CN108086540B - Glass partition mounting assembly, bathroom glass partition mounting structure and mounting method thereof - Google Patents

Abstract

The invention discloses a glass partition mounting assembly, which comprises a partition frame and a glass panel mounted in the partition frame; the partition frame comprises a top frame, a bottom frame and a side frame connected between the top frame and the bottom frame; the top frame, the bottom frame and the side frames are provided with U-shaped grooves; the glass top surface, the glass bottom surface and the glass side surface of the glass panel are respectively arranged in the U-shaped grooves of the top frame, the bottom frame and the side frames. The invention also discloses a bathroom glass partition mounting structure and a mounting method thereof. During installation, the top frame is connected with the suspended ceiling plate through screw fastening, the side frames are connected with the wall panel through screw fastening, the bottom frame is adhered to the waterproof bottom box through adhesive to form a partition frame, the installation is convenient, the working procedure of site secondary processing is omitted, the factory processing and site integrated installation are carried out, and the installation efficiency is improved.

Description

Glass partition mounting assembly, bathroom glass partition mounting structure and mounting method thereof

Technical Field

The invention relates to the technical field of decoration, in particular to a glass partition mounting assembly, a bathroom glass partition mounting structure and a mounting method thereof.

Background

Glass partition is a project frequently constructed in the decoration field, and particularly in a bathroom, dry-wet separation is required to be realized through the glass partition.

In the prior art, when the glass partition is installed, the stainless steel frame is required to be cut on site, and then the stainless steel frame is fixed with the surrounding wall surface, the ground surface and the top surface, so that the site construction process is complicated.

In addition, the side of the glass partition frame in the prior art is basically a flat plate, and the glass is placed by arranging grooves on the top frame and the bottom frame only, so that the stability is poor.

Disclosure of Invention

The invention provides a glass partition installation component, a bathroom glass partition installation structure and an installation method thereof, which have the advantages of good installation stability, convenient installation, elimination of the working procedure of on-site secondary processing, industrial processing and on-site integrated installation, and improvement of installation efficiency.

The technical scheme of the invention provides a glass partition mounting assembly, which comprises a partition frame and a glass panel mounted in the partition frame;

the partition frame comprises a top frame, a bottom frame and a side frame connected between the top frame and the bottom frame;

the top frame, the bottom frame and the side frames all have U-shaped grooves;

the glass top surface, the glass bottom surface and the glass side surface of the glass panel are respectively arranged in the U-shaped grooves of the top frame, the bottom frame and the side frames.

The invention also provides a bathroom glass partition mounting structure, which comprises a ceiling board arranged at the top of a bathroom, a wall panel arranged on the wall surface of the bathroom, a waterproof bottom box arranged on the ground of the bathroom and the glass partition mounting assembly according to any one of the above technical schemes;

the top frame in the glass partition installation assembly is fixedly connected with the suspended ceiling plate, the bottom frame in the glass partition installation assembly is fixedly connected with the waterproof bottom box, and the side frame in the glass partition installation assembly is fixedly connected with the wall panel.

The technical scheme of the invention also provides an installation method for installing the bathroom glass partition installation structure, which comprises the following steps:

s001: the top frame is fixedly connected with the ceiling plate through screws, the side frames are fixedly connected with the wall panel through screws, and the bottom frame is adhered to the waterproof bottom box through adhesive to form a partition frame;

s002: mounting a glass panel within the partition frame;

s003: injecting adhesive into the U-shaped grooves of the glass panel and the partition frame to fix the glass panel.

By adopting the technical scheme, the method has the following beneficial effects:

through all installing the U type recess at partition frame around with glass panel, improved the stability of installation, during the installation, pass through screw fastening with top frame and furred ceiling board and be connected, pass through screw fastening with lateral part frame and wall panel and be connected, bond the bottom frame on waterproof end box through the bonding glue, form partition frame, easy to assemble, cancelled the process of on-the-spot secondary operation, batch production processing, on-the-spot integrated installation has improved installation effectiveness.

The glass partition mounting assembly and the bathroom glass partition mounting structure provided by the invention are industrially produced in factories, only simple mounting is needed on a decoration site, no skilled technical workers are needed on the site, too much construction time is also needed, rapid construction is realized, and the condition that the traditional decoration operation site is dirty is avoided.

Drawings

FIG. 1 is a longitudinal cross-sectional view of a glass partition mounting assembly according to one embodiment of the present invention;

FIG. 2 is a cross-sectional view of the glass partition mounting assembly shown in FIG. 1;

FIG. 3 is a schematic view of the structure of the top frame;

FIG. 4 is a schematic view of the structure of the bottom frame;

FIG. 5 is a schematic structural view of a side frame;

FIG. 6 is a longitudinal cross sectional view of a bathroom glass partition mounting structure provided in one embodiment of the present invention;

FIG. 7 is a cross-sectional view of the bathroom glass partition mounting structure shown in FIG. 6;

fig. 8 is a schematic structural view of the waterproof bottom case;

FIG. 9 is a schematic structural view of a wall connection assembly;

FIG. 10 is an exploded view of the wall connection assembly of FIG. 9;

FIG. 11 is a schematic structural view of a first buckle;

FIG. 12 is a schematic structural view of a third buckle;

FIG. 13 is a schematic view of a second buckle;

fig. 14 is a schematic view of a wall panel adhered to a wall substrate.

Detailed Description

Specific embodiments of the present invention will be further described below with reference to the accompanying drawings. Wherein like parts are designated by like reference numerals. It should be noted that the words "front", "rear", "left", "right", "upper" and "lower" used in the following description refer to directions in the drawings, and the words "inner" and "outer" refer to directions toward or away from, respectively, the geometric center of a particular component.

As shown in fig. 1 to 5, a glass partition mounting assembly 100 according to an embodiment of the present invention includes a partition frame 1 and a glass panel 2 mounted in the partition frame 1.

The partition frame 1 includes a top frame 11, a bottom frame 12, and a side frame 13 connected between the top frame 11 and the bottom frame 12.

The top frame 11, the bottom frame 12 and the side frames 13 all have a U-shaped groove 14.

The glass top surface 21, the glass bottom surface 22 and the glass side surfaces 23 of the glass panel 2 are installed in the U-shaped grooves 14 of the top frame 11, the bottom frame 12 and the side frames 13, respectively.

When the partition frame is installed, the top frame 11 is assembled on the ceiling board, the bottom frame 12 is assembled on the waterproof bottom box of the ground through adhesive, the side frames 13 are assembled on the wall panel, and the partition frame 1 is formed after the top frame 11, the bottom frame 12 and the side frames 13 are assembled. The glass panel 2 is then mounted in the partition frame 1, and specifically, the edges of the glass panel 2, such as the glass top surface 21, the glass bottom surface 22, and the glass side surfaces 23, are fitted in the U-shaped grooves 14 of the top frame 11, the bottom frame 12, and the side frames 13, respectively.

Through all installing the U type recess at partition frame around with glass panel, improved the stability of installation, during the installation, pass through screw fastening with top frame and furred ceiling board and be connected, pass through screw fastening with lateral part frame and wall panel and be connected, bond the bottom frame on waterproof end box through the bonding glue, form partition frame, easy to assemble, cancelled the process of on-the-spot secondary operation, batch production processing, on-the-spot integrated installation has improved installation effectiveness.

Preferably, the partition frame 1 is a stainless steel partition frame, and has high structural strength and long service life, and does not rust in a humid environment.

Preferably, the glass top surface 21 and/or the glass bottom surface 22 and/or the glass side surface 23 are/is fixed in the corresponding U-shaped groove 14 by bonding glue, respectively, so that the connection stability is improved.

The glass top surface 21 or the glass bottom surface 22 or the glass side surface 23 may be fixed in the corresponding U-shaped groove 14 by adhesive alone or the glass top surface 21 and the glass bottom surface 22 and the glass side surface 23 may be fixed in the corresponding U-shaped groove 14 by adhesive alone, as needed.

Preferably, as shown in fig. 1-2, a flexible buffer 4 contacting the glass panel 2 is provided in the U-shaped grooves 14 of the top frame 11 and the side frames 13, which can protect the glass panel 2. Specifically, the flexible buffer 4 in the U-shaped groove 14 of the top frame 11 is in contact with the glass top surface 21, and the flexible buffer 4 in the U-shaped groove 14 of the side frame 13 is in contact with the glass side surface 23.

The flexible buffer 4 may be a flexible object having elasticity such as plastic, sponge, or foam.

As shown in fig. 6 to 7, an embodiment of the present invention provides a glass partition installation structure 200 for a bathroom, which includes a ceiling board 203 installed at the top of the bathroom, a wall panel 205 installed on the wall surface 204 of the bathroom, a waterproof bottom box 5 installed on the floor 202 of the bathroom, and the glass partition installation assembly 100 described in any of the foregoing embodiments.

The top frame 11 in the glass partition mounting assembly 100 is fixedly connected with the ceiling plate 201, the bottom frame 12 in the glass partition mounting assembly 100 is fixedly connected with the waterproof bottom box 5, and the side frames 13 in the glass partition mounting assembly 100 are fixedly connected with the wall panel 205.

For the structure and the construction of the glass partition mounting assembly 100 and the working principle thereof, please refer to the description of the glass partition mounting assembly 100, and the description thereof is omitted herein.

The ceiling tile 203 is suspended below the roof of the bathroom by a ceiling grid 201. The waterproof bottom box 5 is paved on the ground 202 of the bathroom, and can collect and discharge water which permeates into the bathroom and is turned below the floor, so that the waterproof effect is achieved.

During installation, the top frame 11 is fixedly connected with the ceiling board 203 through the bolts 15, the side frames 13 are fixedly connected with the wall panel 205 through the bolts 15, the bottom frame 13 is fixedly connected with the waterproof bottom box 5 to form the partition frame 1, then the glass panel 2 is inserted into the partition frame 1 from the side without the frame, and then the glass panel is fixed through adhesive glue, so that the installation is convenient, the working procedure of on-site secondary processing is omitted, the factory processing and on-site integrated installation are realized, and the installation efficiency is improved.

Preferably, as shown in fig. 6, the bottom frame 13 is adhered to the waterproof bottom box 5 through the adhesive 3, so that the assembly is convenient, and the adhesive 3 also has a waterproof effect after forming an adhesive layer, so that water in the bathroom shower is prevented from seeping out from the lower side of the bottom frame 13.

The adhesive 3 may be a structural adhesive, a glass adhesive, or the like, which is capable of bonding two articles together.

Preferably, as shown in fig. 6 and 8, the waterproof bottom case 5 includes a dry zone bottom case 51 and a wet zone bottom case 52 which are integrally formed, and a drain hole 53 is provided on a bottom plate 521 of the wet zone bottom case 52.

Dry zone floor tile 7 is laid in dry zone bottom box 51, wet zone floor tile 6 is laid in wet zone bottom box 52, and bottom frame 13 is located between dry zone floor tile 7 and wet zone floor tile 6.

The waterproof bottom case 5 has a case body for waterproofing, and water can be discharged through the water discharge opening 53.

The watertight bottom box 5 also enables a dry-wet separation, having a dry zone bottom box 51 and a wet zone bottom box 52. The wet area bottom box 52 is mainly paved in the shower stall, and the dry area bottom box 51 is mainly paved at the gate of the bathroom.

In order to improve the waterproof effect, the dry zone bottom box 51 and the wet zone bottom box 52 are integrally formed.

The floor tile 7 in the dry area is paved in the bottom box 51 in the dry area and can be directly paved on the bottom plate 511; the wet floor tile 6 is laid in the wet floor box 52 and can be laid directly on the bottom plate 521. The dry area tile 7 and the wet area tile 6 may be the same floor or may be different floors as desired, such as the water resistance and slip resistance of the wet area tile 6 is more important.

The water on the floor tile can permeate into the waterproof bottom box 5 and then be discharged through the water outlet 53, thereby playing a waterproof role.

Preferably, as shown in fig. 8, a spacing rib 54 is disposed between the dry zone bottom box 51 and the wet zone bottom box 52, and the bottom frame 13 is connected to the spacing rib 54. The arrangement of the spacing ribs 54 improves the structural strength of the waterproof bottom box 5, can support the bottom frame 13, facilitates the assembly of the bottom frame 13, and can prevent water in the wet area bottom box 52 from flowing into the dry area bottom box 51 to affect the waterproof performance of the dry area.

Preferably, as shown in fig. 8, the height of the dry-zone floor tile 7 is greater than the height of the wet-zone floor tile 6, and the height of the bottom frame 13 is greater than the height of the dry-zone floor tile 7. A step is formed at the junction of the dry zone bottom box 51 and the wet zone bottom box 52, and the top surface of the dry zone floor tile 7 is higher than the top surface of the wet zone floor tile 6, so that the step is formed at the junction to play a role in retaining water, and water in the shower room can be prevented from flowing out. At the same time, the height of the bottom frame 13 is set to be larger than the height of the floor tile 7 in the dry area, so that the contact of the floor tile to the glass panel 2 can be avoided, and the glass panel 2 is prevented from being worn by the floor tile.

Preferably, as shown in fig. 8, cross-shaped brackets 55 are provided on the bottom plate 511 of the dry zone bottom box 51 and the bottom plate 521 of the wet zone bottom box 52, respectively.

The bottoms of the dry area floor tile 7 and the wet area floor tile 6 are respectively supported by cross-shaped brackets 55, so that the stability of the assembly of the dry area floor tile 7 and the wet area floor tile 6 is improved.

And because the bottoms of the dry area floor tile 7 and the wet area floor tile 6 are respectively supported by the cross-shaped support 55, a certain gap is formed between the dry area floor tile 7 and the bottom plate 511 of the dry area bottom box 51, so that water can quickly flow to the water outlet 53 on the bottom plate 511. Similarly, a certain gap is formed between the wet area floor tile 6 and the bottom plate 521 of the wet area bottom box 52, so that water can quickly flow to the water outlet 53 on the bottom plate 521.

The dry area tile 7 and the wet area tile 6 may be adhered to the cross-shaped support 55 by the adhesive 3.

The cross-shaped support 55 also has the advantage of being stable in support, with four ends that provide good support for the tile above.

Preferably, the dry area floor tile 7 and the wet area floor tile 6 are respectively adhered to the bottom plate 511 of the dry area bottom box 51 and the bottom plate 521 of the wet area bottom box 52 through the adhesive 3, so that cement is not required, rapid pavement can be realized, and the phenomenon of messy construction environment can be avoided.

Preferably, as shown in fig. 7-9, wall panels 205 are mounted to wall surface 204 by wall surface connection assembly 8.

The wall surface connecting assembly 8 comprises a wall surface connecting piece 81, a first buckle 82 connected with the wall surface connecting piece 81 and a wall surface base plate 83 connected to the first buckle 82.

The wall panel 205 is adhered to the wall base plate 83 by the adhesive 3.

The wall panel 205 is a wall decoration board, and the wall base plate 83 plays a role in leveling the wall 204.

The wall surface connecting piece 81 is installed on the wall surface 204 through the bolt 810, the first buckle 82 is connected with the wall surface connecting piece 81 through the fixing piece 86 (such as a bolt nut piece), the wall surface base plate 205 is installed on the first buckle 82, the wall surface plate 205 is adhered to the wall surface base plate 83, rapid pavement can be achieved, and the pavement efficiency is improved.

Preferably, as shown in fig. 7, 8 and 10, the end of the wall base plate 83 is integrated with a second buckle 84, and the second buckle 84 is connected with the first buckle 82 through a third buckle 85, so as to realize rapid pavement and improve connection stability.

Preferably, as shown in fig. 9-13, the first buckle 82 includes a first U-shaped slot 821, and clamping ends 823 extend inward at the ends of slot walls 822 on both sides of the first U-shaped slot 821.

The third buckle 85 includes a third U-shaped groove 851, and stop plates 853 for engaging the holding ends 823 extend inward from the ends of the groove walls 852 on both sides of the third U-shaped groove 851.

The second buckle 84 includes a buckle main body portion 841, the buckle main body portion 841 includes a second U-shaped groove 8411, and a locking end 8413 for being matched with the stop plate 853 is inwardly disposed at the end of one side groove wall 8412 of the second U-shaped groove 8411.

The third catch 85 is located in the first U-shaped groove 821, and the stop plate 853 is clamped with the clamping end 823.

Two adjacent second buckles 84 in two adjacent wall base plates are all located in the third U-shaped groove 851, and the clamping ends 8413 on each second buckle 84 are respectively clamped with two stop plates 853 in the third buckle 85.

The stop plate 853 is located between the catch end 823 and the engagement end 8413.

Two ends of each wall base plate 83 are respectively integrated with a second buckle 84, when two wall base plates 83 are connected, two adjacent second buckles 84 are inserted into the third U-shaped groove 851, and the clamping ends 8413 on each second buckle 84 are respectively clamped with two stop plates 853 in the third buckle 85. The third buckle 85 is clamped in the first U-shaped groove 831, and the stop plates 853 on two sides are clamped with the clamping ends 823 on two sides in the first buckle 82, so that the wall surface substrate 83 is mounted on the wall surface 204, and connection and assembly are convenient.

Inward in this case is the direction toward the inside of the corresponding groove, and outward is the direction toward the outside of the corresponding groove.

Preferably, as shown in fig. 12, an extension plate 854 is obliquely provided on the stopper plate 853.

In the direction from the third clip 85 to the wall base 83, the extension plate 854 extends obliquely outward, so that an operator can hold the extension plate 854 to squeeze the third clip 85, thereby clipping the third clip 85 into the first U-shaped groove 831. When it is desired to withdraw the third clip 85 from the first U-shaped recess 831, the two-sided extension plates 854 are pressed and the third clip 85 can then be withdrawn from the first U-shaped recess 831.

Preferably, as shown in fig. 13-14, the second buckle 84 further includes a base plate connection plate 842 for connecting with the wall base plate 83.

A step portion is provided on the substrate back surface 831 of the wall surface substrate 83, the step portion includes a step portion plane 833 and a step portion elevation 832, and the step portion elevation 832 is connected between the step portion plane 833 and the substrate back surface 831.

The base plate connector 842 includes a back connector 8421, a vertical connector 8422, and a planar connector 8423 connected in sequence.

The back connection plate 8421 is fixedly connected to the back 831 of the substrate, the elevation connection plate 8422 is fixedly connected to the step elevation 832, and the plane connection plate 8423 is fixedly connected to the step plane 833.

The flat connection plate 8423 is connected to the buckle main body 841.

By the arrangement, the connection area between the substrate connection plate 842 and the wall surface substrate 83 is expanded, the connection stability is improved, the vertical surface connection plate 8422 also plays a supporting role on the wall surface substrate 83 in the vertical direction, and the connection fastening pressure of the back surface connection plate 8421 and the plane connection plate 8423 is relieved.

The back connecting plate 8421, the vertical connecting plate 8422 and the plane connecting plate 8423 are integrally formed, and the plane connecting plate 8423 is integrally formed with the buckle main body 841, so that the structural strength is improved, and the service life is prolonged.

Preferably, the first clasp 82 is integrally formed with the second clasp 84 and the third clasp 85 is integrally formed with the third clasp.

Preferably, as shown in fig. 13-14, the substrate back 831 is parallel to the step plane 833, and the step elevation 832 is connected perpendicularly between the substrate back 831 and the step plane 833.

The back connecting plate 8421 is parallel to the plane connecting plate 8423, and the vertical surface connecting plate 8422 is vertically connected between the plane connecting plate 8423 and the back connecting plate 8421, so that connection between all the plate surfaces is facilitated, the laminating degree is increased, and the connection stability is improved.

Preferably, as shown in fig. 10-12, the wall connection 81 includes a wall connection plate 811 for connection with the wall 204, a clasp connection plate 812 for connection with the first clasp 82, and an intermediate connection plate 813 connected between the wall connection plate 811 and the clasp connection plate 812.

The wall connection plate 811 is parallel to the clip connection plate 812, and the intermediate connection plate 813 is vertically connected between the clip connection plate 812 and the wall connection plate 811, the clip connection plate 812 being located between the wall connection plate 811 and the first clip 82.

An installation space is formed between the snap connection plate 812 and the wall surface 204.

The buckle connection plate 812 is connected with the first U-shaped groove bottom plate 824 of the first U-shaped groove 821 through a fastener 86.

By providing the snap connection plate 812 on the front side of the wall connection plate 811 such that an installation space is formed between the snap connection plate 812 and the wall 204, tightening of fasteners 86, such as bolts, is facilitated.

The wall surface connecting plate 811 is arranged parallel to the buckle connecting plate 812, and the inter-connecting plate 813 is vertically connected between the buckle connecting plate 812 and the wall surface connecting plate 811, so that the inter-connecting plate is convenient to connect with the wall surface 204 and level.

Preferably, as shown in fig. 10-12, a bottom plate groove 856 is provided on the third U-shaped groove bottom plate 855 of the third U-shaped groove 851 at a position corresponding to the fastening member 86, so as to avoid interference to the fastening member 86, and facilitate assembly.

An embodiment of the present invention provides an installation method for installing a bathroom glass partition installation structure, and the installation method is shown in fig. 1 to 14, and includes the following steps:

s001: the top frame 11 and the ceiling board 203 are fastened and connected by bolts 15, the side frames 13 and the wall panel 205 are fastened and connected by bolts 15, and the bottom frame 12 is adhered to the waterproof bottom box 5 by adhesive 3 to form the partition frame 1.

S002: the glass panel 2 is mounted in the partition frame 1.

S003: and injecting adhesive into the U-shaped grooves 14 of the glass panel 2 and the partition frame 1 to fix the glass panel 2.

That is, during installation, the top frame 11 is fastened and connected with the ceiling board 203 through the screws 15, then the side frame 13 is fastened and connected with the wall panel 205 through the screws 15, then the bottom frame 13 is fastened on the waterproof bottom box 5 to form the partition frame 1, then the glass panel 2 is inserted into the partition frame 1 from the side without the frame, and then the glass panel is fixed through adhesive glue, so that the installation is convenient, the working procedure of site secondary processing is cancelled, the factory processing and site integrated installation are realized, and the installation efficiency is improved.

The above technical schemes can be combined according to the need to achieve the best technical effect.

What has been described above is merely illustrative of the principles and preferred embodiments of the present invention. It should be noted that several other variants are possible to those skilled in the art on the basis of the principle of the invention and should also be considered as the scope of protection of the present invention.

Claims (5)

1. The bathroom glass partition mounting structure is characterized by comprising a ceiling board arranged at the top of a bathroom, a wall panel arranged on the wall surface of the bathroom, a waterproof bottom box arranged on the ground of the bathroom and a glass partition mounting assembly;

the top frame in the glass partition installation assembly is fixedly connected with the suspended ceiling plate, the bottom frame in the glass partition installation assembly is fixedly connected with the waterproof bottom box, and the side frame in the glass partition installation assembly is fixedly connected with the wall panel;

the wall panel is arranged on the wall surface through a wall surface connecting component, the wall surface connecting component comprises a wall surface connecting piece, a first buckle connected with the wall surface connecting piece and a wall surface substrate connected to the first buckle, and the wall panel is adhered to the wall surface substrate through adhesive;

a second buckle is integrated on the end part of the wall surface substrate, and the second buckle is connected with the first buckle through a third buckle;

the first buckle comprises a first U-shaped groove, and clamping ends extend inwards at the tail ends of groove walls at two sides of the first U-shaped groove respectively;

the third buckle comprises a third U-shaped groove, and stop plates used for being matched with the clamping ends are respectively and inwards extended at the tail ends of groove walls at two sides of the third U-shaped groove;

the second buckle comprises a buckle main body part, the buckle main body part comprises a second U-shaped groove, and the tail end of the groove wall at one side of the second U-shaped groove is inwards provided with a clamping end which is used for being matched with the stop plate;

the third buckle is positioned in the first U-shaped groove, and the stop plate and the clamping end are clamped together;

two adjacent second buckles in two adjacent wall surface substrates are positioned in the third U-shaped groove, and the clamping end of each second buckle is respectively clamped with two stop plates in the third buckle;

the stop plate is positioned between the clamping end and the clamping end;

the extending plates are obliquely arranged on the stop plate, extend outwards obliquely in the direction from the third buckle to the wall surface base plate, are convenient for an operator to hold the extending plates to press the third buckle so as to clamp the third buckle into the first U-shaped groove, and when the third buckle needs to be pulled out of the first U-shaped groove, the extending plates on two sides are extruded so as to pull the third buckle out of the first U-shaped groove;

the wall surface connecting piece comprises a wall surface connecting plate, a buckle connecting plate and an intermediate connecting plate, wherein the wall surface connecting plate is used for being connected with the wall surface, the buckle connecting plate is used for being connected with the first buckle, the intermediate connecting plate is connected between the wall surface connecting plate and the buckle connecting plate, the wall surface connecting plate is parallel to the buckle connecting plate, the intermediate connecting plate is vertically connected between the buckle connecting plate and the wall surface connecting plate, and the wall surface connecting plate and the wall surface are conveniently connected and leveled;

the novel wall fastener comprises a wall surface, a buckle connecting plate and a first U-shaped groove, wherein an installation space is formed between the buckle connecting plate and the wall surface, the buckle connecting plate is connected with the first U-shaped groove bottom plate of the first U-shaped groove through a fastener, the buckle connecting plate is arranged on the front side of the wall surface connecting plate, and therefore the installation space is formed between the buckle connecting plate and the wall surface, and the fastener is convenient to screw down.

2. The shower glass partition mounting structure of claim 1 wherein the bottom frame is bonded to the waterproof bottom box by adhesive.

3. The bathroom glass partition mounting structure according to claim 1, wherein the waterproof bottom box comprises a dry area bottom box and a wet area bottom box which are integrally formed, and a drain hole is formed in a bottom plate of the wet area bottom box;

dry area floor tiles are laid in the dry area bottom box, wet area floor tiles are laid in the wet area bottom box, and the bottom frame is located between the dry area floor tiles and the wet area floor tiles.

4. The bathroom glass partition mounting structure of claim 1, wherein the second clasp further comprises a base plate connecting plate for connecting with the wall base plate;

the wall surface substrate is characterized in that a step part is arranged on the back surface of the substrate, the step part comprises a step part plane and a step part elevation, and the step part elevation is connected between the step part plane and the back surface of the substrate;

the substrate connecting plate comprises a back connecting plate, a vertical surface connecting plate and a plane connecting plate which are connected in sequence;

the back connecting plate is fixedly connected to the back of the substrate, the elevation connecting plate is fixedly connected to the elevation of the step part, and the plane connecting plate is fixedly connected to the plane of the step part;

the plane connecting plate is connected with the buckle main body part.

5. A mounting method for mounting the bathroom glass partition mounting structure of any one of claims 1-4, comprising the steps of:

s001: the top frame is fixedly connected with the ceiling plate through screws, the side frames are fixedly connected with the wall panel through screws, and the bottom frame is adhered to the waterproof bottom box through adhesive to form a partition frame;

s002: mounting a glass panel within the partition frame;

s003: injecting adhesive into the U-shaped grooves of the glass panel and the partition frame to fix the glass panel.