CN117107910A

CN117107910A - Assembling structure of house box

Info

Publication number: CN117107910A
Application number: CN202010702304.8A
Authority: CN
Inventors: 唐腊辉
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-07-21
Filing date: 2020-07-21
Publication date: 2023-11-24

Abstract

The application relates to an assembly structure of a house box body, which comprises a framework body and a plurality of plate bodies, wherein the framework body consists of a plurality of metal support bars, the side surfaces of the plate bodies are also provided with framework bar hiding grooves distributed along the length direction of the framework body, the framework bar hiding grooves are also provided with inner grooves, nut strips with a plurality of screw holes are also arranged in the inner grooves, the framework bar hiding grooves are also provided with buckle cover strips which are covered on the notch of the framework bar hiding grooves along the length direction of the framework bar hiding grooves, the metal support bars of the framework body are embedded in the framework bar hiding grooves of the plate bodies, the plate bodies are arranged and fixed on the side surfaces of the framework body through locking screws penetrating into the screw holes of the nut strips, and the buckle cover strips are covered and buckled on the framework bar hiding grooves so that the metal support bars and the screws are hidden and assembled in the plate bodies. The house box body has the advantages of high structural strength, repeated disassembly and assembly, convenient maintenance, light weight, low production cost, smooth and beautiful inner and outer surfaces of the house box body, good sealing and leakage prevention performance, good durability and the like.

Description

Assembling structure of house box

Technical Field

The application relates to the field of mobile house boxes, in particular to an assembly structure of a mobile house box or an atrial box.

Background

At present, the mobile house box sold in the market has two realization modes: one is to make a template according to the size and shape requirements and process the template with a glass fiber reinforced plastic material. The other is that the house box skeleton body is formed by constructing a plurality of metal branch strips and a plurality of plate bodies arranged and fixed on the peripheral side surfaces of the house box skeleton body, and the plate bodies and the metal branch strips are usually fixed by rivets or self-tapping screws. The movable house box body realized by adopting the two modes mainly has the following defects:

firstly, the house box body formed by adopting the glass fiber reinforced plastic material has the defects of poor structural strength, easy deformation, cracking, paint stripping and the like, poor service life, anti-twisting performance, poor safety, poor sound insulation and heat preservation performance and the like, although the surface flatness of the house box body can be better polished.

Secondly, the house box body formed by splicing the house box framework body and the plate body has better structural strength than the house box body made of glass fiber reinforced plastics, but the surface of the house box body is poor in flatness and attractiveness, and rivet heads or self-tapping screw heads of the closely-packed hemp are all displayed on the outer side surface or the inner side surface of the house box body, so that the flatness, the attractive appearance and the quality of the surface of the movable house box body are greatly influenced; the positions of the rivets or the self-tapping screws are also the induction points and the cause points of rust, leakage and tightness, and the service life is also poor; secondly, after the house box skeleton body and the plate body are penetrated by rivets or self-tapping screws, the physical structure of the house box skeleton body and the plate body is seriously damaged, secondary maintenance is not carried out at all, and when the house box body is damaged, the maintenance difficulty is high and the maintenance cost is high. Thirdly, when the house box framework body needs to be installed in a hidden mode, the plate body is clamped between the inner side and the outer side, the middle of the house box framework body is hollow, the whole house box body is heavy, and the sound insulation and heat preservation performance is poor.

Therefore, in view of the above drawbacks of the mobile house box according to the prior art, the present inventors considered that it is necessary to completely reform the structure and the production method thereof, so as to make the field better developed and future.

Disclosure of Invention

The application aims to solve the problems and the defects, and provides an assembly structure of a house box, wherein the house box obtained by the assembly structure has the advantages of high structural strength, repeated disassembly and assembly, convenient maintenance, small house box weight, light weight, low production cost, smooth and attractive inner and outer surfaces of the house box, good sealing and anti-leakage performance, long service life, good durability and the like.

The technical scheme of the application is realized as follows: the assembling structure of the house box body comprises a framework body formed by a plurality of metal branch strips, and a plurality of plate bodies arranged and fixed on the peripheral side surfaces of the framework body, and is characterized in that framework strip hiding grooves distributed along the length direction of the plate bodies are further formed in the side surfaces of the plate bodies, inner side grooves are further formed in the framework strip hiding grooves, nut strips with a plurality of screw holes are further arranged in the inner side grooves, and cover buckling strips which are covered on the notch of the framework strip hiding grooves along the length direction of the framework strip hiding grooves are further arranged on the framework strip hiding grooves; the metal branch strips of the framework body are embedded in the framework strip hiding grooves of the plate body, the plate body is arranged and fixed on the side face of the framework body through locking screws penetrating through the metal branch strips into screw holes of the nut strips, and the buckle cover strips are covered and buckled on the framework strip hiding grooves, so that the metal branch strips and the screws are hidden and assembled in the plate body.

Further, two side groove walls of the framework strip hiding groove are respectively provided with a spacing part, the two spacing parts divide the framework strip hiding groove into an inner groove and an outer groove at intervals, and a slot which is mutually communicated is formed between the inner groove and the outer groove; the metal branch strips are embedded in the outer side grooves, and the screws penetrating through the metal branch strips pass through the slots and are then screwed on the nut strips positioned in the inner side grooves; the buckle cover strip is buckled on the notch of the outer side groove.

Still further, the application also comprises a right-angle connecting angle code and a locking bolt, wherein screw holes are respectively arranged at two ends of the right-angle connecting angle code; the side surface of the plate body is also provided with a T-shaped groove arranged along the length direction of the plate body; the plate body and the plate body are mutually assembled and connected together through the way that one end of the right-angle connecting angle code is inserted into the T-shaped groove at the end part of one plate body and the locking bolt, and the other end of the right-angle connecting angle code is inserted into the T-shaped groove at the end part of the other plate body and the locking bolt.

Still further, the board body comprises a first composite board, a second composite board and a connecting vertical board, wherein the splicing male buckle part is arranged at one end of the first composite board, and the splicing female buckle part is arranged at the other end of the second composite board; the inner side surface of the first composite laminate is also provided with a plurality of first nesting grooves which are integrally formed; a plurality of second nesting grooves which are integrally formed are also formed in the inner side surface of the second composite laminate; the first nesting groove and the second nesting groove are of a connecting groove structure with narrow notch and wide groove body, and the upper part of the connecting groove structure is narrow and the lower part of the connecting groove structure is wide; the upper side and the lower side of the connecting vertical plate along the length direction are respectively provided with a caulking joint with wide outer side and narrow inner side; the first composite laminate and the second composite laminate are assembled together by nesting connection of the caulking joints on the upper side and the lower side of the connecting vertical plate with the first nesting groove and the second nesting groove respectively, and interval cavity holes are formed between the connecting vertical plate and the connecting vertical plate between the first composite laminate and the second composite laminate, foaming materials are filled in the interval cavity holes, and foaming expansion characteristics of the foaming materials are utilized to enable the first composite laminate, the second composite laminate and the connecting vertical plate to be tightly and firmly connected with each other to form an integral composite board body.

The application has the beneficial effects that: according to the application, through the application of the framework strip hiding groove, the inner side groove, the nut strip, the buckle cover strip and the assembly structure thereof, each metal support strip of the framework body can be well hidden in the framework strip hiding groove for fixed installation, and the plate body and each metal support strip are fixed through the mutual matching locking of the inner side groove, the nut strip and the screw, so that the metal support strip does not need to directly penetrate into the plate body, the physical structure of the plate body does not form any damage or destroy, the structural strength of the plate body is greatly ensured, and the metal support strip is repeatedly disassembled and convenient to maintain; and the metal branch strips of the skeleton strips are hidden in the hiding grooves of the skeleton strips, the plate bodies are not clamped on the inner side surface and the outer side surface of the skeleton body, the weight of the whole house box body is effectively reduced, the production cost is saved, the whole house box body is light, the inner surface and the outer surface of the house box body are smooth and attractive, and the sealing and anti-seepage performance is good. Third, the metal branch strip is hidden in the plate body, so that the heat conduction and heating of the metal branch strip can be reduced, the heat transfer is reduced, and the heat preservation, heat insulation and sound insulation performances of the indoor space are ensured. The technical scheme of the application can be used for producing motor home carriages, mobile house carriages, motor car carriages, ship carriages, light steel houses and the like.

Drawings

Fig. 1 is a schematic perspective view of the present application.

Fig. 2 is a schematic perspective view of a skeleton body according to the present application.

Fig. 3 is a schematic view of a structure of the application with a disassembly and partial enlargement between the plate body and the metal branch strips.

Fig. 4 is a schematic view of a disassembled and partially enlarged structure of the plate body and the corner connection assembly of the plate body according to the present application.

FIG. 5 is a schematic diagram of a cross-sectional and partially enlarged structure of the present application assembled by plate and plate corner connection.

FIG. 6 is a schematic cross-sectional view of a plate according to the present application.

Fig. 7 is a schematic structural view of the board body and the board body of the present application spliced together.

Fig. 8 is a schematic end sectional structure of the connecting riser of the present application.

Detailed Description

As shown in fig. 1 and 2, the assembled structure of the house box body according to the present application includes a framework body 1 composed of a plurality of metal branch strips 11, and a plurality of plate bodies 2 arranged and fixed on the peripheral side surfaces of the framework body 1. In order to achieve the purpose of the application, as shown in fig. 3 and 6, the side surface of the plate body 2 is also provided with a skeleton strip hiding groove 3 distributed along the length direction, the skeleton strip hiding groove 3 is also provided with an inner groove 4, the inner groove 4 is also provided with a nut strip 5 with a plurality of screw holes, and the skeleton strip hiding groove 3 is also provided with a buckle cover strip 6 which is covered on the notch along the length direction; when the metal support bar 11 of the framework 1 is assembled, as shown in the left end part of fig. 6, is embedded in the framework bar hiding groove 3 of the plate 2, the plate 2 is arranged and fixed on the side surface of the framework 1 by locking the screw 100 penetrating through the metal support bar 11 into the screw hole of the nut strip 5, and the buckle cover bar 6 is covered and buckled on the framework bar hiding groove 3, so that the metal support bar 11 and the screw 100 are hidden and assembled in the plate 2. As shown in fig. 1, the panels 2 of the four sides, top and bottom of the housing of the present application are assembled and connected with the metal strips 11 of the framework 1 in the manner described above. In addition, as shown in the enlarged view of the left end of fig. 6, the metal stem 11 and the screw 100 are completely hidden in the plate 2, and covered and shielded by the cover strip 6, so that no connection and assembly structure is visible on the inner side surface and the outer side surface of the housing, and the inner side surface and the outer side surface of the housing are very flat. In addition, the plate body 2 and the metal branch strips 11 are fixed, the nut strips 5 are tightened by the screws 100, so that the nut strips 5 and the metal branch strips 11 are clamped between the inner side grooves 4 and the outer sides of the framework strip storage grooves 3, and the aim of fixed installation is fulfilled; the screw 100 does not penetrate into the plate body 2, so that the physical structure of the plate body 2 is not damaged, and the strength and rigidity of the plate body 2 are ensured.

In order to further optimize the structure of the frame strip hiding groove 3, the structure is more reasonable and scientific, and is more beneficial to integrated processing and forming, as shown in the enlarged views of the right side ends of fig. 3 and 6, two side groove walls of the frame strip hiding groove 3 are respectively provided with a spacing part 31, the two spacing parts 31 divide the frame strip hiding groove 3 into an inner side groove 4 and an outer side groove 7 at intervals, a slot 32 which is mutually communicated is formed between the inner side groove 4 and the outer side groove 7, and the slot 32 is convenient for a screw 100 to pass through and be connected with a nut piece 5. When the metal stem strip 11 is assembled, as shown in the left end of fig. 6, the metal stem strip 11 is embedded in the outer side groove 7, the screw penetrating through the metal stem strip 11 passes through the slot 32 and then is screwed on the nut strip 5 positioned in the inner side groove 4, and the buckle cover strip 6 is buckled on the notch of the outer side groove 7. That is, the fixing connection between the metal stem 11 and the plate body 2 is realized by clamping the two spacing parts 31 by the nut strip 5 and the metal stem 11, and the clamping action is continuous, the clamping contact part area is directly related to the lengths of the nut strip 5 and the metal stem 11, and the plate body 2 is clamped without interruption, so that the plate body 2 can be assembled on the framework body 1 very fixedly, safely and reliably. This is a complete distinction from traditional rivet-setting, self-tapping screw lattice fixing.

In order to enable the snap-on strip 6 to be simply, conveniently and reliably fastened to the board 2, as shown in fig. 6, fastening raised strips 33 are further provided on both sides of the notch of the outer groove 7, a pair of snap-on strip portions 61 are correspondingly provided on the inner side of the snap-on strip 6, and the snap-on strip 6 is covered on the frame strip storage groove 3 by fastening the snap-on strip portions 61 and the fastening raised strips 33. Meanwhile, in order to provide sufficient accommodation space for the screw 100, so that the screw does not push against the wall of the frame strip hiding groove 3, the locking firmness is prevented from being affected, and as shown in fig. 6, a bottom groove 34 for hiding the front end of the screw 100 is further provided on the bottom of the inner groove 4.

After the assembly of the plate body 2 and the framework body 1 is solved, in order to solve the problem of interconnection between the spliced corners of the plate body 2 and the plate body 2, the connection between the plate body 2 and the framework body is more convenient, the structural strength of the plate is not damaged, as shown in fig. 4 and 5, the application further comprises a right-angle connecting corner bracket 8 and a locking bolt 81, and screw holes are respectively arranged at two ends of the right-angle connecting corner bracket 8; correspondingly, the side surface of the plate body 2 is also provided with a T-shaped groove 9 arranged along the length direction; in assembly, as shown in fig. 5, one end of the right-angle connection corner bracket 8 is inserted into the T-shaped groove 9 at the end of one plate 2, and the locking bolt 81, and the other end of the right-angle connection corner bracket 8 is inserted into the T-shaped groove 9 at the end of the other plate 2, and the locking bolt 81 are inserted into the T-shaped groove 9 at the end of the other plate 2, so that the plate 2 and the plate 2 are assembled and connected with each other. In addition, in order to ensure the uniformity and the beautiful appearance of the outer corner, as shown in fig. 5, a decorative cover strip 200 is further provided on the outer corner between the boards 2 and 2. At this time, in order to enable the decorative cover strip 200 to be fastened to the outer corner portion simply and safely, a shielding bottom cover strip 300 is generally further provided at the outer corner portion, the shielding bottom cover strip 300 is fixedly mounted by a screw locking manner, fastening convex strips 3001 are further provided at both sides of the shielding bottom cover strip 300, correspondingly, fastening inner strips 2001 are also provided at the inner sides of the decorative cover strip 200, and the decorative cover strip 200 is mounted to the outer corner portion between the plate body 2 and the plate body 2 by fastening the fastening inner strips 2001 and the fastening convex strips 3001 to each other.

Besides the end parts of the plate body 2 and the plate body 2 are connected with each other, the T-shaped groove 9 can be used for installing and fixing other articles on the inner side wall of the house box body, can avoid directly punching holes and screws on the inner side wall of the house box body, and ensures the integrity and the aesthetic property of the inner side wall of the house box body.

In practice, as shown in fig. 6, the T-shaped groove 9 may be not used, and the T-shaped groove 9 is further buckled with a sealing groove strip 90, where the sealing groove strip 90 is composed of a shielding portion 901 and a buckling leg 902 disposed on the inner side surface of the shielding portion 901, and the sealing groove strip 90 is buckled into the T-shaped groove 9 by the buckling leg 902 and is covered on the T-shaped groove 9, so as to reduce dust and other bacteria, and keep the inner side wall of the house box flat and easy to clean.

The T-shaped slot 9 is used to solve the corner connection between the end of the plate and the end of the plate. On the basis of the above scheme structure, in order to further promote the splicing between the side edges of the plate body and ensure the sealing, flatness and beautiful appearance of the splicing, as shown in fig. 7, the application further comprises a splicing lath 10, wherein the left side edge and the right side edge of the splicing lath 10 along the length direction are respectively provided with a nesting head 101 with wide outer side and narrow inner side; correspondingly, one side edge of the plate body 2 is provided with a splicing male buckle part 201, and the other side edge of the plate body 2 is also provided with a splicing female buckle part 202 which is in scarf joint with the splicing male buckle part 201; a splicing cavity groove 203 is further formed in each of the splicing male buckle part 201 and the splicing female buckle part 202, a nesting groove 204 is further formed in the bottom of the splicing cavity groove 203, and the nesting groove 204 is of a connecting groove structure with a narrow notch and a wide groove body and a narrow outer part and a wide inner part; in assembly, as shown in the enlarged view of fig. 7, the board body 2 and the side edges of the board body 2 are correspondingly nested in the nesting grooves 204 of the male and female splicing buckle parts 201 and 204 of the female splicing buckle parts 202 through the male and female splicing buckle parts 201 and the nesting heads 101 at both sides of the splicing batten 10, so as to be mutually spliced and locked together, a plurality of spacing cavities are formed in the splicing cavity groove 203, the foaming material 20 is filled in each spacing cavity, and the foaming expansion characteristic of the foaming material 20 is utilized to ensure that the board body 2 and the board body 2 are tensioned and locked in a splicing manner without gaps into a whole. The application uses the foaming expansion characteristic of the foaming material to ensure that the plate body is tensioned and tensioned without gaps, the buckling and the splicing are integrated, the splicing is firm, the splicing tripping can not occur, the structural strength of the splicing part is high, the integrity of the plate can be effectively ensured, the splicing seam is less, the plate is smooth and beautiful, and in addition, rivets and screws are not needed.

On the basis, in order to further improve the strength of the splicing structure between the two plate bodies 2, so that the splicing is more stable and firm, as shown in fig. 7, two nesting grooves 204 are respectively arranged in the splicing cavity grooves 203 of the splicing male buckle part 201 and the splicing female buckle part 202, and two splicing battens 10 are nested between the splicing male buckle part 201 and the splicing female buckle part 202.

In order to make the board body 2 of the present application have high strength, light weight, good deformation resistance and excellent heat and sound insulation effects, as shown in fig. 6 and 7, the board body 2 comprises a first composite laminate 21, a second composite laminate 22, and a connecting riser 23, wherein the splice male buckle part 201 is disposed on one end of the first composite laminate 21, and the splice female buckle part 202 is disposed on the other end of the second composite laminate 22; the inner side surface of the first composite laminate 21 is also provided with a plurality of first nesting grooves 24 which are integrally formed; the inner side surface of the second composite laminate 24 is also provided with a plurality of second nesting grooves 25 which are integrally formed; the first nesting groove 24 and the second nesting groove 25 are of a connecting groove structure with narrow notch and wide groove body, and the upper part is narrow and the lower part is wide; the upper side and the lower side of the connecting vertical plate 23 along the length direction are respectively provided with a caulking joint 26 with wide outer side and narrow inner side. When the composite board is assembled, the first composite board 21 and the second composite board 22 are respectively connected with the first nesting groove 24 and the second nesting groove 25 in a nesting way through the caulking joints 26 on the upper side and the lower side of the connecting vertical plate 23, a spacing cavity hole is formed between the connecting vertical plate 23 and the connecting vertical plate 23 between the first composite board 21 and the second composite board 22, the foaming material 20 is filled in each spacing cavity hole, and the first composite board 21, the second composite board 22 and the connecting vertical plate 23 are tightly and firmly connected with each other by utilizing the foaming expansion characteristic of the foaming material 20 to form an integral composite board body. The plate body 2 of the application adopts a special assembly structure design, scientifically adopts the connecting vertical plate to assemble and connect the first composite plate and the second composite plate together, a spacing cavity hole is formed between the first composite plate and the second composite plate, a foaming material is filled in the spacing cavity hole, the foaming expansion characteristic of the foaming material is utilized to ensure that the first composite plate and the second composite plate are reliably and firmly combined into an integral high-strength light-weight composite plate, the connecting vertical plate is generally processed by adopting nylon materials, and the thermal conductivity can be reduced and the heat insulation performance can be ensured by utilizing the connection of the connecting vertical plate; and the foaming material can effectively isolate heat transfer and sound transfer of the surface metal material, so that the whole composite board has excellent heat preservation, heat insulation and sound insulation effects. The first composite laminate 21 and the second composite laminate 22 are respectively aluminum alloy plates or stainless steel plates or iron plates or wood plates or plastic plates or natural stone plates or artificial stone plates or ceramic tile plates.

In order to further increase the structural strength of the plate body 2 of the present application, as shown in fig. 6 and 7, the present application further includes a cross connecting plate 30, wherein the left side and the right side of the cross connecting plate 30 along the length direction thereof are respectively provided with a caulking joint 26 with a wide outer side and a narrow inner side, and a plurality of perforations 301 are uniformly arranged on the cross connecting plate 30; a third nesting groove 27 is further formed in the side face of the connecting vertical plate 23, and the third nesting groove 27 is of a connecting groove structure with a narrow notch and a wide groove body, and is narrow outside and wide inside; the cross connecting plates 30 are installed in the space cavity holes by nesting connection of the caulking pieces 26 on both sides thereof with the third nesting grooves 27 of the connecting risers 23 on both sides in the space cavity holes, respectively, so as to form a tension connection structure for balancing tension of the connecting risers 23 on both sides in the space cavity holes, and the foaming material 20 is filled in the space cavity holes and intruded into the respective penetrating holes 301 penetrating through the cross connecting plates 30.

In order to further improve the structural strength of the connecting riser 23, so that the connecting riser 23 has excellent strength performance, and can further improve the compression resistance and the deformation resistance of the composite board when applied to the composite board, as shown in fig. 8, the connecting riser 23 is composed of a metal framework 231 and a plastic coating 232 coated on the surface of the metal framework 231.

The above description of the structural schemes is an embodiment of the preferred embodiments of the present application, but it does not represent a limitation of the protection scope of the technical scheme of the present application. It should be noted herein that it will be apparent to those skilled in the art that various modifications and improvements can be made without departing from the spirit of the application, and these modifications and improvements fall within the scope of the application.

Claims

1. The utility model provides an assembled structure of room box, includes skeleton body (1) that comprises a plurality of metal branch strip (11), arranges and be fixed in a plurality of plate body (2) on skeleton body (1) side all around, its characterized in that: the side face of the plate body (2) is also provided with a framework strip hiding groove (3) distributed along the length direction of the plate body, the framework strip hiding groove (3) is also provided with an inner groove (4), the inner groove (4) is also provided with a nut strip (5) with a plurality of screw holes, and the framework strip hiding groove (3) is also provided with a buckle cover strip (6) which is covered on the notch of the framework strip hiding groove along the length direction of the framework strip hiding groove;

the metal branch strips (11) of the framework body (1) are embedded in the framework strip hiding grooves (3) of the plate body (2), the plate body (2) is arranged and fixed on the side face of the framework body (1) through locking screws (100) penetrating through the metal branch strips (11) into screw holes of the nut strips (5), and the buckle cover strips (6) are covered and buckled on the framework strip hiding grooves (3) so that the metal branch strips (11) and the screws (100) are hidden and assembled in the plate body (2).

2. The building box assembly structure according to claim 1, wherein: two side groove walls of the framework strip hiding groove (3) are respectively provided with a spacing part (31), the two spacing parts (31) divide the framework strip hiding groove (3) into an inner groove (4) and an outer groove (7) at intervals, and a slot (32) which is mutually communicated is formed between the inner groove (4) and the outer groove (7);

the metal branch strips (11) are embedded in the outer side grooves (7), and screws penetrating through the metal branch strips (11) pass through the slots (32) and are then screwed on the nut strips (5) positioned in the inner side grooves (4);

the buckle cover strip (6) is buckled on the notch of the outer groove (7).

3. The assembled structure of the housing case according to claim 2, wherein: the two sides of the notch of the outer groove (7) are respectively provided with a buckling convex strip part (33), the inner side surface of the buckling cover strip (6) is correspondingly provided with a pair of buckling strip parts (61), and the buckling cover strip (6) is covered on the framework strip hiding groove (3) through buckling the buckling strip parts (61) and the buckling convex strip parts (33); the bottom of the inner side groove (4) is also provided with a bottom groove (34) for hiding the front end of the screw.

4. The building box assembly structure according to claim 1, wherein: the device further comprises a right-angle connecting corner connector (8) and a locking bolt (81), wherein screw holes are respectively formed in two ends of the right-angle connecting corner connector (8);

the side surface of the plate body (2) is also provided with a T-shaped groove (9) arranged along the length direction;

one end of each plate body (2) is inserted into a T-shaped groove (9) at the end part of one plate body (2) through a right-angle connection corner brace (8) and is locked with a bolt (81), and the other end of each right-angle connection corner brace (8) is inserted into a T-shaped groove (9) at the end part of the other plate body (2) and is locked with the bolt (81) to realize mutual assembly and connection.

5. The building box assembly structure according to claim 4, wherein: the T-shaped groove (9) is further buckled with a groove sealing strip (90), the groove sealing strip (90) is composed of a shielding part (901) and buckling pins (902) arranged on the inner side face of the shielding part (901), and the groove sealing strip (90) is buckled into the T-shaped groove (9) through the buckling pins (902) and is covered on the T-shaped groove (9).

6. The building box assembly structure according to claim 1, wherein: the splicing plate strip (10) is further provided with nesting heads (101) with wide outer sides and narrow inner sides along the left side edge and the right side edge of the splicing plate strip (10) in the length direction;

one side edge of the plate body (2) is provided with a splicing male buckle part (201), and the other side edge of the plate body (2) is also provided with a splicing female buckle part (202) which is embedded with the splicing male buckle part (201);

the splicing male buckle part (201) and the splicing female buckle part (202) are also respectively provided with a splicing cavity groove (203), the groove bottom of the splicing cavity groove (203) is also provided with a nested groove (204), and the nested groove (204) has a connecting groove structure with a narrow notch and a wide groove body, and is externally narrow and internally wide;

the board body (2) and the side edges of the board body (2) are correspondingly nested in the nesting grooves (204) of the splicing male buckle part (201) and the nesting grooves (204) of the splicing female buckle part (202) through the nesting male buckle part (201) and the splicing female buckle part (202) together, and are mutually spliced and locked together, a plurality of interval cavities are further formed in the splicing cavity groove (203), foaming materials (20) are filled in the interval cavities, and the foaming expansion characteristics of the foaming materials (20) are utilized to enable the board body (2) and the board body (2) to be tensioned and locked in a tensioning mode in a buckling mode without gaps to be spliced into a whole.

7. The building box assembly structure according to claim 6, wherein: two nesting grooves (204) are respectively arranged in the splicing cavity grooves (203) of the splicing male buckle part (201) and the splicing female buckle part (202), and two splicing battens (10) are nested between the splicing male buckle part (201) and the splicing female buckle part (202).

8. The building box assembly structure according to claim 1, wherein: the plate body (2) comprises a first composite plate (21), a second composite plate (22) and a connecting vertical plate (23), wherein

The splicing male buckle part (201) is arranged at one end of the first composite laminate (21), and the splicing female buckle part (202) is arranged at the other end of the second composite laminate (22);

the inner side surface of the first composite laminate (21) is also provided with a plurality of first nesting grooves (24) which are integrally formed;

a plurality of second nesting grooves (25) which are integrally formed are also formed in the inner side surface of the second composite laminate (24);

the first nesting groove (24) and the second nesting groove (25) are of a connecting groove structure with narrow notch and wide groove body, and the upper part is narrow and the lower part is wide;

the upper side and the lower side of the connecting vertical plate (23) along the length direction are respectively provided with a caulking joint (26) with wide outer side and narrow inner side;

the first composite laminate (21) and the second composite laminate (22) are assembled together by nesting connection of the caulking joints (26) on the upper side and the lower side of the connecting vertical plate (23) with the first nesting groove (24) and the second nesting groove (25) respectively, a spacing cavity hole is formed between the connecting vertical plate (23) and the connecting vertical plate (23) between the first composite laminate (21) and the second composite laminate (22), foaming materials (20) are filled in the spacing cavity holes, and the foaming expansion characteristics of the foaming materials (20) are utilized to enable the first composite laminate (21), the second composite laminate (22) and the connecting vertical plate (23) to be mutually tightly and firmly connected to form an integral composite board body.

9. The building box assembly structure according to claim 8, wherein: the novel cross connecting device is characterized by further comprising a cross connecting plate (30), wherein the left side edge and the right side edge of the cross connecting plate (30) along the length direction are respectively provided with a caulking joint (26) with wide outer side and narrow inner side, and the cross connecting plate (30) is also uniformly provided with a plurality of perforations (301);

a third nested groove (27) is further formed in the side face of the connecting vertical plate (23), and the third nested groove (27) is of a connecting groove structure with a narrow notch and a wide groove body, and is narrow outside and wide inside;

the transverse connection plates (30) are respectively connected with third nesting grooves (27) of the connecting vertical plates (23) at two sides of the space cavity holes in a nesting manner through the caulking joints (26) at two sides of the transverse connection plates so as to form a tensioning connection structure which is balanced and tensioned to the connecting vertical plates (23) at two sides of the space cavity holes, and the foaming materials (20) are filled in the space cavity holes and invade into all the perforations (301) penetrating through the transverse connection plates (30).

10. The building box assembly structure according to claim 8, wherein: the connecting vertical plate (23) is composed of a metal framework (231) and a plastic coating layer (232) coated on the surface of the metal framework (231).