CN218716227U - Three-dimensional glass door with bidirectional slotted lattice bars - Google Patents

Abstract

The utility model relates to a three-dimensional glass door with bidirectional slotting lattice bars, which comprises a door leaf material and a plurality of pieces of glass arranged in the door leaf material; the three-dimensional glass door also comprises lattice bars, and the lattice bars and the door leaf material are used for installing the plurality of pieces of glass together; two notches with different directions are formed in the lattice bars; the glass is arranged in any notch of the lattice bar section, wherein at least two pieces of glass are arranged in the notches in different directions and are positioned on different planes, so that the three-dimensional glass effect that different pieces of glass are positioned on different planes is realized.

Description

Three-dimensional glass door with bidirectional slotted lattice bars

Technical Field

The utility model belongs to the technical field of decoration and building materials technique and specifically relates to a three-dimensional glass door with two-way fluting check strip.

Background

The glass door in the prior art is generally of a planar structure, and glass is arranged on the same plane, so that three-dimensional layers cannot be formed, the stereoscopic impression is lacked, and the visual effect is single.

Disclosure of Invention

The technical problem solved is that: the utility model provides a three-dimensional glass door with two-way fluting check strip, solves current glass door and lacks the third dimension, can't realize the problem of multi-level glass installation.

In order to solve the technical problem, the utility model adopts the following technical scheme:

a three-dimensional glass door with bidirectional slotted grillage strips comprises a door leaf material and a plurality of pieces of glass arranged in the door leaf material; the three-dimensional glass door also comprises lattice bars, and the lattice bars and the door leaf material are used for installing the plurality of pieces of glass together; two notches with different directions are formed in the lattice bars; the glass is arranged in any notch of the lattice bar section, wherein at least two pieces of glass are arranged in the notches in different directions and are positioned on different planes, so that the three-dimensional glass effect that different pieces of glass are positioned on different planes is realized.

Furthermore, two adjacent pieces of glass are separated and fixed by the lattice bars; the lattice bars are lattice bar sectional materials, the three-dimensional glass door comprises a plurality of lattice bar sectional materials, and the two notches with different orientations are formed in each lattice bar sectional material.

In some embodiments, the two notches with different orientations are respectively positioned at the inner side and the outer side of the lattice bar profile; the lengths of the two notches facing different directions penetrate through the length of the lattice bar section to two ends of the section; the two notches in different directions are arranged in parallel.

In some embodiments, the space is formed by a cavity of a lattice bar profile; the length of the cavity penetrates through the length of the lattice bar section to two ends of the section; the two notches in different directions are positioned on two sides of the cavity.

Furthermore, two notches are formed in the door leaf material, the orientations of the two notches are the same, the two notches are matched with the notches in the lattice strips, the orientations of the two notches are different, and glass is installed in any notch.

In some embodiments, the two notches of the door sash are parallel to each other, and the two notches are spaced apart to match the spatial gradient between two sheets of glass in different planes.

Furthermore, the door leaf material is a door frame formed by splicing a plurality of door leaf material profiles; the space between the two notches of the door leaf material is formed by a cavity of the door leaf material section;

in some embodiments, one side of the door leaf material comprises a door leaf material section, and two notches with the same orientation are arranged on the door leaf material section; and/or one side of the door leaf material comprises two door leaf material sections which are assembled to form the two notches, wherein one of the door leaf material sections is provided with one notch.

In some embodiments, the lattice bars and the door leaf material are connected by one or more of tension fit, slot fit, fastener connection, connector connection, adhesive bonding, and milled tenon connection.

In some embodiments, the notches without glass on the grating or door leaf material are spliced by I-shaped materials, so that the surface of the section bar is flattened; the door leaf material adopts an aluminum alloy section; the lattice bar section is an aluminum alloy section.

As an alternative embodiment, the lattice between two adjacent pieces of glass comprises two lattice sectional materials which are spliced side by side; the two assembled lattice bar section bars form two notches with different directions, and the section shape of each lattice bar section bar comprises a cavity and one notch positioned on one side of the cavity.

The utility model has the advantages that:

the utility model discloses a three-dimensional glass door is provided with two notches of different orientation through the check strip and is two-way fluting promptly, and the centre has one section interval, and arbitrary notch installation is selected to glass, and two piece at least glass are located different planes and have the space gradient to form three-dimensional glass effect.

The present invention will be described in further detail with reference to the accompanying drawings.

Drawings

Fig. 1 is a perspective view of a three-dimensional glass door according to a first embodiment of the present invention.

Fig. 2 is an exploded view of a three-dimensional glass door according to a first embodiment of the present invention.

Fig. 3 is a perspective view of the first embodiment of the present invention, after a vertical member is removed from one side of the three-dimensional glass door.

Fig. 4-6 are enlarged partial views of the area a-C of fig. 2 and 3.

Detailed Description

It should be noted that, in the case of conflict, the embodiments and features of the embodiments in the present application can be combined with each other, and the present invention is further described in detail with reference to the accompanying drawings and specific embodiments.

The utility model discloses three-dimensional glass door with two-way fluting check, including door leaf material, check and install the polylith glass at door leaf material. Two adjacent pieces of glass are separated and fixed by the lattice bars, the lattice bars are provided with two notches with different orientations, and a gap is arranged between the two notches; the glass is arranged in any notch, at least two pieces of glass are positioned on different planes, and a spatial gradient is formed between the two pieces of glass positioned on the different planes through the interval, so that a three-dimensional glass effect is realized.

The lattice bars and the door leaf material can be connected by one or more of tension fit, clamping groove fit, fastener connection, connecting piece connection, adhesive bonding mode and milling tenon connection. These connections can be made using specific structures known in the art.

In the embodiment shown in fig. 1 to 6, in the stereoscopic glass door 100, the lattice bar between two adjacent pieces of glass is a lattice bar profile 30, and each lattice bar profile 30 is provided with the two notches 301 and 302 facing different directions. Specifically, the solid glass door 100 includes a door sash material 10, a plurality of grid bar profiles 30, and glass 20 mounted within the door sash material. The door leaf material 10 is a door frame formed by splicing a plurality of sectional materials, two notches are formed in the door leaf material sectional materials, and the two notches face the same direction. The lattice-bar section 30 is provided with two notches with different orientations, and the two notches with different orientations are located on different planes. The glass is divided into a plurality of pieces. Two adjacent glass plates are supported by a lattice bar section bar 30 at intervals. Any one of the two notches arranged on the glass selection door leaf section bar or the lattice bar section bar 30 is fixedly arranged, at least two pieces of glass are fixedly arranged on the notches on different planes, and the whole door leaf glass realizes the three-dimensional glass effect that different pieces of glass are positioned on different planes. The edge of the glass is tightly clamped and sealed by the door leaf section bar and the notch of the lattice bar section bar 30, and the whole glass door is airtight.

The door leaf material 10 is formed by splicing a plurality of sectional materials and can be connected and fixed through a connecting corner connector 50 and a screw 40, and the sectional material of the door leaf material 10 is preferably an aluminum alloy sectional material. The door leaf material 10 generally comprises a door leaf upper cross beam 11, a door leaf lower cross beam 12 and a left door leaf vertical material 13 and a right door leaf vertical material 13, wherein the door leaf upper cross beam 11 and the door leaf lower cross beam 12 are respectively connected with two ends of the left door leaf vertical material 13 and the right door leaf vertical material 13 through four sectional materials through connecting corner connectors. The end parts of the four door leaf sectional materials are obliquely cut and are fittingly and tightly combined. The door vertical material 13 of the door leaf material 10 is provided with two parallel notches 101 and 102 along the length direction of the sectional material, namely an outer notch 101 and an inner notch 102, and a predetermined width is arranged between the two parallel notches 101 and 102 to form a partition wall 104. The door glass 20 has a plurality of glasses, 7 glasses in total as shown in the figure, and can be arranged with an inner notch or an outer notch which can be selected arbitrarily, and is arranged in two parallel notches 101 and 102 in a staggered way, so that the glasses are positioned on different planes to form the stereoscopic glass door. The inside cavity 105 that forms of the section bar of door leaf riser 13, set up screw hole muscle position in the cavity, perhaps, the cavity outer wall sets up screw hole 106. The cavity in the profile end of the door sash material 10 is also used to mount the connecting corner bracket 50. The edge of the glass 20 is clamped into any one of the parallel notches 101 or 102 arranged on the door leaf sectional material, the edge of the notch is clamped and fixed with the edge of the glass, and the edge of the glass can be bonded and fixed in the notch 101 by combining with glue. Similarly, the sectional material of the upper cross beam 11 or the lower cross beam 12 of the door leaf is provided with two parallel notches 101 and 102 along the length direction, and a preset width is arranged between the two parallel notches 101 and 102 to form a partition wall 104; a cavity 105 is formed in the section, a screw hole rib position is arranged in the cavity, or a screw hole 106 is arranged on the outer wall of the cavity; the cavity in the end of the section bar is also used for installing the connecting corner connector 50, the glass on the uppermost layer or the lowermost layer of the glass door can be selectively clamped into the parallel outer notches 101 or the inner notches 102, the edge of the glass is clamped and fixed by the section bar notches 101 or 102 of the upper cross bar 11 or the lower cross bar 12, and the edge of the glass and the notches 101 or 102 can be further fixed in an adhering mode by using glue.

The multi-strip section bar 30 of the stereoscopic glass door 100. Taking 7 pieces of glass 21-27 as an example, a plurality of pieces of glass 20 are installed in the door sash material 10, two adjacent pieces of glass are supported at intervals by a lattice bar section bar 30, the lattice bar section bars 31-36 respectively separate and fix two adjacent pieces of glass in pairs, the two adjacent pieces of glass are installed in a staggered manner, the glass is installed in grooves in different directions of the lattice bar, and the glass is located on different planes, so that a three-dimensional door effect is formed.

The lattice bar section is provided with two (not limited to two) notches 301 and 302 along the length direction, the two notches 301 and 302 are in different directions, the direction or the plane for installing glass is different, and the glass can be randomly installed in one notch. The two slots 301, 302 are spaced apart by a gap, i.e., a partition wall 304. Two adjacent upper and lower glasses are mounted in different notches with a shift, for example, the upper glass is mounted in the notch 301 facing upward and the lower glass is mounted in the notch 302 facing downward. A cavity 305 is formed inside the lattice bar section bar 30, a screw hole rib position 306 is arranged in the cavity 305, and a screw hole (or a mounting hole) is arranged on the screw hole rib position 306 and is positioned at the tail end of the lattice bar section bar 30. The two ends of the lattice bar section bar 30 abut against the inner side of the section bar of the door leaf material 10, the door leaf material 10 is correspondingly provided with screw holes, and the screw holes on the door leaf material and the screw holes at the tail end of the lattice bar section bar 30 are screwed through screws 40, so that the lattice bar section bar 30 is fixed on the door leaf material; the grid profile 30 is adapted to the width of the door leaf material 10.

Two notches 101 and 102 (namely an outer notch 101 and an inner notch 102) capable of being provided with glass are arranged on a door leaf material 10 of the three-dimensional glass door 100, and a plurality of pieces of glass 20 can be randomly arranged in any notch; the lattice-shaped bar 30 is provided with two notches 301 and 302 (i.e. an outer notch 301 and an inner notch 302) for mounting glass, and a plurality of pieces of glass 20 can be arbitrarily mounted in any one of the notches 301 or 302. For example, as shown in fig. 1-3, the glass 21 is placed in the outer notch 101, 301, the glass 22 is placed in the inner notch 102, 302, and the glass 23 is placed in the outer notch 101, 301; by analogy, as a result, the glass 21 and the glass 22 are respectively arranged on different planes; similarly, the glass 22 and the glass 23 are respectively arranged on different planes, and the whole door leaf glass 20 realizes the three-dimensional glass effect that different glasses are positioned on different planes. In this embodiment, the two notches 101 and 102 of each of the profiles 11 to 13 of the door sash 10 are oriented in the same direction, and the two notches 301 and 302 of the lattice-bar profile 30 are oriented in different directions.

The glasses 21-27 can be selected from different colors of glasses, so that a stereoscopic glass door with various colors is formed.

It will be appreciated that each profile 11-13 of the door panel 10 is not limited to two notches 101, 102, and each grid profile 30 (31-36) is not limited to two notches 301, 302. At least two sheets of glass are installed in a staggered mode, so that the multi-layer space overlapping of the door leaf glass is realized, the door leaf glass is located on different planes, and the effect of a three-dimensional glass door is realized.

Four sections of the door leaf material 10, namely an upper cross beam 11, a lower cross beam 12 and the tail ends of a left vertical material 13 and a right vertical material 13 are fixedly connected through a connecting angle bracket 50 and a screw 40; the two ends of the lattice bar section bar 30 are connected and fixed with the section bars of the door leaf material 10 through screws. It is understood that the adhesive or plastic connectors can be used to replace the screws or corner connectors, or be used in combination with the screws or corner connectors.

In this embodiment, the lattice-bar-shaped material 30 is provided with notches 101 and 102 facing to each other, parallel and spaced apart from each other, and two adjacent pieces of glass located on different planes are respectively clamped and mounted, so that a gradient is formed between the planes of the two pieces of glass. The upper cross beam 11, the lower cross beam 12, the left vertical beam 13 and the right vertical beam 13 of the door leaf material section bar are respectively provided with a groove without glass, and the groove without glass is spliced by an I-shaped material 60, so that the surface of the section bar 11-13 is flattened, and refer to fig. 2-3 and fig. 6.

In the above embodiment, the lattice-bar-shaped material 30 may be provided with more than two notches, wherein at least two notches, i.e. the inner notch 101 and the outer notch 102, have different orientations. More than two notches can also be arranged on the door leaf material profiles 11-13. Glass 20 is mounted in any of the notches. The notches without glass are spliced by I-shaped materials 60, so that the surface of the section is flattened.

The glass 20 in the above embodiments may be textured glass, or various decorative materials may be adhered to the glass.

In the above embodiment, the door leaf material is a door frame formed by splicing a plurality of door leaf material profiles, each side (e.g., the upper cross beam 11, the lower cross beam 12, and the left and right door leaf vertical materials 13) is a door leaf material profile, and each door leaf material profile is provided with two notches 1 having the same orientation. In other alternative embodiments, one side of the door leaf material 10 includes two door leaf material sections assembled to form the two notches 1, one of the two door leaf material sections is provided with one notch 1, and the assembled whole is similar to the door leaf material sections (or the upper cross section 11, the lower cross section 12, and the left and right door leaf mullions 13) in the above embodiments in structure and has the same function.

In the above embodiment, the lattice between two adjacent glasses is a lattice section 30 having two notches 301 and 302 with different orientations, and the two notches 301 and 302 with different orientations are separated by a cavity 305. In other alternative embodiments, the lattice between two adjacent pieces of glass comprises two lattice profiles assembled side by side; the two assembled lattice bar profiles form the two notches 301 and 302 with different orientations, and the cross-sectional shapes of the two lattice bar profiles comprise a cavity and one notch 301 and 302 positioned on one side of the cavity. That is, only one notch 301, 302 for installing glass is opened on two lattice bar section bars, and the orientations of the assembled notches 301, 302 are different, and the whole structure is similar to that of one lattice bar section bar in the above embodiment, and the functions are the same.

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; 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 will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made herein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. A three-dimensional glass door with bidirectional slotted grillage strips comprises a door leaf material and a plurality of pieces of glass arranged in the door leaf material; the method is characterized in that: the three-dimensional glass door also comprises lattice bars, and the lattice bars and the door leaf material are used for installing the plurality of pieces of glass together; the lattice bars are provided with two notches with different orientations, and a space is arranged between the two notches; the glass is arranged in any notch, at least two pieces of glass are positioned on different planes, and a spatial gradient is formed between the two pieces of glass positioned on the different planes through the interval, so that a three-dimensional glass effect is realized.

2. The stereoscopic glass door of claim 1, wherein:

two adjacent pieces of glass are separated and fixed by the lattice bars; the lattice bars are lattice bar sectional materials, the three-dimensional glass door comprises a plurality of lattice bar sectional materials, and each lattice bar sectional material is provided with the two notches with different directions.

3. The stereoscopic glass door of claim 2, wherein:

the two notches with different directions are respectively positioned at the inner side and the outer side of the lattice bar section;

the lengths of the two notches facing different directions penetrate through the length of the lattice bar section to two ends of the section;

the two notches in different directions are arranged in parallel.

4. The stereoscopic glass door of claim 3, wherein:

the space is formed by a cavity of the lattice bar section;

the length of the cavity penetrates through the length of the lattice bar section to two ends of the section;

the two notches in different directions are positioned on two sides of the cavity.

5. The stereoscopic glass door of claim 1, wherein:

two notches are formed in the door leaf material, the orientations of the two notches are the same, the two notches are matched with the notches with different orientations on the lattice strips, and the glass is installed in any notch.

6. The stereoscopic glass door of claim 5, wherein:

the two notches of the door leaf material are parallel to each other, and a space is arranged between the two notches and is matched with the space gradient between the two pieces of glass on different planes.

7. The stereoscopic glass door of claim 6, wherein:

the door leaf material is a door frame formed by splicing a plurality of door leaf material profiles; the space between the two notches of the door leaf material is formed by a cavity of the door leaf material section;

one side of the door leaf material comprises a door leaf material section, and two notches with the same direction are arranged on the door leaf material section; and/or one side of the door leaf material comprises two door leaf material sections which are assembled to form the two notches, wherein one of the door leaf material sections is provided with one notch.

8. The stereoscopic glass door of claim 1, wherein: the lattice bars and the door leaf material are connected by one or more of tension fit, clamping groove fit, fastener connection, connecting piece connection, adhesive bonding mode and milling tenon connection.

9. The stereoscopic glass door of any of claims 1-8, wherein: the notches without glass on the lattice bar or door leaf material are spliced by I-shaped materials, so that the surface of the section bar is flattened; the door leaf material adopts an aluminum alloy section; the lattice bar section adopts an aluminum alloy section.

10. The stereoscopic glass door of any of claims 5-8, wherein: the lattice bar between two adjacent pieces of glass comprises two lattice bar sectional materials which are spliced side by side; the two assembled lattice bar section bars form two notches with different directions, and the section shape of each lattice bar section bar comprises a cavity and one notch positioned on one side of the cavity.

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