CN214994951U - Supporting structure in glass partition system - Google Patents

Abstract

The utility model discloses a supporting structure in a glass partition system, which relates to the field of glass partition and comprises a vertical keel, a buckle plate, a buckle strip and a glass plate, wherein the buckle plate is arranged on the vertical keel, the buckle strip is arranged on the buckle plate, the buckle plate is matched with the buckle strip to fix the glass plate, the vertical keel comprises a supporting plate, a first mounting plate and a second mounting plate, the first mounting plate and the second mounting plate are arranged in parallel, and the first mounting plate and the second mounting plate are connected through the supporting plate; the utility model has the advantages that: the utility model provides a bearing structure among glass partition system through concentrating the backup pad and setting up at the middle part, has stronger stress bearing capacity, simultaneously, the utility model provides a vertical keel includes the first mounting panel and the second mounting panel that are parallel to each other, and the backup pad is installed between first mounting panel and second mounting panel, simple structure, simple to operate.

Description

Supporting structure in glass partition system

Technical Field

The utility model belongs to glass cuts off the field, concretely relates to bearing structure among glass cuts off system.

Background

The glass partition wall is a partition for dividing space at any time according to needs, and is called a high partition wall, a finished product partition wall, an aluminum alloy partition wall, a high screen, a glass partition wall, an office partition wall, office glass or an office partition wall and the like. With the progress of science and technology and the rapid development of economy, the glass partition wall is more and more widely used, the glass partition wall improves the utilization efficiency of space, can realize the flexible division of space, and creates free space.

In the glass partition system, the vertical keel plays a role in limiting the glass plate to shake in the horizontal direction, so that in the glass partition system of the double-layer glass plate, the vertical keel always receives the stress of the glass plates on two sides extruding towards the middle, and therefore the structure of the vertical keel is very important.

However, most of the existing vertical keels are composed of square light steel pipes, the two supporting plates of the square steel pipes are parallel to each other, when the stress is applied, the situation that the supporting plates are weak and deform can occur, and meanwhile, the installation structure of the vertical keels with the square structures is complex.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems existing in the prior art, the utility model aims to provide a supporting structure in a glass partition system.

The utility model discloses the technical scheme who adopts does:

the utility model provides a bearing structure among glass partition system, includes and erects fossil fragments, buckle, profile and glass board, installs the buckle on the perpendicular fossil fragments, installs the profile on the buckle, and the buckle is fixed with the glass board with the profile cooperation, and perpendicular fossil fragments include backup pad, first mounting panel and second mounting panel parallel arrangement, and first mounting panel passes through the backup pad with the second mounting panel and is connected.

Furthermore, the vertical keel is formed by tightly connecting two channel steels with the same model.

Furthermore, the supporting plate is formed by tightly connecting bottom plates of two channel steels, the first mounting plate is formed by connecting one side wall of the two channel steels, and the second mounting plate is formed by connecting the other side wall of the two channel steels.

Furthermore, the supporting plate is provided with a plurality of connecting holes.

Furthermore, the two ends of the pinch plate are respectively arranged on the first mounting plate and the second mounting plate.

Furthermore, a mounting seat is arranged between the buckling plate and the vertical keel, a first mounting groove is formed in the mounting seat, and a buckling strip is mounted in the first mounting groove.

Further, buckle, profile and mount pad form the second mounting groove, and the glass board is installed in the second mounting groove.

Furthermore, third mounting grooves are formed in the two sides of the buckling plate, and filling pieces are mounted in the third mounting grooves.

Furthermore, one end of the filling piece is positioned in the third mounting groove, the other end of the filling piece is positioned in the second mounting groove, and the filling piece tightly supports the glass plate.

Further, the mounting seat is installed on the keel through a locking member.

The utility model has the advantages that:

the utility model provides a bearing structure among glass partition system through concentrating the backup pad and setting up at the middle part, has stronger stress bearing capacity, simultaneously, the utility model provides a vertical keel includes the first mounting panel and the second mounting panel that are parallel to each other, and the backup pad is installed between first mounting panel and second mounting panel, simple structure, simple to operate.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a schematic view of the connection structure of the present invention;

FIG. 3 is a top schematic view of the furring channel;

FIG. 4 is a perspective view of the keel;

in the figure: 1-vertical keel, 10-supporting plate, 11-first mounting plate, 12-second mounting plate, 13-connecting hole, 14-channel steel, 2-buckling plate, 21-third mounting groove, 22-second mounting groove, 3-buckling strip, 4-mounting seat, 41-first mounting groove, 5-filling piece, 6-locking piece, 7-glass plate and 8-isolating piece.

Detailed Description

The first embodiment is as follows:

in this embodiment, as shown in fig. 1 to 4, a supporting structure in a glass partition system, including a stud 1, a buckle 2, a buckle 3 and a glass plate 7, the stud 1 is provided with the buckle 2, the buckle 2 is provided with the buckle 3, the buckle 2 is matched with the buckle 3 to fix the glass plate 7, the stud 1 includes a supporting plate 10, a first mounting plate 11 and a second mounting plate 12, the first mounting plate 11 and the second mounting plate 12 are arranged in parallel, and the first mounting plate 11 and the second mounting plate 12 are connected through the supporting plate 10, and the supporting plate 10 is arranged in a concentrated manner, so that the supporting structure has a strong stress bearing capacity, and meanwhile, the stud 1 in the utility model only includes the first mounting plate 11 and the second mounting plate 12 which are parallel to each other, and the supporting plate 10 is installed between the first mounting plate 11 and the second mounting plate 12, so that the structure is simple and the installation is convenient;

in this embodiment, a concrete structure of the mullion 1 presents an i-shape, the support plate 10 is connected at the middle position of the first mounting plate 11 and the second mounting plate 12, in the installation process, when the first mounting plate 11 and the second mounting plate 12 bear stress, the stress can be transferred to the support plate 10 in the middle, the support plate 10 is intensively arranged in the middle, and the condition that the support plates on the two sides of the square keel deform towards the middle can not occur.

Example two:

on the basis of the first embodiment, the embodiment provides a better alternative for the specific structure of the vertical keel 1;

in this embodiment, as shown in fig. 4, the stud 1 is formed by tightly connecting two channel steels 14 of the same type, and specifically, the support plate 10 is formed by tightly connecting bottom plates of the two channel steels 14;

in this embodiment, specifically, the close connection mode of the two channel steels 14 with the same model is full-welded connection at the seam;

in this embodiment, specifically, two bottom plates of channel steels 14 with the same model are welded together, and when the two channel steels 14 are spliced, the length, the width, the height and all directions are flush and then the welding connection is started;

in this embodiment, correspondingly, the first mounting plate 11 is formed by connecting one side wall of two channel steels 14, and when the two channel steels 14 are connected, the side walls on the same side are connected in a flush manner in all directions; the second mounting plate 12 is formed by connecting the other side walls of the two channel steels 14, and when the two channel steels are connected, the side walls of the two channel steels 14 on the other side are in flush connection in length, width and height and all directions;

in the embodiment, specifically, two ends of the pinch plate 2 are respectively installed on the first installation plate 11 and the second installation plate 12;

in this embodiment, the material of the channel steel 14 is specifically Q50 light steel.

Example three:

the embodiment provides another better alternative for the specific structure of the vertical keel 1 on the basis of the first embodiment;

in this embodiment, as shown in fig. 4, the stud 1 is formed by tightly connecting two channel steels 14 of the same type, and specifically, the support plate 10 is formed by tightly connecting bottom plates of the two channel steels 14;

in this embodiment, specifically, the two channel steels 14 of the same type are tightly connected by welding at the joint;

in this embodiment, specifically, two bottom plates of channel steels 14 with the same model are welded together, and when the two channel steels 14 are spliced, the length, the width, the height and all directions are flush and then the welding connection is started;

in this embodiment, correspondingly, the first mounting plate 11 is formed by connecting one side wall of two channel steels 14, and when the two channel steels 14 are connected, the side walls on the same side are connected in a flush manner in all directions; the second mounting plate 12 is formed by connecting the other side walls of the two channel steels 14, and when the two channel steels are connected, the side walls of the two channel steels 14 on the other side are in flush connection in length, width and height and all directions;

in the embodiment, specifically, two ends of the pinch plate 2 are respectively installed on the first installation plate 11 and the second installation plate 12;

in this embodiment, specifically, the material of the channel steel 14 is Q50 light steel;

meanwhile, in the embodiment, the supporting plate 10 is provided with a plurality of connecting holes 13, that is, the bases of two tightly connected channel beams 14 are provided with a plurality of connecting holes 13 by punch forming in the same direction, when the connecting holes 13 are formed, materials around the punching positions of the bases of the two channel beams 14 are deformed in the same direction, the metallographic structures of the deformed parts are partially fused, the generated structures such as burrs and burrs are also crossed, after the burrs and the fins are polished, the structures are fused together, and have a certain locking capability, and the connecting holes 13 are formed simultaneously, so that the two channel beams 14 are connected more tightly, and the connecting holes 13 are uniformly distributed in the vertical direction when the vertical keel 1 is installed; specifically, the number of the coupling holes 13 is set according to the length of the furring channel 1.

Example four:

on the basis of any embodiment, the embodiment provides a better alternative for the connection mode among the vertical keels 1, the buckle plates 2 and the buckle strips 3;

in the embodiment, as shown in fig. 1 and 2, an installation seat 4 is arranged between the buckle plate 2 and the vertical keel 1, a first installation groove 41 is formed in the installation seat 4, and the buckle strip 3 is installed in the first installation groove 41;

in this embodiment, as shown in fig. 1, the mounting seat 4 is mounted on the keel 1 through a locking member 6; preferably, the locking member 6 is a self-tapping screw;

in this embodiment, as shown in fig. 2, specifically, the mounting seats 4 are mounted at both ends of the vertical keel 1, the two mounting seats 4 are respectively fastened on the first mounting plate 11 and the second mounting plate 12, and a first mounting groove 41 is formed at one end of the mounting seat 4 away from the vertical keel 1;

in the embodiment, as shown in fig. 2, the buckle plate 2, the buckle strip 3 and the mounting seat 4 form a second mounting groove 22, the glass plate 7 is mounted in the second mounting groove 22, specifically, the side wall of the buckle plate 2 and the side wall of the buckle strip 3 are respectively used as the two side walls of the second mounting groove 22, and the side wall of the first mounting groove 41 is used as the bottom plate of the second mounting groove 22;

in this embodiment, as shown in fig. 2, the fastening strip 3 is provided with a guiding structure, specifically, the guiding structure is a wedge-shaped surface, and the fastening strip 3 can be conveniently clamped into the first mounting groove 41 under the guidance of the wedge-shaped surface; meanwhile, the inner cavity of the first mounting groove 41 is provided with a non-return structure, specifically, bosses are arranged on two sides of the inner wall of the first mounting groove 41, when the buckle strip 3 is buckled, the buckle strip 3 is guided by the wedge-shaped surface and generates partial elastic deformation, when the buckle strip 3 is clamped into the first mounting groove 41, the elastic deformation of the buckle strip 3 is restored, and the large end of the wedge-shaped surface is blocked by the bosses on the inner wall of the first mounting groove 41 and cannot exit;

in the embodiment, as shown in fig. 2, both sides of the pinch plate 2 are provided with third mounting grooves 21, a filling member 5 is mounted in the third mounting groove 21, one end of the filling member 5 is located in the third mounting groove 21, the other end of the filling member 5 is located in the second mounting groove 22, and the filling member 5 tightly supports the glass plate 7; the filling member 5 is mainly used for tightly pressing the glass plate 7 to the fastening strip 3, and preferably, the filling member 5 is made of hard PVC plastic.

Example five:

the embodiment provides a better alternative on the basis of any embodiment;

in this embodiment, as shown in fig. 1, a spacer 8 is disposed between the two glass plates 7, and when the glass plates 7 are transparent glass plates, the spacer 8 is used for blocking light rays on two sides of the glass wall, so as to prevent external personnel from directly seeing the inside of the glass wall, thereby effectively protecting privacy, and preferably, the spacer 8 is a blind.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

Although embodiments of the present invention have been shown and described, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art without departing from the scope of the present invention.

Claims (10)

1. The utility model provides a bearing structure among glass partition system, includes vertical keel (1), buckle (2), profile (3) and glass board (7), install on vertical keel (1) buckle (2), install on buckle (2) profile (3), buckle (2) with profile (3) cooperation will glass board (7) are fixed, its characterized in that: the vertical keel (1) comprises a supporting plate (10), a first mounting plate (11) and a second mounting plate (12), wherein the first mounting plate (11) is parallel to the second mounting plate (12), and the first mounting plate (11) is connected with the second mounting plate (12) through the supporting plate (10).

2. The support structure of claim 1, wherein the mullion (1) is formed by two channel beams (14) of the same type that are tightly connected.

3. The support structure of claim 2, wherein the support plate (10) is formed by tightly connecting bottom plates of two channel steels (14), the first mounting plate (11) is formed by connecting one side wall of the two channel steels (14), and the second mounting plate (12) is formed by connecting the other side wall of the two channel steels (14).

4. The support structure of claim 3, wherein the support plate (10) has a plurality of attachment holes (13).

5. A support structure in a glazing partition system according to claim 1 characterised in that the pinch plates (2) are mounted at their ends to the first mounting plate (11) and the second mounting plate (12) respectively.

6. The supporting structure of claim 5, wherein a mounting seat (4) is disposed between the buckling plate (2) and the vertical keel (1), a first mounting groove (41) is formed in the mounting seat (4), and the buckling strip (3) is mounted in the first mounting groove (41).

7. A support structure in a glass partition system according to claim 6, characterized in that the clip (2), the clip strip (3) and the mounting seat (4) form a second mounting groove (22), the glass panel (7) being mounted in the second mounting groove (22).

8. The supporting structure of claim 7, wherein the buckle plate (2) is provided with third mounting grooves (21) on both sides thereof, and the third mounting grooves (21) are internally provided with filling members (5).

9. A support structure in a glass partition system according to claim 8, characterized in that one end of the filler member (5) is located in the third installation groove (21), the other end of the filler member (5) is located in the second installation groove (22), and the filler member (5) abuts against the glass plate (7).

10. A support structure in a glazing partition system as claimed in claim 6 wherein the mounting base (4) is mounted on the mullion (1) by means of a locking member (6).

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