CN220336200U - Energy-saving glass curtain wall with enhanced sealing performance - Google Patents

Abstract

The utility model relates to the technical field of glass curtain walls, in particular to an energy-saving glass curtain wall with enhanced sealing performance. The upper sealing strip arranged on the aluminum product pressing strip and the lower sealing strip arranged on the aluminum product pressing strip can realize further double sealing, and the sealing effect is fully ensured.

Description

Energy-saving glass curtain wall with enhanced sealing performance

Technical Field

The utility model relates to the technical field of glass curtain walls, in particular to an energy-saving glass curtain wall with enhanced sealing performance.

Background

The glass curtain wall is a common building outer elevation decoration, and is a building outer enclosure structure or a decoration structure which does not share the action of the main body structure. When the glass curtain wall is used, the glass curtain wall is directly placed on the aluminum upright post, once excessive rainwater is accumulated in the aluminum upright post during raining, rainwater is easy to invade a room from the spliced part of the aluminum upright post and the four glass curtain walls, water leakage is caused, and an improvement space is provided.

Disclosure of Invention

In order to solve the technical problems, the utility model provides the energy-saving glass curtain wall with enhanced sealing performance.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the energy-saving glass curtain wall with enhanced sealing performance comprises an aluminum bottom strip, energy-saving glass and an aluminum pressing strip, wherein the aluminum pressing strip is used for pressing the energy-saving glass on the aluminum bottom strip; the aluminum bottom strip is of a right-angle U-shaped structure, so that the aluminum bottom strip is provided with two vertical arms and two horizontal arms; the aluminum pressing strip is spliced with the horizontal part of the aluminum bottom strip, and the bottom surface of the aluminum pressing strip is abutted with the top surface of the energy-saving glass; the top surface of the horizontal part of the aluminum bottom strip is provided with a pressing groove with an open top, the bottom surface of the aluminum pressing strip is provided with a pressing block matched with the pressing groove, and the pressing block is inserted into the pressing groove; a groove cavity is formed between the left outer side surface and the right outer side surface of the pressing groove and the inner side of the vertical part of the aluminum bottom strip, and a splicing sealing strip is arranged in the groove cavity.

The outer side surface of the plug-in sealing strip is of a circular structure, or the upper, lower, left and right side surfaces of the plug-in sealing strip are of arc structures.

And a plugging groove is formed in the plugging sealing strip, and a column is inserted into the plugging groove.

The aluminum product layering is located the both sides of briquetting and still is equipped with the backstop boss respectively, and the downside of backstop boss just pegs graft in the cell chamber, when aluminum product layering is pressed and is located energy-conserving glass, energy-conserving glass's end side just joint in the lateral surface of backstop boss.

And when the aluminum product pressing strip is pressed on the energy-saving glass, the lower surface of the upper sealing strip is tightly abutted with the upper surface of the energy-saving glass.

The aluminum product bottom strip is characterized in that an extension table is arranged outside the vertical arm of the aluminum product bottom strip, a lower sealing strip is arranged at the top of the extension table, and when the energy-saving glass is pressed on the aluminum product bottom strip, the upper surface of the upper sealing strip can be tightly abutted to the lower surface of the energy-saving glass.

The pressing block and the pressing groove are fixed through bolts and nuts.

Compared with the prior art, the utility model has the following beneficial effects: according to the energy-saving glass curtain wall with enhanced sealing performance, the splicing sealing strips are arranged between the aluminum upright posts and the aluminum bottom strips, so that the splicing sealing strips can be extruded under the extrusion action of the aluminum upright posts and the aluminum bottom strips during connection, and moisture is prevented from penetrating into the inner side surface of the glass curtain wall along the splicing and gap positions of the aluminum bottom strips and the aluminum bottom strips. The upper sealing strip arranged on the aluminum product pressing strip and the lower sealing strip arranged on the aluminum product pressing strip can realize further double sealing, and the sealing effect is fully ensured.

Drawings

FIG. 1 is a schematic diagram of an axial structure of the present utility model;

FIG. 2 is a schematic diagram of an explosive structure according to the present utility model;

fig. 3 is an enlarged schematic view of the structure at a in fig. 1.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model. The specific meaning of the terms in the present utility model will be understood by those of ordinary skill in the art in specific detail.

The utility model provides an energy-saving glass curtain wall with enhanced sealing performance, which mainly comprises an aluminum bottom strip 1, energy-saving glass 2 and an aluminum pressing strip 3, wherein the aluminum bottom strip 1 and the aluminum pressing strip 3 are of cross structures, the aluminum bottom strip 1 is used for supporting the energy-saving glass 2, the aluminum pressing strip 3 can press the energy-saving glass 2 to be tightly attached to the aluminum bottom strip 1, so that the energy-saving glass 2 is fixed, and a set of matched aluminum bottom strip 1 and aluminum pressing strip 3 can fix four pieces of energy-saving glass 2 in total at the left upper part, the left lower part, the right upper part and the right lower part.

The aluminum bottom strip 1 is of a right-angle U-shaped structure, so that the aluminum bottom strip 1 is provided with two parallel vertical parts 4 and a horizontal part 5. The bottom surface of the energy saving glass 2 near the edge can be abutted on the top surface of the vertical portion of the aluminum material bottom strip 14, so that the edge of the energy saving glass 2 is fixed. The aluminum product layering 3 is spliced with the horizontal part 5 of the aluminum product bottom strip 1, and the bottom surface of the aluminum product layering 3 is abutted against the top surface of the energy-saving glass 2 near the edge so as to press the energy-saving glass 2 on the aluminum product bottom strip 1.

The top surface of the horizontal part 5 of the aluminum bottom strip 1 is provided with a pressing groove 6 with an open top, the bottom surface of the aluminum pressing strip 3 is provided with a pressing block 7 matched with the pressing groove 6, and the pressing block 7 is tightly inserted into the pressing groove 6. Because aluminum product bottom strip 1 and aluminum product layering 3 are cross structure, consequently indent 6 on one of them arm of cross aluminum product bottom strip 1 is long indent 8, runs through whole aluminum product bottom strip 1 and sets up, and indent 6 on the other arm is two short indent 9, is the symmetry setting about long indent 8. The pressing blocks 7 on one arm of the cross-shaped aluminum pressing strip 3 are long pressing blocks 10, the whole aluminum pressing strip 3 is penetrated, the pressing blocks 7 on the other arm are two short pressing blocks 11, and the two short pressing blocks 11 are symmetrically arranged about the long pressing block 10.

The left and right outer side surfaces of the pressing groove 6 are spaced from the inner side of the vertical part of the aluminum bottom strip 1, so that two groove cavities 12 are formed between the pressing groove and the vertical part. Each groove cavity 12 is internally provided with a plug-in sealing strip 13, the upper surface of the plug-in sealing strip 13 is tightly attached to the bottom surface of the aluminum product pressing strip 3, the left side surface, the right side surface and the bottom surface of the plug-in sealing strip 13 are tightly attached to the aluminum product bottom strip 1, and when the aluminum product pressing strip 3 presses the energy-saving glass 2 on the aluminum product bottom strip 1, the plug-in sealing strip 13 can be tightly pressed in the groove cavity 12.

The outer side of the plug-in sealing strip 13 is of a circular structure, or the upper, lower, left and right side of the plug-in sealing strip 13 are of arc structures, so that when the aluminum product pressing strip 3 presses the energy-saving glass 2 on the aluminum product bottom strip 1, the plug-in sealing strip 13 can be fully extruded, the lower, left and right side of the plug-in sealing strip 13 can be tightly abutted with the aluminum product bottom strip 1, and the upper side of the plug-in sealing strip 13 can be tightly abutted with the aluminum product pressing strip 3, so that water is prevented from penetrating into the inner side of the glass curtain wall along the joint gap of the aluminum product pressing strip 3 and the aluminum product bottom strip 1.

The inside of grafting sealing strip 13 is equipped with grafting groove 14, and grafting has post 15 in the grafting groove 14 to form the support to the inside of grafting sealing strip 13, avoid grafting sealing strip 13's shape to become irregular, reduce sealed effect.

The two sides of the pressing block 7 on the aluminum pressing strip 3 are also respectively provided with a retaining boss 16, the lower side of the retaining boss 16 can be just inserted into the groove cavity 12, when the aluminum pressing strip 3 is pressed on the energy-saving glass 2, the end side of the energy-saving glass 2 is just clamped on the outer side surface of the retaining boss 16, the limit of the energy-saving glass 2 is realized, and the bottom surface of the retaining boss 16 can be tightly abutted against the upper surface of the inserted sealing strip 13.

The two sides of the bottom surface of the aluminum product layering 3 are also provided with an upper sealing strip 17, the upper sealing strip 17 is arranged on one side of the backstop boss 16, which is away from the pressing block 7, and when the aluminum product layering 3 is pressed on the energy-saving glass 2, the lower surface of the upper sealing strip 17 is tightly abutted with the upper surface of the energy-saving glass 2, so that a further sealing effect is realized.

An extension table 18 is arranged outside the vertical arm 4 of the aluminum bottom strip 1, a lower sealing strip 19 is arranged at the top of the extension table 18, and when the energy-saving glass 2 is pressed on the aluminum bottom strip 1, the upper surface of the upper sealing strip 19 can be tightly abutted with the lower surface of the energy-saving glass 2, so that a sealing effect is realized again.

The pressing block 7 and the pressing groove 6 are also fixed through bolts and nuts.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (7)

1. Energy-conserving glass curtain wall of reinforcing leakproofness, its characterized in that: the energy-saving glass pressing device comprises an aluminum bottom strip, energy-saving glass and an aluminum pressing strip, wherein the aluminum pressing strip is used for pressing the energy-saving glass on the aluminum bottom strip; the aluminum bottom strip is of a right-angle U-shaped structure, so that the aluminum bottom strip is provided with two vertical arms and two horizontal arms; the aluminum pressing strip is spliced with the horizontal part of the aluminum bottom strip, and the bottom surface of the aluminum pressing strip is abutted with the top surface of the energy-saving glass; the top surface of the horizontal part of the aluminum bottom strip is provided with a pressing groove with an open top, the bottom surface of the aluminum pressing strip is provided with a pressing block matched with the pressing groove, and the pressing block is inserted into the pressing groove; a groove cavity is formed between the left outer side surface and the right outer side surface of the pressing groove and the inner side of the vertical part of the aluminum bottom strip, and a splicing sealing strip is arranged in the groove cavity.

2. The enhanced seal energy efficient glass curtain wall of claim 1, wherein: the outer side surface of the plug-in sealing strip is of a circular structure, or the upper, lower, left and right side surfaces of the plug-in sealing strip are of arc structures.

3. The enhanced seal energy efficient glass curtain wall of claim 2, wherein: and a plugging groove is formed in the plugging sealing strip, and a column is inserted into the plugging groove.

4. The enhanced seal energy efficient glass curtain wall of claim 1, wherein: the aluminum product layering is located the both sides of briquetting and still is equipped with the backstop boss respectively, and the downside of backstop boss just pegs graft in the cell chamber, when aluminum product layering is pressed and is located energy-conserving glass, energy-conserving glass's end side just joint in the lateral surface of backstop boss.

5. The enhanced seal energy efficient glass curtain wall of claim 4, wherein: and when the aluminum product pressing strip is pressed on the energy-saving glass, the lower surface of the upper sealing strip is tightly abutted with the upper surface of the energy-saving glass.

6. The enhanced seal energy efficient glass curtain wall of claim 4, wherein: the aluminum product bottom strip is characterized in that an extension table is arranged outside the vertical arm of the aluminum product bottom strip, a lower sealing strip is arranged at the top of the extension table, and when the energy-saving glass is pressed on the aluminum product bottom strip, the upper surface of the upper sealing strip can be tightly abutted to the lower surface of the energy-saving glass.

7. The enhanced seal energy efficient glass curtain wall of claim 1, wherein: the pressing block and the pressing groove are fixed through bolts and nuts.