CN216197591U - Combined broken bridge glass door - Google Patents

Abstract

The utility model relates to the technical field of glass doors, in particular to a combined broken bridge glass door which comprises a vertical door frame, a transverse door frame and a door body; the door body comprises a first door leaf vertical beam assembly, a second door leaf vertical beam assembly, a first door leaf transverse beam assembly, a second door leaf transverse beam assembly and hollow glass; the first door leaf mullion component and the second door leaf mullion component are respectively fixedly arranged on two sides of the hollow glass in a sealing manner in the vertical direction; the first door leaf transverse support component and the second door leaf transverse support component are respectively and fixedly arranged at the upper end and the lower end of the hollow glass; the first door leaf mullion component comprises a first door leaf mullion, a first heat insulation felt, a first decorative buckle plate, a first glass bead and sealant; the second door leaf erecting component comprises a second door leaf erecting support, a second heat insulation felt, a second glass pressing strip, a second decorative buckling plate and sealant. The combined broken bridge glass door has the advantages of high structural strength, attractive appearance, convenience in installation and maintenance, energy conservation and heat preservation.

Description

Combined broken bridge glass door

Technical Field

The utility model relates to the technical field of glass doors, in particular to a combined broken bridge glass door.

Background

With the continuous progress of society, the aluminum alloy door and window industry is rapidly developed. Aluminum alloy doors and windows are extremely widely applied to modern buildings, particularly passive buildings, and some large venues such as: entrance doors of buildings such as convention centers, stadiums, museums, performance centers, commercial complexes, and large stores are required to have high heat insulation, water tightness, and air tightness. The structural design of the existing bridge-cut-off aluminum alloy door and window leads the strength of the aluminum alloy material to be weakened, and the requirement of the opening of the gate cannot be met in strength.

Disclosure of Invention

The technical problem to be solved by the utility model is as follows: in order to solve the problems existing in the background technology, the combined broken bridge glass door is provided, and has the advantages of high structural strength, attractive appearance, convenience in installation and maintenance, energy conservation, heat preservation and convenience in wide popularization and use.

The technical scheme adopted by the utility model for solving the technical problems is as follows: a combined broken bridge glass door comprises a vertical door frame, a transverse door frame and a door body; the door body comprises a first door leaf vertical beam assembly, a second door leaf vertical beam assembly, a first door leaf transverse beam assembly, a second door leaf transverse beam assembly and hollow glass; the first door leaf mullion component and the second door leaf mullion component are respectively fixedly arranged on two sides of the hollow glass in a sealing manner in the vertical direction; the first door leaf transverse support component and the second door leaf transverse support component are respectively and fixedly arranged at the upper end and the lower end of the hollow glass; the first door leaf mullion component comprises a first door leaf mullion, a first heat insulation felt, a first decorative buckle plate, a first glass bead and sealant; the first door leaf is erected into a hollow section with a circular arc structure at one side; the first heat insulation felt is fixedly coated on the outer wall of the first door leaf stile; the upper end of the first decorative buckle plate is clamped with the first door leaf vertical beam and then surrounds the first door leaf vertical beam; one end of the first decorative buckle plate is surrounded and arranged on one side of the hollow glass through sealant; one side of the first glass pressing strip is clamped on the first door leaf mullion and fixedly connected with the first door leaf mullion; the lower end of the first glass pressing strip is surrounded and arranged on the other side of the hollow glass through sealant; the second door leaf vertical support component comprises a second door leaf vertical support, a second heat insulation felt, a second glass pressing strip, a second decorative buckling plate and sealant; the second door leaf mullion is of a hollow structure, and the second heat insulation felt is arranged on the side wall of the second door leaf mullion in a surrounding mode; the second decorative buckle plate is arranged outside the second heat insulation felt in a surrounding mode; one end of the second decorative buckle plate is surrounded and arranged on one side of the hollow glass through sealant; one side of the second glass pressing strip is clamped on the second door leaf vertical stile and fixedly connected with the second door leaf vertical stile; the lower end of the second glass pressing strip is surrounded and arranged on the other side of the hollow glass through sealant.

Further, in the above technical solution, the first door leaf horizontal beam assembly includes a first door leaf horizontal beam, a first heat insulation strip and a third glass pressing strip; the upper end of the first door leaf transverse beam is embedded in the transverse door frame, and the first door leaf transverse beam is fixedly sealed and insulated in a sealing way by a plurality of first heat insulation strips which are arranged in parallel; the upper end of the third glass bead is clamped on the first door leaf transverse beam, and one side of the third glass bead is surrounded and arranged on one side of the hollow glass through sealant; the design can ensure the sealed heat insulation fixed connection at the upper end of the hollow glass through the first door leaf transverse support component.

Further, in the above technical solution, the second door leaf horizontal beam assembly includes a second door leaf horizontal beam, a fourth glass bead, a second heat insulation strip, an automatic sinking adhesive tape and a brush; the second door leaf transverse stile is internally sealed, fixed and insulated by a plurality of second heat insulation strips arranged in parallel; one side of the fourth glass pressing strip is clamped on the second door leaf transverse beam, and the other side of the fourth glass pressing strip is surrounded on one side of the hollow glass through sealant; the automatic sinking adhesive tape and the hairbrush are respectively arranged on one side of the second door leaf transverse support at intervals; such design can ensure the sealed fixed connection of cavity glass lower extreme.

Further, in the above technical solution, an arc-shaped notch is formed on one side of the mullion opposite to the arc-shaped structure on the mullion of the first door leaf; the first door leaf can correspond to the circular arc structure on the first door leaf stile conveniently; facilitating free rotation thereof during use.

Further, in the above technical solution, a third decorative buckle plate is fixedly clamped on the outer wall of the first door leaf stile, and the third decorative buckle plate and the first decorative buckle plate are combined and then surround the first door leaf stile; can ensure that first thermal-insulated felt is fixed to be set up between decorative board and first door leaf are erect and erect, improve its whole sealed thermal-insulated effect when guaranteeing the sufficient intensity of door leaf.

Further, in the above technical solution, a wool top is further disposed at a connection position of the first decorative buckle plate and the arc-shaped notch, and the wool top is embedded in an end portion of the first decorative buckle plate; the design is to reduce the circulation of the door body and the outside air in the rotating process through the wool tops, and the whole air tightness can be improved.

Further, in the above technical solution, a joint between one end of the first door leaf stile and the vertical door frame is fixedly sealed by a first sealing rubber strip, and the first sealing rubber strip is fixedly embedded in the vertical door frame; the sealing effect between the vertical door frame and the vertical stile of the first door leaf can be ensured.

Further, in the above technical solution, a second sealing rubber strip is fixedly disposed at a joint of the horizontal door frame and the horizontal stile of the first door leaf; the sealing effect between the transverse door frame and the transverse stile of the first door leaf can be guaranteed.

The utility model has the beneficial effects that: the combined broken bridge glass door provided by the utility model has the advantages of high structural strength, attractive appearance, convenience in installation and maintenance, energy conservation and heat preservation, and convenience in wide popularization and use.

Drawings

In order to more clearly illustrate the embodiments or technical solutions in the prior art of the present invention, the drawings used in the description of the embodiments or prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments described in the present application, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic cross-sectional view taken along line A-A of FIG. 1;

fig. 3 is a schematic sectional view taken along the direction B-B in fig. 1.

The reference numbers in the drawings are: 1. the vertical door frame comprises a vertical door frame body 2, a transverse door frame body 3, a door body 4, hollow glass 5, a first door leaf vertical support 6, a first heat insulation felt 7, a first decorative buckle plate 8, a first glass pressing strip 9, sealant 10, a second door leaf vertical support 11, a second heat insulation felt 12, a second glass pressing strip 13, a second decorative buckle plate 14, a first door leaf horizontal support 15, a first heat insulation strip 16, a third glass pressing strip 17, a second door leaf horizontal support 18, a fourth glass pressing strip 19, a second heat insulation strip 20, an automatic sinking adhesive tape 21, a brush 22, an arc-shaped notch 23, a third decorative buckle plate 24, a wool strip 25, a first sealing adhesive tape 26 and a second sealing adhesive tape.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects solved by the present invention more clearly apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

Referring to fig. 1-3, a combined broken bridge glass door is shown, which comprises a vertical door frame 1, a transverse door frame 2 and a door body 3; the door body 3 comprises a first door leaf vertical beam component, a second door leaf vertical beam component, a first door leaf transverse beam component, a second door leaf transverse beam component and hollow glass 4; the first door leaf mullion component and the second door leaf mullion component are respectively fixedly arranged on two sides of the hollow glass 4 in the vertical direction in a sealing manner; the first door leaf transverse support component and the second door leaf transverse support component are respectively and fixedly arranged at the upper end and the lower end of the hollow glass; the first door leaf mullion component comprises a first door leaf mullion 5, a first heat insulation felt 6, a first decorative buckle plate 7, a first glass bead 8 and sealant 9; the first door leaf stile 5 is a hollow section with a circular arc structure at one side; the first heat insulation felt 6 is coated and fixed on the outer wall of the first door leaf stile 5; the upper end of the first decorative buckle 7 is clamped with the first door leaf stile 5 and then surrounds the first door leaf stile 5; one end of the first decorative buckle plate 7 is surrounded and arranged on one side of the hollow glass 4 through sealant 9; one side of the first glass pressing strip 8 is clamped on the first door leaf stile 5 and fixedly connected with the first door leaf stile; the lower end of the first glass bead 8 is surrounded and arranged on the other side of the hollow glass 4 through a sealant 9; the second door leaf mullion component comprises a second door leaf mullion 10, a second heat insulation felt 11, a second glass bead 12, a second decorative buckle plate 13 and sealant 9; the second door leaf mullion 10 is of a hollow structure, and the second heat insulation felt 11 is arranged on the side wall of the second door leaf mullion 10 in an enclosing manner; the second decorative buckle plate 13 is arranged outside the second heat insulation felt 11 in a surrounding mode; one end of the second decorative buckle plate 13 is surrounded and arranged on one side of the hollow glass 4 through the sealant 9; one side of the second glass pressing strip 12 is clamped on the second door leaf mullion 10 and fixedly connected with the second door leaf mullion; the lower end of the second glass bead 12 is surrounded and arranged at the other side of the hollow glass 4 through the sealant 9.

The first door leaf transverse beam assembly comprises a first door leaf transverse beam 14, a first heat insulation strip 15 and a third glass pressing strip 16; the upper end of the first door leaf transverse beam 14 is embedded in the transverse door frame 2, and the first door leaf transverse beam 14 is fixedly sealed and insulated in a sealing way by a plurality of first heat insulation strips 15 which are arranged in parallel; the upper end of the third glass bead 16 is clamped on the first door leaf transverse beam 14, and one side of the third glass bead 16 is surrounded and arranged on one side of the hollow glass 4 through the sealant 9. The second door leaf transverse beam assembly comprises a second door leaf transverse beam 17, a fourth glass pressing strip 18, a second heat insulation strip 19, an automatic sinking adhesive tape 20 and a brush 21; the second door leaf transverse beam 17 is internally sealed, fixed and insulated by a plurality of second heat insulation strips 19 which are arranged in parallel; one side of the fourth glass bead 18 is clamped on the second door leaf transverse brace 17, and the other side of the fourth glass bead 18 is surrounded and arranged on one side of the hollow glass 4 through the sealant 9; the automatic sinking rubber strip 20 and the brush 21 are respectively arranged on one side of the second door leaf horizontal stile 17 at intervals. An arc-shaped notch 22 is arranged on one side of the vertical door frame 1, which is opposite to the arc-shaped structure on the first door leaf vertical stile 5. The outer wall of the first door leaf stile 5 is fixedly clamped with a third decorative buckle plate 23, and the third decorative buckle plate 23 and the first decorative buckle plate 7 are combined and then surround and are arranged on the first door leaf stile 5. Wool tops 24 are further arranged at the connection part of the first decorative buckle plate 7 and the arc-shaped notch 22, and the wool tops 24 are embedded into the end part of the first decorative buckle plate 7. The joint of the one end of the first door leaf mullion 5 and the vertical door frame 1 is fixedly sealed through a first sealing rubber strip 25, and the first sealing rubber strip 25 is fixedly embedded in the vertical door frame 1. A second sealing rubber strip 26 is fixedly arranged at the joint of the transverse door frame 2 and the first door leaf transverse beam 14.

The use principle of the combined broken bridge glass door is as follows:

the door body 3 is formed by combining a first door leaf vertical beam component, a second door leaf vertical beam component, a first door leaf transverse beam component and a second door leaf transverse beam component on the periphery of hollow glass 4 in a sealing mode to form a glass door leaf structure; the first door leaf mullion assembly and the second door leaf mullion assembly are used as a main body supporting framework of the door body 3, and the first door leaf mullion 5 and the second door leaf mullion 10 are arranged into a closed hollow cavity structure; the integral structural strength of the composite material can be guaranteed; the first heat insulation felt 6 and the second heat insulation felt 11 are respectively arranged on the outer walls of the vertical door leaf stiles in a surrounding manner, so that a main channel for heat loss can be cut off, and a good heat insulation effect is achieved; the arc-shaped structure is arranged on the first door leaf mullion 5, so that the heat loss can be reduced, the heat preservation effect is improved, and the whole weight of the door body 3 can be reduced. The sealant 9, the first sealing rubber strip 25 and the second sealing rubber strip 26 are made of ethylene propylene diene monomer rubber products, and can be used for connecting and closing two or more spaces; overall structure is firm pleasing to the eye, convenient operation, simultaneously for alleviateing a body dead weight, increases structural strength, utilizes the three-dimensional simulation means of computer to carry out the frame design, cooperates manual or automatic door closer, electromagnetic lock, remote control module to realize the fire control linkage, constitutes complete large-scale venue access control system.

The utility model provides a combination bridge cut-off glass door possesses following advantage relatively traditional glass door: the structure design of the large door body can be suitable, the maximum value can be 3000 x 4500, and the requirements of the passing of various vehicles are met; the door is energy-saving and environment-friendly, and is similar to a wall when the door leaf is closed at ordinary times and is matched with hollow glass filled with argon for use; the arc-shaped section cavity design is arranged on the first door leaf mullion 5, so that the heat loss is small, the heat preservation effect is good, the hands are prevented from being clamped, and the operation is safe; the door leaf is integrally made of aluminum profiles in a die sinking mode, and the weight of the door body can be effectively reduced due to the fact that the door body is oversized; the first door leaf mullion component, the second door leaf mullion component, the first door leaf transverse mullion component and the second door leaf transverse mullion component are all designed by tongue-and-groove, so that the air tightness and the water tightness are better; an automatic sinking rubber strip 20 is arranged in the second door leaf transverse support assembly, the automatic sinking rubber strip 20 is recovered during opening, and the automatic sinking rubber strip 20 sinks to realize the sealing effect during closing.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the scope of the present invention, and the technical solutions and the utility model concepts of the present invention are equivalent to or changed within the scope of the present invention.

Claims (8)

1. The utility model provides a combination bridge cut-off glass door which characterized in that: comprises a vertical door frame, a transverse door frame and a door body; the door body comprises a first door leaf vertical beam assembly, a second door leaf vertical beam assembly, a first door leaf transverse beam assembly, a second door leaf transverse beam assembly and hollow glass; the first door leaf mullion component and the second door leaf mullion component are respectively fixedly arranged on two sides of the hollow glass in a sealing manner in the vertical direction; the first door leaf transverse support component and the second door leaf transverse support component are respectively and fixedly arranged at the upper end and the lower end of the hollow glass; the first door leaf mullion component comprises a first door leaf mullion, a first heat insulation felt, a first decorative buckle plate, a first glass bead and sealant; the first door leaf is erected into a hollow section with a circular arc structure at one side; the first heat insulation felt is fixedly coated on the outer wall of the first door leaf stile; the upper end of the first decorative buckle plate is clamped with the first door leaf vertical beam and then surrounds the first door leaf vertical beam; one end of the first decorative buckle plate is surrounded and arranged on one side of the hollow glass through sealant; one side of the first glass pressing strip is clamped on the first door leaf mullion and fixedly connected with the first door leaf mullion; the lower end of the first glass pressing strip is surrounded and arranged on the other side of the hollow glass through sealant; the second door leaf vertical support component comprises a second door leaf vertical support, a second heat insulation felt, a second glass pressing strip, a second decorative buckling plate and sealant; the second door leaf mullion is of a hollow structure, and the second heat insulation felt is arranged on the side wall of the second door leaf mullion in a surrounding mode; the second decorative buckle plate is arranged outside the second heat insulation felt in a surrounding mode; one end of the second decorative buckle plate is surrounded and arranged on one side of the hollow glass through sealant; one side of the second glass pressing strip is clamped on the second door leaf vertical stile and fixedly connected with the second door leaf vertical stile; the lower end of the second glass pressing strip is surrounded and arranged on the other side of the hollow glass through sealant.

2. A composite break bridge glass door according to claim 1, characterized in that: the first door leaf transverse beam assembly comprises a first door leaf transverse beam, a first heat insulation strip and a third glass pressing strip; the upper end of the first door leaf transverse beam is embedded in the transverse door frame, and the first door leaf transverse beam is fixedly sealed and insulated in a sealing way by a plurality of first heat insulation strips which are arranged in parallel; the upper end of the third glass bead is clamped on the first door leaf transverse beam, and one side of the third glass bead is surrounded and arranged on one side of the hollow glass through sealant.

3. A composite break bridge glass door according to claim 1, characterized in that: the second door leaf transverse beam assembly comprises a second door leaf transverse beam, a fourth glass pressing strip, a second heat insulation strip, an automatic sinking adhesive tape and a hairbrush; the second door leaf transverse stile is internally sealed, fixed and insulated by a plurality of second heat insulation strips arranged in parallel; one side of the fourth glass pressing strip is clamped on the second door leaf transverse beam, and the other side of the fourth glass pressing strip is surrounded on one side of the hollow glass through sealant; the automatic sinking rubber strip and the hairbrush are respectively arranged on one side of the transverse beam of the second door leaf at intervals.

4. A composite break bridge glass door according to claim 1, characterized in that: one side of the arc-shaped structure on the vertical door frame, which is opposite to the vertical stile of the first door leaf, is provided with an arc-shaped notch.

5. A composite break bridge glass door according to claim 1, characterized in that: the outer wall of the first door leaf stile is fixedly clamped with a third decorative buckle plate, and the third decorative buckle plate and the first decorative buckle plate are combined to surround and be arranged on the first door leaf stile.

6. A composite break bridge glass door according to claim 4, characterized in that: the first decorative buckle plate is further provided with wool tops at the connection part of the arc-shaped notch, and the wool tops are embedded into the end part of the first decorative buckle plate.

7. A composite break bridge glass door according to claim 1, characterized in that: the joint of one end of the first door leaf mullion and the vertical door frame is fixedly sealed through a first sealing rubber strip, and the first sealing rubber strip is fixedly embedded in the vertical door frame.

8. A composite break bridge glass door according to claim 3, characterized in that: and a second sealing rubber strip is fixedly arranged at the joint of the transverse door frame and the transverse stile of the first door leaf.

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