CN112064966A - Novel ceramic tile composite board structure and mounting method - Google Patents

Abstract

The invention provides a novel ceramic tile composite board structure and an installation method, and belongs to the technical field of composite boards. The novel ceramic tile composite board structure and the installation method comprise a base board, ceramic tiles, plug connectors and supporting pieces. The insertion plate of the supporting piece is inserted into the slot, the fixing structure supports the insertion plate when the insertion plate is inserted into the slot, and the supporting pieces are respectively arranged on the periphery of the base plate, so that the base plate can be supported, two composite plates do not need to be connected together when a plurality of composite plates are installed, and only one of the composite plates needs to be taken out when one of the composite plates needs to be replaced when the plurality of composite plates are connected, so that the composite plates are convenient to replace.

Description

Novel ceramic tile composite board structure and mounting method

Technical Field

The invention relates to the technical field of composite board installation, in particular to a novel ceramic tile composite board structure and an installation method.

Background

At present, cement fiber boards or plastics are mostly used as ceramic tile and stone composite board substrates in the decoration industry, and when the cement fiber boards are used as the substrates, installation structures are formed around the cement fiber boards through injection molding; when the base plate is made of plastic, the thin-wall shell structure is formed through injection molding, four sides of the thin-wall shell structure are provided with the buckle mounting structures, however, the cement fiberboard is large in deformation in a humid environment when serving as the base plate, the composite board is high in cost when the base plate is made of plastic, the thin-wall shell structure can give out air noise, meanwhile, the buckle mounting structures are formed between the two boards, the two boards are required to be taken out when one board is required to be replaced, and the replacement is complex and inconvenient.

Chinese patent CN210416556U, published japanese 2020-04-28 disclose an interior composite material of rail transit vehicle, relate to combined material technical field, specifically are an interior composite material of rail transit vehicle, including composite sheet and base, the surface of composite sheet is seted up threaded hole, the surface that the composite sheet surface is close to the threaded hole has seted up the screw groove, the inside grafting of screw groove has the screw, one side of composite sheet is seted up flutedly, the opposite side fixedly connected with plugboard of composite sheet, the hole has been seted up on the surface of plugboard, the composite sheet includes metal substrate, one side of metal substrate is provided with the coating layer. This built-in combined material of track traffic vehicle, through the setting of screw hole, screw, recess and plugboard, during the use, insert the plugboard in the recess, then pass the screw hole with the screw and fix two composite sheets, through the setting in screw groove, make the fixed back of screw piece composite sheet, the one end of screw can not be outstanding. When one of them panel of needs changing then need all take out two panels in above-mentioned patent, it is comparatively complicated to change, inconvenient change.

Disclosure of Invention

The invention aims to provide a novel ceramic tile composite board structure and a mounting method aiming at the defects of the prior art.

The invention provides a novel ceramic tile composite board structure which comprises a base board, a ceramic tile arranged on the base board, plug connectors arranged on the periphery of the base board, and a supporting piece used for supporting the base board at the other end of the base board when one end of the base board is plugged, wherein each plug connector comprises a bearing board, a first connecting board and a second connecting board which are positioned at the lower end of the base board, one end of each first connecting board is connected to the base board, the other end of each first connecting board is connected to one end of the bearing board, one end of each second connecting board is connected to the base board, the other end of each second connecting board is connected to the other end of the bearing board, each plug connector further comprises a slot arranged between the first connecting board and the second connecting board.

Further, the substrate includes a first side end, a second side end, a third side end and a fourth side end, the first side end and the second side end are arranged oppositely, the third side end and the fourth side end are arranged oppositely, the plug connectors on the first side end and the plug connectors on the second side end are arranged at intervals when being respectively projected to the first center line of the substrate, and the plug connectors on the third side end and the plug connectors on the fourth side end are arranged at intervals when being respectively projected to the second center line of the substrate.

Further, the number of the plug-in units on the first side end is equal to the number of the plug-in units on the second side end, and the number of the plug-in units on the third side end is equal to the number of the plug-in units on the fourth side end.

Further, fixed knot constructs including with plugboard integrated into one piece's mounting panel, set up the mounting hole on the mounting panel, be used for when the mounting panel was arranged in on the loading board one end run through mounting hole, loading board to the rifle nail of butt in ground or wall in proper order.

Furthermore, one end of the mounting plate, which is far away from the plug board, is provided with a round angle.

Furthermore, the first connecting plate and the second connecting plate are symmetrically arranged, the bearing plate is parallel to the base plate, and the height of the inserting plate is equal to that of the mounting plate and the distance from the bearing plate to the base plate.

Furthermore, the bottom end of the base plate is provided with an annular plate and a connecting hole arranged on the annular plate, and the base plate further comprises a reinforcing block filled on the inner side of the annular plate and used for reinforcing the strength of the annular plate.

Furthermore, the plug connectors on the first side end, the second side end, the third side end and the fourth side end are arranged at equal intervals.

Further, the first connecting plate is a wavy line-shaped plate, one end of the first connecting plate connected to the base plate is arranged in a protruding mode towards one side far away from the base plate, and one end of the first connecting plate far away from the base plate is arranged in a recessed mode towards one side close to the base plate.

A novel ceramic tile composite board structure and an installation method thereof comprise the following steps:

s1: respectively inserting the inserting plates of the first supporting piece into the slots on the periphery of the first composite plate;

s2: inserting the inserting plates of the second supporting piece into the slots on the periphery of the second composite plate respectively;

s3: placing the second lateral end of the first composite panel on the mounting plate of the second support member on the first lateral end of the second composite panel and placing the first lateral end of the second composite panel on the mounting plate of the first support member on the second lateral end of the first composite panel;

s4: inserting the inserting plates of the third supporting piece into the slots on the periphery of the third composite plate respectively;

s5: placing the third side end of the first composite panel on the mounting plate of the third support member on the fourth side end of the third composite panel and placing the fourth side end of the third composite panel on the mounting plate of the first support member on the third side end of the first composite panel;

s6: inserting the inserting plates of the fourth supporting piece into the slots on the periphery of the fourth composite plate respectively;

s7: the second side ends of the three composite panels are placed on the fourth composite panel on the mounting plate of the fourth support member located on the first side end, the first side end of the fourth composite panel is placed on the third composite panel on the mounting plate of the third support member located on the second side end, the fourth side end of the second composite panel is placed on the fourth composite panel on the mounting plate of the fourth support member located on the third side end, and the third side end of the fourth composite panel is placed on the second composite panel on the mounting plate of the second support member located on the fourth side end.

The novel ceramic tile composite board structure and the installation method have the following beneficial effects:

1. the plug board of the supporting piece is plugged in the slot, the fixing structure supports the plug board when the plug board is plugged in the slot, and the supporting pieces are respectively arranged on the periphery of the base plate, so that the base plate can be supported, two composite plates do not need to be connected together when a plurality of composite plates are installed, and only one of the composite plates needs to be taken out when one of the composite plates needs to be replaced when the plurality of composite plates are connected, so that the composite plates are convenient to replace;

2. the base plate is a metal injection molding base plate, and a metal material is used as a base material of the composite plate, so that the deformation of the composite plate caused by the change of temperature and humidity due to environmental factors is reduced;

3. the plug connectors on the first side end and the second side end are arranged at intervals when being projected to a first central line of the substrate respectively, the plug connectors on the third side end and the fourth side end are arranged at intervals when being projected to a second central line of the substrate respectively, the plug connectors on the first side end of one substrate and the second side end of the other substrate are arranged at intervals when two adjacent substrates are abutted, and the plug connectors on the third side end and the fourth side end of one substrate are arranged at intervals when two adjacent substrates are abutted, so that the composite board can be conveniently installed on the ground in a large area;

3. the reinforcing blocks are filled on the inner side of the annular plate to reinforce the strength of the annular plate, and the annular plate can be filled on the inner side of the annular plate and coated on the outer side of the annular plate through injection molding of the high polymer material reinforcing blocks, so that the strength of the annular plate is increased;

4. one end of the gun nail penetrates through the mounting hole, the bearing plate and the butt joint in the ground or the wall surface in sequence when the mounting plate is arranged on the bearing plate, so that the supporting and reinforcing effects on the edge structure of the composite plate are achieved.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate embodiments of the invention and together with the description, serve to explain the principles of the invention. In the drawings, like reference numerals are used to indicate like elements. The drawings in the following description are directed to some, but not all embodiments of the invention. For a person skilled in the art, other figures can be derived from these figures without inventive effort.

Fig. 1 is a schematic structural diagram of a substrate and a ceramic tile in a novel ceramic tile composite board structure and an installation method according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a substrate in a novel tile composite board structure and an installation method according to an embodiment of the present invention;

fig. 3 is an enlarged view of a portion a of fig. 2 in the novel tile composite board structure and the installation method according to the embodiment of the present invention;

fig. 4 is an enlarged view of the portion B of fig. 2 in the novel tile composite board structure and the installation method according to the embodiment of the present invention;

fig. 5 is a schematic structural view of a supporting member in the novel tile composite board structure and the installation method according to the embodiment of the present invention;

FIG. 6 is a cross-sectional view of the novel tile composite panel and the installation method of the present invention, wherein the reinforcing blocks are filled inside the annular plate;

fig. 7 is a schematic structural view illustrating a supporting member connected to a substrate in the novel tile composite board structure and the installation method according to the embodiment of the present invention;

fig. 8 is an enlarged view of fig. 7 at C in the novel tile composite panel structure and installation method according to the embodiment of the present invention;

fig. 9 is a schematic structural view of a novel tile composite board structure and a mounting method according to an embodiment of the present invention, wherein a second composite board is mounted on a composite board;

fig. 10 is a schematic structural view of a novel tile composite board structure and a mounting method according to an embodiment of the present invention, wherein a third composite board is mounted on two composite boards;

fig. 11 is a schematic structural view of a novel tile composite board structure and a mounting method according to an embodiment of the present invention, in which a fourth composite board is mounted on three composite boards in a first mounting sequence;

fig. 12 is a schematic structural view of a novel tile composite board structure and a mounting method according to an embodiment of the present invention, in which a fourth composite board is mounted on three composite boards in a second mounting sequence;

fig. 13 is a schematic flow chart of a novel tile composite board structure and an installation method according to an embodiment of the present invention.

In the figure: 1-ceramic tile, 2-base plate, 31-annular plate, 311-connecting hole, 32-reinforcing block, 41-bearing plate, 42-first connecting plate, 43-second connecting plate, 5-supporting piece, 51-plug plate, 52-mounting plate, 521-fillet, 53-mounting hole and 6-gun nail.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention. It should be noted that the embodiments and features of the embodiments in the present application may be arbitrarily combined with each other without conflict.

Please refer to fig. 1 to 13. The novel ceramic tile composite board structure and the installation method comprise a substrate 2, a ceramic tile 1 arranged on the substrate 2, a plug connector arranged on the periphery of the substrate 2, and a support piece 5 used for supporting the substrate 2 at the other end when the substrate 2 is plugged at one end of the plug connector, wherein the plug connector comprises a bearing plate 41, a first connecting plate 42 and a second connecting plate 43 which are positioned at the lower end of the substrate 2, one end of the first connecting plate 42 is connected to the substrate 2, the other end of the first connecting plate is connected to one end of the bearing plate 41, one end of the second connecting plate 43 is connected to the substrate 2, the other end of the second connecting plate is connected to the other end of the bearing plate 41, the plug connector further comprises a slot arranged between the first connecting plate 42 and the second connecting plate 43, the support piece 5 comprises a plug board.

Here, the plugboard 51 of support piece 5 is pegged graft in the slot, and fixed knot constructs and supports plugboard 51 when plugboard 51 is pegged graft in the slot, and support piece 5 sets up respectively around base plate 2 to can live base plate 2, thereby need not link together two composite sheets when a plurality of composite sheets of installation, then only need take out one of them when one of them panel is being changed to a plurality of composite sheets when connecting, the convenient change.

The substrate 2 may include a first side end, a second side end, a third side end and a fourth side end, the first side end and the second side end are disposed oppositely, the third side end and the fourth side end are disposed oppositely, the first side end and the second side end of the plug connector are disposed at intervals when the plug connector on the first side end and the second side end of the plug connector project to the first center line of the substrate 2, and the third side end and the fourth side end of the plug connector project to the second center line of the substrate 2 respectively. The plug connector on the first side, be the interval setting when the plug connector on the second side projects to the first central line of base plate 2 respectively, the plug connector on the third side, the plug connector on the fourth side projects to the second central line of base plate 2 respectively is the interval setting, the plug connector on the first side of a base plate 2 and the plug connector interval setting on the second side of another base plate 2 when two adjacent base plate 2 butt, the plug connector on the third side of a base plate 2 when two adjacent base plate 2 butt, the plug connector interval setting of fourth side, be convenient for install the composite sheet subaerial large tracts of land.

The number of the plug-in units on the first side end may be equal to the number of the plug-in units on the second side end, and the number of the plug-in units on the third side end may be equal to the number of the plug-in units on the fourth side end.

The fixing structure may include a mounting plate 52 integrally formed with the socket plate 51, a mounting hole 53 formed on the mounting plate 52, and a stud 6 having one end sequentially penetrating through the mounting hole 53 and the bearing plate 41 to abut against the ground or the wall when the mounting plate 52 is placed on the bearing plate 41. When the mounting plate 52 is placed on the bearing plate 41, one end of the gun nail 6 sequentially penetrates through the mounting hole 53 and the bearing plate 41 to abut against the ground or the wall surface, so that the supporting and reinforcing effects on the edge structure of the composite plate are realized. The fixing structure can be processed by wood-plastic plates.

The one end that plugboard 51 was kept away from to mounting panel 52 can be equipped with fillet 521, is convenient for install two adjacent composite sheets, avoids extrudeing adjacent composite sheet when mounting panel 52 is the right angle, is unfavorable for carrying out a plurality of composite sheet large tracts of land installations.

The first connecting plate 42 and the second connecting plate 43 can be symmetrically arranged, the bearing plate 41 is parallel to the substrate 2, and the height of the plug board 51 is equal to the height of the mounting plate 52 and the distance from the bearing plate 41 to the substrate 2.

The bottom end of the base plate 2 may be provided with a ring plate 31, a connection hole 311 provided on the ring plate 31, and a reinforcement block 32 filled inside the ring plate 31 for reinforcing the strength of the ring plate 31. The reinforcing blocks 32 are filled inside the annular plate 31 to reinforce the strength of the annular plate 31, and the annular plate 31 can be formed by injecting the polymer material reinforcing blocks 32 into the annular plate 31 and coating the annular plate 31 outside, so that the strength of the annular plate 31 is increased.

The base plate 2 is the metal base plate 2 that moulds plastics, compares and to deform greatly in humid environment when cement fiberboard is as base plate 2, and the composite sheet cost is higher when plastics are as base plate 2, and the thin wall shell structure can send out the sky sound moreover, uses metal material as composite sheet base material, reduces the composite sheet because of the deformation that environmental factor changes temperature, humidity and produces. The composite board is formed by compounding a ceramic tile 1 and a metal injection molding base plate 2. The metal injection molding base plate 2 with the thickness of 0.3-0.6mm reduces the cost of the composite plate. The metal injection molding base plate 2 with the thickness of 0.3-0.6mm is punched and stretched to form the annular plate 31 with a discontinuous surface, the strength and the rigidity of the composite plate are increased after the metal injection molding base plate 2 is punched and stretched, the contact area of the metal injection molding base plate 2 and the ground wall surface is reduced after the annular plate 31 is formed, and the influence on the flatness of the finished surface due to the fact that the ground surface and the wall surface of the installation surface are uneven is reduced. The annular plate 31 is filled and coated with the annular plate 31 through the injection molding high polymer material reinforcing block 32 inside and outside the annular plate 31, the strength of a supporting part is increased, the annular plate 31 can be limited to fall off by the high polymer reinforcing block 32 filled in the connecting hole 311 in the annular plate 31, and the high polymer material reinforcing block 32 formed by injection molding is in contact with the ground wall surface to avoid the damage of an anticorrosive coating generated by direct contact friction between the metal plate and the ground.

The plug connectors on the first side end, the second side end, the third side end and the fourth side end can be arranged at equal intervals, so that the mass production and the manufacture are facilitated.

First connecting plate 42 may be a wavy line type plate, and one end of first connecting plate 42 connected to base plate 2 is convexly disposed toward one side far from base plate 2, and one end far from base plate 2 is concavely disposed toward one side near base plate 2.

A plurality of rows of annular plates 31 may be provided on the base plate 2, each row of said annular plates 31 being equidistantly arranged.

Referring to fig. 1 to 13, a novel tile composite board structure and a mounting method thereof includes the following steps:

s1: respectively inserting the inserting plates 51 of the first supporting piece 5 into the slots on the periphery of the first composite plate;

s2: inserting the inserting plates 51 of the second supporting piece 5 into the slots on the periphery of the second composite plate respectively;

s3: placing the second lateral end of the first composite panel on the mounting plate 52 of the second support member 5 on the first lateral end of the second composite panel and placing the first lateral end of the second composite panel on the mounting plate 52 of the first support member 5 on the second lateral end of the first composite panel;

s4: inserting the inserting plates 51 of the third supporting piece 5 into the slots on the periphery of the third composite plate respectively;

s5: placing the third side end of the first composite panel on the mounting plate 52 of the third support 5 on the fourth side end of the third composite panel and placing the fourth side end of the third composite panel on the mounting plate 52 of the first support 5 on the third side end of the first composite panel;

s6: inserting the inserting plates 51 of the fourth supporting piece 5 into the slots on the periphery of the fourth composite plate respectively;

s7: the second side end of the three composite panels is placed on the mounting plate 52 of the fourth support 5 on the fourth composite panel on the first side end, the first side end of the fourth composite panel is placed on the mounting plate 52 of the third support 5 on the third composite panel on the second side end, the fourth side end of the second composite panel is placed on the mounting plate 52 of the fourth support 5 on the fourth composite panel on the third side end, and the third side end of the fourth composite panel is placed on the mounting plate 52 of the second support 5 on the fourth side end on the second composite panel.

Installing a first composite board: inserting the inserting plate 51 of the support piece 5 on the ceramic tile 1 stone composite plate, placing the composite plate with the support piece 5 on the leveled floor and wall surface of a room, and fixing the periphery of the composite plate by using gun nails 6; and (3) mounting a second composite board: another ceramic tile 1 stone composite board with a support piece 5 is taken, a rubber hammer is used for knocking in according to a first preset direction to ensure that the edges of the two ceramic tiles 1 stone are aligned, and then a gun nail 6 is used for fixing the composite board; and (3) mounting a third composite board: taking a ceramic tile 1 stone composite board with a support piece 5, knocking in the ceramic tile 1 stone composite board in a second preset direction by using a rubber hammer to ensure that the ceramic tile 1 stone composite board is aligned with the edge of the first composite board, and fixing the composite board by using a gun nail 6; and (3) mounting a fourth composite board: the ceramic tile 1 stone composite board with the support piece 5 is placed according to a preset position, a rubber hammer is used for knocking in according to an arrow sequence, and then a gun nail 6 is used for fixing the composite board.

The above-described aspects may be implemented individually or in various combinations, and such variations are within the scope of the present invention.

It should be noted that, in the description of the present application, it should be noted that the terms "upper end", "lower end" and "bottom end" indicating the orientation or positional relationship are based on the orientation or positional relationship shown in the drawings or the orientation or positional relationship which the product of the application is usually placed in when the product of the application is used, and are only for convenience of describing the present application and simplifying the description, but do not indicate or imply that the device referred to must have a specific orientation, be constructed in a specific orientation and be operated, and thus, should not be construed as limiting the present application. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

Finally, it should be noted that: the above examples are only for illustrating the technical solutions of the present invention, and are not limited thereto. Although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (10)

1. The utility model provides a novel ceramic tile composite board structure which characterized in that: comprises a substrate (2), a ceramic tile (1) arranged on the substrate (2), plug connectors arranged on the periphery of the substrate (2), and a support piece (5) used for supporting the substrate (2) at the other end when one end of the plug connector is plugged, wherein the plug connector comprises a bearing plate (41) positioned at the lower end of the substrate (2), a first connecting plate (42) and a second connecting plate (43), one end of the first connecting plate (42) is connected with the substrate (2), the other end of the first connecting plate is connected with one end of the bearing plate (41), one end of the second connecting plate (43) is connected with the substrate (2), the other end of the second connecting plate is connected with the other end of the bearing plate (41), the plug connector also comprises a slot arranged between the first connecting plate (42) and the second connecting plate (43), the support piece (5) comprises a plug board (51) plugged in the slot, the substrate (2) is a metal injection molding substrate (2).

2. A novel tile composite board structure as claimed in claim 1, wherein: the substrate (2) comprises a first side end, a second side end, a third side end and a fourth side end, wherein the first side end and the second side end are oppositely arranged, the third side end and the fourth side end are oppositely arranged, the plug connectors on the first side end and the second side end are arranged at intervals when being respectively projected to a first central line of the substrate (2), and the plug connectors on the third side end and the fourth side end are respectively projected to a second central line of the substrate (2) at intervals.

3. A novel tile composite board structure as claimed in claim 2, wherein: the number of the plug connectors on the first side end is equal to that of the plug connectors on the second side end, and the number of the plug connectors on the third side end is equal to that of the plug connectors on the fourth side end.

4. A novel tile composite board structure as claimed in claim 2 or 3, wherein: the fixing structure comprises a mounting plate (52) integrally formed with the plug board (51), mounting holes (53) formed in the mounting plate (52), and gun nails (6) used for enabling one ends of the mounting plate (52) to be in contact with the ground or the wall surface to penetrate through the mounting holes (53) and the bearing plate (41) in sequence when the mounting plate (52) is arranged on the bearing plate (41).

5. A novel tile composite board structure as claimed in claim 4, wherein: and a round corner (521) is arranged at one end of the mounting plate (52) far away from the plug board (51).

6. A novel tile composite board structure as claimed in claim 4, wherein: the first connecting plate (42) and the second connecting plate (43) are symmetrically arranged, the bearing plate (41) is parallel to the substrate (2), the height of the plug-in board (51) is equal to that of the mounting plate (52), and the distance from the bearing plate (41) to the substrate (2) is equal.

7. A novel tile composite board structure as claimed in claim 4, wherein: the bottom end of the base plate (2) is provided with an annular plate (31), a connecting hole (311) arranged on the annular plate (31), and the base plate further comprises a reinforcing block (32) filled on the inner side of the annular plate (31) and used for reinforcing the strength of the annular plate (31).

8. A novel tile composite board structure as claimed in claim 4, wherein: the plug connectors on the first side end, the second side end, the third side end and the fourth side end are arranged at equal intervals.

9. A novel tile composite board structure as claimed in claim 6, wherein: the first connecting plate (42) is a wavy line-shaped plate, one end of the first connecting plate (42) connected to the base plate (2) is arranged in a protruding mode towards one side far away from the base plate (2), and one end of the first connecting plate far away from the base plate (2) is arranged in a recessed mode towards one side close to the base plate (2).

10. A method of installing a novel tile composite panel structure, as claimed in the preceding claims, including the steps of:

s1: inserting the inserting plates (51) of the first supporting piece (5) into the slots on the periphery of the first composite plate respectively;

s2: inserting the inserting plates (51) of the second supporting piece (5) into the slots on the periphery of the second composite plate respectively;

s3: placing the second lateral end of the first composite panel on the mounting plate (52) of the second support member (5) on the first lateral end of the second composite panel and placing the first lateral end of the second composite panel on the mounting plate (52) of the first support member (5) on the second lateral end of the first composite panel;

s4: inserting the inserting plates (51) of the third supporting piece (5) into the slots on the periphery of the third composite plate respectively;

s5: placing the third side end of the first composite panel on the mounting plate (52) of the third support (5) on the third composite panel on the fourth side end and placing the fourth side end of the third composite panel on the mounting plate (52) of the first support (5) on the third side end of the first composite panel;

s6: inserting the inserting plates (51) of the fourth supporting piece (5) into the slots on the periphery of the fourth composite plate respectively;

s7: the second side ends of the three composite plates are placed on the mounting plate (52) of the fourth support member (5) on the fourth composite plate on the first side end, the first side end of the fourth composite plate is placed on the mounting plate (52) of the third support member (5) on the third composite plate on the second side end, the fourth side end of the second composite plate is placed on the mounting plate (52) of the fourth support member (5) on the fourth composite plate on the third side end, and the third side end of the fourth composite plate is placed on the mounting plate (52) of the second support member (5) on the second composite plate on the fourth side end.

Images