CN113073768A - Plug-in type cascade modeling structure and installation method thereof - Google Patents

Abstract

The invention discloses a plug-in type cascade modeling structure and an installation method thereof, relating to the technical field of building decoration and comprising the following steps: the pair of falling plates, the pair of first falling plug-in pieces, the pair of edge closing plug-in pieces, the pair of first falling plug-in pieces and the pair of second falling plug-in pieces; each of the pair of edge-closing plug-in units is respectively fixed on one of the pair of side walls, the top of each of the pair of falling plates is respectively and fixedly connected with one of the pair of first falling plug-in units, each of the pair of first falling plug-in units is respectively arranged close to one of the pair of side walls and fixed below the top wall, each of the pair of first falling plug-in units is respectively inserted and suspended on one of the pair of first falling plug-in units, the bottom of each of the pair of falling plates is respectively and fixedly connected with one of the pair of second falling plug-in units, and each of the pair of second falling plug-in units is respectively inserted and suspended on one of the pair of edge-closing plug-in units. The invention can simplify the structure of the stepped modeling structure and improve the installation efficiency.

Description

Plug-in type cascade modeling structure and installation method thereof

Technical Field

The invention relates to the technical field of building decoration, in particular to a plug-in type falling-level modeling structure and an installation method thereof.

Background

The suspended ceiling plays a role in decorating the top of an indoor building and is an indispensable part for indoor decoration.

The falling-level modeling structure of the assembly type suspended ceiling in the prior art has the problems of complex structure, difficult installation and the like, and the original vertical frame plate is manufactured by slotting, bending and processing the panel, so that the manufacturing process is complex. Moreover, when the drop-grade plate made of common glass magnesium boards, gypsum board materials and the like is lifted and installed, the problem that the drop-grade plate is deformed and difficult to install often occurs.

Therefore, it is necessary to solve the above-mentioned technical problems.

Disclosure of Invention

The invention aims to make up for the defects in the prior art, and provides a plug-in type drop-level modeling structure and an installation method thereof, which can simplify the structure of the drop-level modeling structure of a suspended ceiling and improve the installation efficiency.

The embodiment of the invention provides a plug-in type cascade modeling structure, which comprises: the pair of falling plates, the pair of first falling plug-in pieces, the pair of edge closing plug-in pieces, the pair of first falling plug-in pieces and the pair of second falling plug-in pieces; each of the pair of edge-closing plug-ins is fixed on one of the pair of side walls respectively, the top of each of the pair of falling plates is fixedly connected with one of the pair of first falling plug-ins respectively, each of the pair of first falling plug-ins is arranged close to one of the pair of side walls respectively and is fixed below the top wall, each of the pair of first falling plug-ins is inserted and hung on one of the pair of first falling plug-ins respectively, the bottom of each of the pair of falling plates is fixedly connected with one of the pair of second falling plug-ins respectively, and each of the pair of second falling plug-ins is inserted and hung on one of the pair of edge-closing plug-ins respectively.

Optionally, the cascade plate comprises a vertical plate and a flat plate which are vertically connected; the edge closing plug-in piece comprises a first lath, a second lath, a third lath and a fourth lath, the second lath is vertically connected to one side edge of the first lath, the third lath is vertically connected to the other side edge of the first lath, the fourth lath is vertically connected with the third lath, the fourth lath and the first lath are oppositely arranged at intervals to form a first plug-in groove, and the second lath is fixedly connected with the side wall; the first falling-level plug-in piece comprises a fifth strip and a sixth strip which are vertically connected, and the sixth strip is fixedly connected with the side face of the vertical plate; the first cascade plug-in unit comprises a seventh batten, an eighth batten and a ninth batten, wherein the eighth batten and the ninth batten are positioned on one side of the seventh batten and vertically connected with the seventh batten, the eighth batten and the ninth batten are oppositely arranged at intervals to form a second plug-in groove, and the eighth batten is fixed below the top wall; the second cascade insert comprises a tenth plate strip, an eleventh plate strip and a twelfth plate strip, wherein the eleventh plate strip and the twelfth plate strip are positioned on one side of the tenth plate strip and are vertically connected with the tenth plate strip, the eleventh plate strip and the twelfth plate strip are oppositely arranged at intervals to form a third inserting groove, and the eleventh plate strip is fixedly connected to the top surface of the flat plate; the twelfth lath is inserted into the first insertion groove in a matching mode, the fifth lath is inserted into the second insertion groove in a matching mode, and the fourth lath is inserted into the third insertion groove in a matching mode.

Optionally, the vertical plate and the flat plate are of a split structure, and the vertical plate further comprises a second falling-stage plug-in unit and a third falling-stage plug-in unit, wherein the second falling-stage plug-in unit comprises a thirteenth lath and a fourteenth lath which are vertically connected, the thirteenth lath is fixedly connected with the side surface of the vertical plate, the third falling-stage plug-in unit comprises a fifteenth lath, a sixteenth lath and a seventeenth lath, the sixteenth lath and the seventeenth lath are positioned on one side of the fifteenth lath and vertically connected with the fifteenth lath, the sixteenth lath and the seventeenth lath are oppositely arranged at intervals to form a fourth insertion groove, the sixteenth lath is fixedly connected with the top surface of the flat plate, and the fourteenth lath is inserted into the fourth insertion groove in.

Optionally, the vertical plate and the flat plate are made of glass magnesium plates or gypsum plates, and the first drop-level plug-in piece, the edge closing plug-in piece, the first drop-level plug-in piece, the second drop-level plug-in piece, and the third drop-level plug-in piece are sectional materials.

Optionally, a pair of grooves is formed on a pair of opposite side edges of the side surface of the vertical plate; the sixth strap is received and secured in one of the pair of channels and the thirteenth strap is received and secured in the other of the pair of channels.

Optionally, the sixth strip is bonded and fixed in one of the pair of groove bodies, the thirteenth strip is bonded and fixed in the other of the pair of groove bodies, and a coating film covering the side surface of the upright plate, the sixth strip and the thirteenth strip is disposed on the side portion of the upright plate.

Optionally, the second lath is fixedly connected with the side wall through a screw.

Optionally, the eighth batten is secured to the underside of the top wall by screws.

Optionally, the eleventh and sixteenth strips are fixedly connected to the top surface of the flat plate by screws.

The embodiment of the present invention further provides an installation method of the plug-in type drop-level modeling structure, where the plug-in type drop-level modeling structure is the plug-in type drop-level modeling structure described above, and the installation method includes the following steps: fixing the pair of edge closing plug-ins to the pair of side walls respectively; fixing the pair of first drop stage inserts below the top wall respectively; the pair of first falling-stage plug-in hangers and the pair of second falling-stage plug-in units are respectively and fixedly connected to the falling-stage plate, the pair of first falling-stage plug-in hangers are respectively inserted and hung on the pair of first falling-stage plug-in units, and the pair of second falling-stage plug-in units are respectively inserted and hung on the pair of edge-closing plug-in units.

Compared with the prior art, the plug-in type drop-level modeling structure and the installation method thereof provided by the invention have the following advantages:

the plug-in type cascade modeling structure is characterized in that the top of a cascade plate is plugged and suspended in a first cascade plug-in unit fixed below a top wall through a first cascade plug-in unit, and the bottom of the cascade plate is plugged and connected to a side wall fixedly-connected edge-closing plug-in unit through a second cascade plug-in unit;

the vertical plate and the flat plate of the cascade plate are arranged to be of split structures, and the second cascade plate is inserted and assembled with the third cascade plate, so that the vertical plate can be separately fixed below the top wall, and then the flat plate is assembled on the edge collecting plug-in unit and the vertical plate, the problems that the integral cascade plate is heavy in weight and difficult to align and assemble with the first cascade plate and the edge collecting plug-in unit which are different in height due to the bending structure of the integral cascade plate are solved, and the assembling efficiency can be further improved; the vertical plate can be inserted into the first falling-level plug-in piece after being lifted upwards and translated, and the flat plate can be inserted into the edge-receiving plug-in piece and the second falling-level plug-in piece after being lifted upwards and translated, so that the installation is convenient and rapid;

and thirdly, a pair of groove bodies are formed on two side edges of the side surface of the vertical plate, and a sixth strip of the first falling-level inserting and hanging piece and a thirteenth strip of the second falling-level inserting and hanging piece are accommodated and fixed in the pair of groove bodies to form an integral inserting and hanging type vertical plate. The integral plug-in type vertical plate can be transported to the site for installation after being produced in a factory, so that the materials on the site are reduced, the installation of the sectional materials is not needed to be nailed on the site, the site management is more convenient, and the efficiency is improved.

Drawings

In order to more clearly illustrate the technical solution of the present invention, the drawings needed to be used in the description of the present invention will be briefly introduced below, and it is apparent that the drawings described below are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without inventive labor.

Fig. 1 is an exploded view of a plug-in cascade configuration according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a plug-in type cascade molding structure according to an embodiment of the present invention.

Fig. 3 is an assembly view of a plug-in type cascade molding structure according to an embodiment of the present invention.

Fig. 4 is an enlarged view of a portion a in fig. 3.

Fig. 5 is an enlarged view at B in fig. 3.

Fig. 6 is a schematic structural diagram of an edge closing plug-in unit according to an embodiment of the present invention.

Fig. 7 is a schematic structural diagram of a first drop-level plug-in hanger according to an embodiment of the present invention.

Fig. 8 is a schematic structural diagram of a first cascade card according to an embodiment of the present invention.

Fig. 9 is a schematic structural diagram of a second cascade plug according to an embodiment of the present invention.

Fig. 10 is an enlarged view at C in fig. 3.

Fig. 11 is an assembly schematic diagram of a vertical plate and a first drop-level plug-in unit and a second drop-level plug-in unit according to an embodiment of the present invention.

Fig. 12 is a schematic structural diagram of a third cascade plug according to an embodiment of the present invention.

Detailed Description

The technical solutions in the present invention will be described clearly and completely with reference to the accompanying drawings, and it is obvious that the described embodiments are some, not all embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, shall fall within the scope of protection of the present invention.

As shown in fig. 1 to 5, an embodiment of the present invention provides a plug-in type cascade molding structure 10, including: a pair of cascade plates 100, a pair of first cascade cards 200, a pair of closeout cards 300, a pair of first cascade cards 400, and a pair of second cascade cards 500.

Each of the pair of edge-closing inserts 300 is fixed to one of the pair of side walls 600, the top of each of the pair of falling plates 100 is fixedly connected to one of the pair of first falling insert hangers 200, each of the pair of first falling inserts 400 is disposed near one of the pair of side walls 600 and fixed below the top wall 700, each of the pair of first falling insert hangers 200 is inserted and suspended on one of the pair of first falling inserts 400, the bottom of each of the pair of falling plates 100 is fixedly connected to one of the pair of second falling inserts 500, and each of the pair of second falling inserts 500 is inserted and suspended on one of the pair of edge-closing inserts 300. Specifically, the edge-closing insert 300 is fixed on the side wall 600, the first cascade insert 400 is fixed below the top wall 700, the top of the cascade plate 100 is connected to the first cascade insert 400 through the first cascade insert hanger 200, and the bottom of the cascade plate 100 is supported on the edge-closing insert 300 through the second cascade insert 500, so as to complete the installation of the cascade plate 100.

According to the plug-in type cascade modeling structure 10 provided by the embodiment of the invention, the top of the cascade plate 100 is plugged in and suspended on the first cascade plug-in 400 fixed below the top wall 700 through the first cascade plug-in 200, and the bottom of the cascade plate 100 is plugged in the edge closing plug-in 300 fixedly connected with the side wall 600 through the second cascade plug-in 500.

As a preferred implementation of the embodiment of the present invention, as shown in fig. 1 to 9, the cascade plate 100 includes a vertical plate 110 and a flat plate 120 which are vertically connected; the edge folding insert 300 comprises a first strip 310, a second strip 320, a third strip 330 and a fourth strip 340, wherein the second strip 320 is vertically connected to one side edge of the first strip 310, the third strip 330 is vertically connected to the other side edge of the first strip 310, the fourth strip 340 is vertically connected to the third strip 330, the fourth strip 340 is oppositely arranged at a distance from the first strip 310 to form a first inserting groove 350, and the second strip 320 is fixedly connected to the sidewall 600; the first drop-level plug-in connector 200 comprises a fifth strip 210 and a sixth strip 220 which are vertically connected, and the sixth strip 220 is fixedly connected with the side surface of the vertical plate 110; the first cascade insert 400 comprises a seventh plate strip 410, and an eighth plate strip 420 and a ninth plate strip 430 which are positioned on one side of the seventh plate strip 410 and vertically connected with the seventh plate strip 410, wherein the eighth plate strip 420 and the ninth plate strip 430 are oppositely arranged at a spacing to form a second inserting groove 440, and the eighth plate strip 420 is fixed below the top wall 700; the second cascade insert 500 comprises a tenth strip 510, and an eleventh strip 520 and a twelfth strip 530 which are positioned on one side of the tenth strip 510 and vertically connected to the tenth strip 510, wherein the eleventh strip 520 and the twelfth strip 530 are oppositely arranged at a spacing to form a third inserting groove 540, and the eleventh strip 520 is fixedly connected to the top surface of the plate 120; the twelfth blade 530 is fittingly inserted into the first insertion groove 350, the fifth blade 210 is fittingly inserted into the second insertion groove 440, and the fourth blade 340 is fittingly inserted into the third insertion groove 540. Specifically, the falling plate 100, that is, the vertical plate 110 and the flat plate 220, may be a magnesium oxide plate, a gypsum plate, or the like, the edge closing insert 300, the first falling insert 200, the first falling insert 400, and the second falling insert 500 may be a profile, the second lath 320 is fixedly connected to the side wall 600 by a screw, the eighth lath 420 is fixedly connected to the lower side of the top wall 700 by a screw, and the eleventh lath 820 is fixedly connected to the top surface of the flat plate 120 by a screw.

In the above embodiment of the present invention, by providing the structures of the cascade plate 100, the first cascade plate 200, the edge closing plate 300, the first cascade plate 400, and the second cascade plate 500, the first cascade plate 400 is fixed below the top wall 700, the first cascade plate 200 is fixed on the vertical plate 110 of the cascade plate 100, the second cascade plate 500 is fixed on the flat plate 120 of the cascade plate 100, the first cascade plate 200 is inserted and suspended to the first cascade plate 400, and the second cascade plate 500 is inserted and suspended to the edge closing plate 300, so that the installation of the cascade plate 100 can be completed, the installation structure of the cascade plate 100 is simple and stable, the assembly step is simple and convenient, a complex post-structure is not required, and the installation efficiency can be further improved.

As a preferred implementation manner of the embodiment of the present invention, as shown in fig. 1 to 12, the vertical plate 110 and the flat plate 120 are of a split structure, and further include a second drop level plug-in unit 800 and a third drop level plug-in unit 900, the second drop level plug-in unit 800 includes a thirteenth strip 810 and a fourteenth strip 820 that are vertically connected, the thirteenth strip 810 is fixedly connected to a side surface of the vertical plate 110, the third drop level plug-in unit 900 includes a fifteenth strip 910 and a sixteenth strip 920 and a seventeenth strip 930 that are located on one side of the fifteenth strip 910 and vertically connected to the fifteenth strip 910, the sixteenth strip 920 and the seventeenth strip 930 are oppositely disposed at an interval to form a fourth insertion groove 940, the sixteenth strip 920 is fixedly connected to a top surface of the flat plate 120, and the fourteenth strip 820 is fittingly inserted into the fourth insertion groove 940. Specifically, the second cascade insert 800 and the third cascade insert 900 may be formed by sectional materials, and the sixteenth strip 920 is fixedly connected to the top surface of the flat plate 120 by screws. In this embodiment, the vertical plate 110 and the flat plate 120 of the cascade plate 100 are arranged to be split structures, and are inserted and assembled through the second cascade plate 800 and the third cascade plate 900, so that the vertical plate 110 can be separately assembled on the first cascade plate 400, and then the flat plate 120 is assembled on the edge collecting plate 300 and the vertical plate 110, and the panel is not required to be grooved and bent to manufacture a framed plate, and the process is simple, and the problems that the integral cascade plate 100 is heavy and the bending structure of the integral cascade plate 100 makes it difficult to align and assemble the first cascade plate 400 and the edge collecting plate 300 with different heights at the same time are avoided, and the assembly efficiency can be further improved. The vertical plate 110 can be inserted into the first falling-level plug-in piece 200 after being lifted upwards and translated, and the flat plate 120 can be inserted into the edge-receiving plug-in piece 300 and the second falling-level plug-in piece 800 after being lifted upwards and translated, so that the installation is convenient and quick.

As a further improved embodiment of the present invention, as shown in fig. 11, a pair of opposite side edges of the side surface of the vertical plate 110 are provided with a pair of grooves 111; the sixth strip 220 is received and fixed in one of the pair of grooves 111, and the thirteenth strip 810 is received and fixed in the other of the pair of grooves 111.

In the above embodiment of the present invention, the pair of grooves 111 are formed on the two side edges of the side surface of the vertical plate 110, and the sixth strip 220 of the first drop-level plug-in hanger 200 and the thirteenth strip 810 of the second drop-level plug-in hanger 800 are accommodated and fixed in the pair of grooves 111, so that the vertical plate becomes an integral plug-in vertical plate, which has higher strength, and can control the deformation of the panel when the vertical plate is lifted up, thereby improving the safety of the suspended ceiling and making the vertical plate 110 easier to lift up and install. The integral plug-in type vertical plate can be transported to the site for installation after being produced in a factory, so that the materials on the site are reduced, the installation of the sectional materials is not needed to be nailed on the site, the site management is more convenient, and the efficiency is improved.

In an alternative embodiment, the sixth strip 220 is bonded and fixed to one of the pair of grooves 111, the thirteenth strip 810 is bonded and fixed to the other of the pair of grooves 111, and a coating film (not shown) covering a side surface of the upright plate 110, the sixth strip 220, and the thirteenth strip 810 is disposed on a side portion of the upright plate 110. Specifically, the coating film may be a composite film, a polyester film, a nylon film, a plastic film, or the like, and covers the side surface of the vertical plate 110, the sixth strip 220, and the thirteenth strip 810 by bonding. In this embodiment, the sixth strip 220 is adhesively fixed in one groove 111, the thirteenth strip 810 is adhesively fixed in the other groove 111, and the film covers the side surface of the vertical plate 110, the sixth strip 220 and the thirteenth strip 810, so that the first drop type pendant 200 and the second drop type pendant 800 are easily assembled and fixed with the vertical plate 110, the integrity and the aesthetic degree of the integral plug-in vertical plate can be enhanced, and the first drop type pendant 200 and the second drop type pendant 800 can be prevented from falling off from the vertical plate 110.

As an alternative embodiment of the present invention, as shown in fig. 1-3 and 5, the present invention further includes a plurality of keels 1000, a plurality of panels 1100, and a plurality of panel connectors 1200, wherein the plurality of keels 1000 are fixed to the top wall 700 in parallel and spaced apart, each panel 1100 is fixedly connected to at least one panel connector 1200, the plurality of panel connectors 1200 are connected to the bottom of the plurality of keels 1000 to splice the plurality of panels 1100 along the length direction of the keels 1000, and each of the pair of first drop-level inserts 400 is fixedly connected to the bottom of one of the pair of panels 1100 adjacent to the pair of side walls 600. Specifically, the keel 1000 may be made of metal, a plurality of expansion bolts are welded to the top of the keel 1000, and the plurality of expansion bolts may be inserted into the top wall 700 to fix the keel 1000 to the top wall 700; the bottom of the keel 1000 may be provided with a slot facing to the side, the insertion portion of the panel connector 1200 is inserted into the slot to connect the panel connector 1200 with the bottom of the keel 1000, the panel connector 1200 may be fixedly connected to the panel 1100 by screws, and the first drop stage insert 400 is fixedly connected to the bottom of the panel 1100 by screws.

The embodiment of the present invention further provides an installation method of the plug-in type drop-level modeling structure, where the plug-in type drop-level modeling structure is the plug-in type drop-level modeling structure 10 described above, as shown in fig. 1 to 5, and the installation method includes the following steps:

fixing the pair of edge closing plug-ins 300 to the pair of side walls 600 respectively;

fixing the pair of first cascade inserts 400 under the top wall 700, respectively;

the pair of first drop-level plug-in hangers 200 and the pair of second drop-level plug-in units 500 are respectively and fixedly connected to the drop-level board, the pair of first drop-level plug-in hangers 200 are respectively inserted and hung on the pair of first drop-level plug-in units 400, and the pair of second drop-level plug-in units 500 are respectively inserted and hung on the pair of edge-closing plug-in units 300.

According to the plug-in type cascade modeling structure 10 provided by the embodiment of the invention, the top of the cascade plate 100 is plugged in and suspended on the first cascade plug-in 400 fixed below the top wall 700 through the first cascade plug-in 200, and the bottom of the cascade plate 100 is plugged in the edge closing plug-in 300 fixedly connected with the side wall 600 through the second cascade plug-in 500.

While the invention has been described with reference to specific embodiments, the invention is not limited thereto, and various equivalent modifications and substitutions can be easily made by those skilled in the art within the technical scope of the invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. The utility model provides a plug-in type falls level molding structure which characterized in that includes: the pair of falling plates, the pair of first falling plug-in pieces, the pair of edge closing plug-in pieces, the pair of first falling plug-in pieces and the pair of second falling plug-in pieces; each of the pair of edge-closing plug-ins is fixed on one of the pair of side walls respectively, the top of each of the pair of falling plates is fixedly connected with one of the pair of first falling plug-ins respectively, each of the pair of first falling plug-ins is arranged close to one of the pair of side walls respectively and is fixed below the top wall, each of the pair of first falling plug-ins is inserted and hung on one of the pair of first falling plug-ins respectively, the bottom of each of the pair of falling plates is fixedly connected with one of the pair of second falling plug-ins respectively, and each of the pair of second falling plug-ins is inserted and hung on one of the pair of edge-closing plug-ins respectively.

2. The plug-in type cascade modeling structure of claim 1, wherein a plurality of expansion bolts are fixedly connected to the top of each first keel, and the cascade plates comprise vertical plates and flat plates which are vertically connected; the edge closing plug-in piece comprises a first lath, a second lath, a third lath and a fourth lath, the second lath is vertically connected to one side edge of the first lath, the third lath is vertically connected to the other side edge of the first lath, the fourth lath is vertically connected with the third lath, the fourth lath and the first lath are oppositely arranged at intervals to form a first plug-in groove, and the second lath is fixedly connected with the side wall; the first falling-level plug-in piece comprises a fifth strip and a sixth strip which are vertically connected, and the sixth strip is fixedly connected with the side face of the vertical plate; the first cascade plug-in unit comprises a seventh batten, an eighth batten and a ninth batten, wherein the eighth batten and the ninth batten are positioned on one side of the seventh batten and vertically connected with the seventh batten, the eighth batten and the ninth batten are oppositely arranged at intervals to form a second plug-in groove, and the eighth batten is fixed below the top wall; the second cascade insert comprises a tenth plate strip, an eleventh plate strip and a twelfth plate strip, wherein the eleventh plate strip and the twelfth plate strip are positioned on one side of the tenth plate strip and are vertically connected with the tenth plate strip, the eleventh plate strip and the twelfth plate strip are oppositely arranged at intervals to form a third inserting groove, and the eleventh plate strip is fixedly connected to the top surface of the flat plate; the twelfth lath is inserted into the first insertion groove in a matching mode, the fifth lath is inserted into the second insertion groove in a matching mode, and the fourth lath is inserted into the third insertion groove in a matching mode.

3. The plug-in type cascade modeling structure of claim 2, wherein the vertical plate and the flat plate are of a split structure, and further comprises a second cascade plug-in unit and a third cascade plug-in unit, the second cascade plug-in unit comprises a thirteenth plate strip and a fourteenth plate strip which are vertically connected, the thirteenth plate strip is fixedly connected with the side surface of the vertical plate, the third cascade plug-in unit comprises a fifteenth plate strip and a sixteenth plate strip and a seventeenth plate strip which are positioned on one side of the fifteenth plate strip and vertically connected with the fifteenth plate strip, the sixteenth plate strip and the seventeenth plate strip are oppositely arranged at intervals to form a fourth plug-in groove, the sixteenth plate strip is fixedly connected with the top surface of the flat plate, and the fourteenth plate strip is fittingly plugged in the fourth plug-in groove.

4. The plug-in type cascade modeling structure of claim 3, wherein the vertical plate and the flat plate are magnesium boards or gypsum boards, and the first cascade plug-in member, the edge-closing plug-in member, the first cascade plug-in member, the second cascade plug-in member, and the third cascade plug-in member are profiles.

5. The plug-in type cascade modeling structure of claim 4, wherein a pair of grooves are formed on a pair of opposite side edges of the side surface of the vertical plate; the sixth strap is received and secured in one of the pair of channels and the thirteenth strap is received and secured in the other of the pair of channels.

6. The plug-in type cascade moulding structure according to claim 5, characterized in that the sixth strip is adhesively fixed in one of the pair of grooves, the thirteenth strip is adhesively fixed in the other of the pair of grooves, and a coating film covering the side face of the upright plate, the sixth strip and the thirteenth strip is provided at the side of the upright plate.

7. The plug-in type cascade moulding structure according to claim 6, wherein the second lath is fixedly connected with the side wall by a screw.

8. The plug-in drop stage configuration according to claim 7, wherein said eighth batten is secured to the underside of said top wall by screws.

9. The plug-in drop-type configuration of claim 8, wherein the eleventh and sixteenth slats are fixedly attached to the top surface of the planar sheet by screws.

10. A method of installing a plug-in type drop-off moulding structure, which is as claimed in any one of claims 1 to 9, comprising the steps of: fixing the pair of edge closing plug-ins to the pair of side walls respectively; fixing the pair of first drop stage inserts below the top wall respectively; the pair of first falling-stage plug-in hangers and the pair of second falling-stage plug-in units are respectively and fixedly connected to the falling-stage plate, the pair of first falling-stage plug-in hangers are respectively inserted and hung on the pair of first falling-stage plug-in units, and the pair of second falling-stage plug-in units are respectively inserted and hung on the pair of edge-closing plug-in units.

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