of reference numerals:

100. a column; 110. a slide bar;

200. a hidden frame pressing seat; 210. a chute; 220. a first clearance pocket; 230. pressing blocks at fixed intervals;

300. a cross beam; 310. a first buckle cover; 320. a second clearance pocket; 330. connecting angle aluminum; 331. oppositely penetrating a screw rod; 340. an anti-corrosion gasket; 350. a bearing part; 360. a clearance groove; 370. glue stick;

400. pressing a base on the exposed frame; 410. a rubber cushion block; 420. a second buckle cover;

500. inserting grooves; 600. a glass component; 610. inner layer glass; 620. outer layer glass; 630. a connecting member.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

Example 1: an aluminum alloy window structure with alternate exposed frames and hidden frames, referring to fig. 1 and fig. 2, comprises a vertical column 100 and a cross beam 300, wherein the cross beam 300 is provided with a group of vertical symmetrical distribution on two sides of the vertical column 100. A first buckle cover 310 is inserted on the cross beam 300, a second gap accommodating cavity 320 is formed between the first buckle cover 310 and the cross beam 300, a connection angle aluminum 330 is inserted at the end of the second gap accommodating cavity 320, and the connection angle aluminum 330 faces the upright 100 and is connected with the upright 100 through a through screw 331. The connection angle aluminum 330 is inserted into the second clearance cavity 320 and is used for supporting the integral cross beam 300, the connection angle aluminum 330 is fixedly connected to the upright post 100 through the opposite threaded rod 331, so that the two cross beams 300 are stably installed on two sides of the upright post 100, and a cross-shaped stable frame for the embedded glass assembly 600 is formed. In order to strengthen the structural stability of connecting angle aluminium 330 installation, avoid the junction to age simultaneously and rust, improve life, be provided with anticorrosive gasket 340 between connecting angle aluminium 330 and the stand 100, to wearing screw 331 to run through anticorrosive gasket 340 in step and be connected with stand 100.

Specifically, the hidden frame pressing seat 200 is arranged on the upright post 100, the hidden frame pressing seat 200 is arranged along the installation direction of the upright post 100, the upright post 100 is provided with a group of sliding rods 110, the hidden frame pressing seat 200 is provided with sliding grooves 210 matched with the sliding rods 110, the hidden frame pressing seat is connected to the sliding rods 110 of the upright post 100 in a sliding mode through the sliding grooves 210, the hidden frame pressing seat 200 can be effectively fixed in position installation, and the installation process is simple in structure. In order to make the hidden frame pressing base 200 have stronger installation stability and stable structure, the hidden frame pressing base 200 is provided with a first clearance cavity 220, a distance pressing block 230 is inserted into the first clearance cavity 220, and the overall structural strength of the hidden frame pressing base 200 is improved through the distance pressing block 230.

Referring to fig. 2 and 3, an exposed frame pressing base 400 is disposed at an end of the hidden frame pressing base 200 at one side of the cross beam 300, insertion grooves 500 are formed between the exposed frame pressing base 400 and the two cross beams 300, the upper portions and the lower portions of the insertion grooves are symmetrical, and a glass assembly 600 is inserted into the insertion grooves 500. One side of the beam 300 facing the exposed frame pressing base 400 is provided with a bearing part 350, a rubber cushion block 410 is arranged between the exposed frame pressing base 400 and the bearing part 350, the bearing part 350 is arranged to support the whole weight of the glass assembly 600, and effective limiting is performed through the exposed frame pressing bases 400 and the beam 300 on two sides. By arranging the rubber pad 410, the local rigid stress is reduced, and the installation stability of the glass assembly 600 is improved. In order to realize the stable installation of the glass assembly 600, a sealant is filled between the glass assembly 600 and the insertion groove 500.

Referring to fig. 1 and 4, a gap groove 360 is disposed between the supporting portions 350 of the set of beams 300, the gap groove 360 is disposed between the hidden frame pressing base 200 and the exposed frame pressing base 400, and glue bars 370 are disposed in the gap groove 360 along the distribution direction of the hidden frame pressing base 200. The glass assembly 600 comprises an inner layer of glass 610, an outer layer of glass 620 and a connecting member 630, wherein the connecting member 630 is disposed between the inner layer of glass 610 and the outer layer of glass 620 and distributed along the inner edges of the inner layer of glass 610 and the outer layer of glass 620. In the present embodiment, the inner glass 610 and the outer glass 620 may be mounted on the connecting member 630 by bonding or embedding, and the fixing manner is not particularly limited in the present embodiment. The glass assembly 600 is formed by combining the inner layer glass 610 and the outer layer glass 620 to form hollow glass, so that the glass assembly 600 has a certain sound insulation effect. The glass assembly 600 is composed of four pieces of glass distributed in an array, and the four pieces of glass are sequentially embedded in the insertion groove 500 and isolated from each other by the glue stick 370. Each piece of glass is isolated through the glue stick 370, the installation stress of each piece of glass is reduced, and the stability is good.

Referring to fig. 1 and 2, since the exposed frame pressing base 400 is disposed outside the glass assembly 600, in order to improve the aesthetic property of the entire exposed frame pressing base 400 and prevent the exposed frame pressing base 400 from being corroded by the external environment, a second buckle cover 420 is inserted into an outward side of the exposed frame pressing base 400.

The implementation principle of the embodiment of the application is as follows: the glass assembly 600 is composed of four pieces of glass distributed in an array, the four pieces of glass are sequentially embedded in the insertion groove 500, the supporting portion 350 of the beam 300 provides an integral supporting force, and the exposed frame pressing base 400 and the beam 300 perform effective edge limiting. When the glass assembly 600 is installed in the inserting groove 500, the exposed frame pressing base 400 is located outside the glass assembly 600, so that the window appearance of the exposed frame pressing base 400 can be clearly distinguished from the outside of a building after the whole aluminum alloy window is installed; meanwhile, the hidden frame pressing base 200 is positioned inside the glass assembly 600, and the window appearance of the hidden frame pressing base 200 cannot be observed from the outside of the building. Through this structure both realized that overall structure should have stability, makeed whole aluminum alloy window have certain stereovision simultaneously, and pleasing to the eye degree is showing and is promoting, has certain product advantage competitiveness, and whole practicality is strong.

The embodiments of the present invention are preferred embodiments of the present application, and the protection scope of the present application is not limited thereby, wherein like parts are denoted by like reference numerals. Therefore, the method comprises the following steps: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. The utility model provides an aluminium alloy window structure of hidden frame alternation of bright frame, contains stand (100) and crossbeam (300), crossbeam (300) are provided with a set of perpendicular symmetric distribution and are in the both sides of stand (100), stand (100) and crossbeam (300) are "ten" shape structure, its characterized in that: the glass component pressing structure is characterized in that hidden frame pressing seats (200) are arranged on the stand columns (100), exposed frame pressing seats (400) are arranged at the end portions of the cross beams (300), inserting grooves (500) with upper portions symmetrical to lower portions are formed between the exposed frame pressing seats (400) and the two cross beams (300), glass components (600) are inserted into the inserting grooves (500), the exposed frame pressing seats (400) are located on the outer portions of the glass components (600), and the hidden frame pressing seats (200) are located inside the glass components (600).

2. The aluminum alloy window structure with the alternating exposed frames and hidden frames as recited in claim 1, wherein: a group of sliding rods (110) are arranged on the upright post (100), and sliding grooves (210) matched with the sliding rods (110) are arranged on the hidden frame pressing base (200).

3. The aluminum alloy window structure with the alternating exposed frames and hidden frames as recited in claim 2, wherein: a first clearance accommodating cavity (220) is formed in the hidden frame pressing seat (200), and a fixed-distance pressing block (230) is inserted into the first clearance accommodating cavity (220).

4. The aluminum alloy window structure with the alternating exposed frames and hidden frames as recited in claim 1, wherein: the cross beam (300) is spliced with a first buckling cover (310), a second gap containing cavity (320) is formed between the first buckling cover (310) and the cross beam (300), a connecting angle aluminum (330) is inserted into the end part of the second gap containing cavity (320), and the connecting angle aluminum (330) faces the upright column (100) and is connected with the upright column (100) through a butt-penetrating screw rod (331).

5. The aluminum alloy window structure with the alternating exposed frames and hidden frames as recited in claim 4, wherein: an anti-corrosion gasket (340) is arranged between the connecting angle aluminum (330) and the upright post (100).

6. The aluminum alloy window structure with the alternating exposed frames and hidden frames as recited in claim 1, wherein: one side of the beam (300) facing the exposed frame pressing seat (400) is provided with a bearing part (350), a rubber cushion block (410) is arranged between the exposed frame pressing seat (400) and the bearing part (350), and the inserting groove (500) is formed by mutually abutting the exposed frame pressing seat (400), the bearing part (350) and the beam (300).

7. The aluminum alloy window structure with the alternating exposed frames and hidden frames as recited in claim 6, wherein: a clearance groove (360) is formed between the bearing parts (350) of the cross beams (300), the clearance groove (360) is located at the position of the hidden frame pressing seat (200), and glue rods (370) are arranged in the clearance groove (360) along the distribution of the hidden frame pressing seat (200).

8. The aluminum alloy window structure with the alternating exposed frames and hidden frames as recited in claim 1, wherein: glass subassembly (600) contain inlayer glass (610), outer glass (620) and connecting piece (630), connecting piece (630) set up between inlayer glass (610) and outer glass (620), and distribute along the inboard edge of inlayer glass (610) and outer glass (620), glass subassembly (600) comprise four pieces of glass that the array distributes, and four pieces of glass are inlayed in proper order in inserting groove (500), glass subassembly (600) with it has sealed glue to fill between inserting groove (500).

9. The aluminum alloy window structure with the alternating open frames and hidden frames as recited in any one of claims 7 to 8, wherein: the four pieces of glass are mutually abutted in the clearance groove (360) and isolated by the glue stick (370).

10. The aluminum alloy window structure with the alternating exposed frames and hidden frames as recited in claim 1, wherein: a second buckle cover (420) is inserted at one outward side of the exposed frame pressing seat (400).