CN218091441U - Wallboard mounting structure and assembled wall - Google Patents

Abstract

The utility model belongs to the technical field of assembled wall bodies, in particular to a wallboard mounting structure and an assembled wall body, wherein the wallboard mounting structure comprises a wallboard A and a wallboard B oppositely arranged with the wallboard A, and a through cavity is arranged between the wallboard A and the wallboard B; the A wallboard is formed by splicing a plurality of A board units; the B wallboard is formed by splicing a plurality of B board units; one side of the plate A unit and one side of the plate B unit are respectively provided with corresponding connecting ribs which are positioned in the cavities; the connecting ribs are respectively provided with a pin hole; and a locking positioning pin used for locking the wallboard A and the wallboard B is inserted in the pin hole. The assembled wall body includes wallboard mounting structure, still include that ground fossil fragments, top fossil fragments and side are received the board, the board is received to the side and is connected in the end of A wallboard and B wallboard. The utility model discloses the assembly is simple, the combination is fixed convenient, the wall body is firm reliable, makes things convenient for laying of various pipelines and facilities in the wall body, can effectively improve the efficiency of construction.

Description

Wallboard mounting structure and assembled wall

Technical Field

The utility model belongs to the technical field of the assembled wall body, concretely relates to wallboard mounting structure and assembled wall body.

Background

Traditional partition wall adopts clay brick, light body piece, cement building block etc. and is inefficient, relies on the manual work seriously, and is not environmental protection, does not conform to the industry policy. In the prior art, solid prefabricated plates (ALC plates, sandwich plates and the like) are also available, and the partition wall is mostly adopted in an assembly type building. It has the following problems:

a, self weight, transportation, carrying, installation cost are high, load to machines and workers is large, and risk in the installation process is high. And B, the surface is rough, and secondary decoration is required after the installation is finished. C, in a solid structure, when pipelines and equipment are laid, grooving and perforating operations need to be carried out, the wall structure is damaged, the wall strength is reduced, the efficiency is low, and construction pollution and other problems are caused. D, because of self thickness problem, make its corner can produce with the floor and interfere the collision when erectting, so must keep spacious volume in advance or carry out the on-the-spot cutting, lead to the installation accuracy to hardly guarantee, be difficult to carry out meticulous operation, pleasing to the eye degree, firmness, production efficiency all can receive the influence. E, the application range is limited, and the multifunctional partition wall can only be used for partition walls in buildings and is single in function.

In view of the above technical problems, the patent document with publication number CN 217420126U, which is filed by reference, discloses an integrated assembly type partition wall system, which includes a partition base installed on the ground; the wall plates are arranged on the inner side and the outer side, and a cavity is formed between the two wall plates; the wall board is formed by connecting a plurality of wall board units and a tail end wall board, and both ends of each wall board unit are provided with foundation grooves; one end of the tail end wallboard is also provided with a base groove, and the other end of the tail end wallboard is of a flat structure; when two adjacent base grooves are combined, a T-shaped clamping groove is formed; the starting point connecting piece is connected with the side wall on one side, and the wallboard unit positioned at the head end is clamped with the starting point connecting piece; the wallboard connecting piece is used for connecting the wallboard unit and the tail end wallboard; and the end point connecting piece is arranged in the cavity and is used for supporting and positioning the tail end wallboard. Although the above technical solution can solve the mentioned technical problems, the solution still has the following technical problems: (1) The device adopts the wallboard connecting piece to connect the wallboard units, the structural form is similar to a Chinese character 'zhong' shaped structure with double T ends, and by adopting the structural mode, the wallboard connecting piece can occupy the space in the cavity between the two wallboards and separate the transverse space, so that various pipelines and facilities are inconvenient to lay, and particularly the transverse pipelines are inconvenient to lay; (2) The connection of the two side wallboards is only fixed by the wallboard connecting piece, the connection reliability and stability between the two side wallboards are to be enhanced, and the overall connection firmness between the two wallboards has a space for further improving; (3) Wallboard connecting piece overall height is higher, and weight is heavier, and the human input in the installation is big, has the needs of further improvement in the aspect of the fixed convenience of combination and the aspect of improving the efficiency of construction.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems existing in the prior art, a wallboard mounting structure and an assembly type wall body are provided.

The utility model provides a technical scheme that its technical problem adopted is:

the technical scheme provides a wallboard mounting structure which comprises a wallboard A and a wallboard B opposite to the wallboard A, wherein a through cavity is formed between the wallboard A and the wallboard B; the wallboard A is formed by splicing a plurality of wallboard units A; the B wallboard is formed by splicing a plurality of B board units; one side of the plate A unit and one side of the plate B unit are respectively provided with corresponding connecting ribs which are positioned in the cavities; the connecting ribs are respectively provided with a pin hole; and a locking positioning pin used for locking the wallboard A and the wallboard B is inserted in the pin hole.

Preferably, the connecting ribs comprise end connecting ribs, and the end connecting ribs comprise end connecting ribs I and end connecting ribs II; wherein, both ends of each A plate unit are respectively connected with an end connecting rib I; two ends of each B plate unit are respectively connected with an end connecting rib II matched with the end connecting rib I for use; the end connecting ribs are provided with the pin holes; the locking positioning pin comprises a U-shaped pin, and the U-shaped pin is provided with two rod bodies which are in adaptive insertion connection with the pin holes; the end connecting rib is locked and positioned through the U-shaped pin.

Preferably, the locking positioning pin further comprises an X-shaped pin; the X-shaped pin is provided with four rod bodies which are in adaptive splicing with the pin holes; the end connecting ribs on any two adjacent groups of the plate A units and the corresponding adjacent plate B units are locked and positioned through X-shaped pins; the end connecting ribs at the head end and the tail end are locked and positioned through U-shaped pins respectively.

Preferably, the connecting ribs further comprise middle connecting ribs, and the middle connecting ribs comprise middle connecting ribs I and middle connecting ribs II which are correspondingly matched with the middle connecting ribs I; the middle connecting rib I is connected to the plate A unit, and the middle connecting rib II is connected to the plate B unit; the middle connecting rib is also provided with the pin hole; and the middle connecting rib is locked and positioned through the U-shaped pin.

Preferably, end connection muscle I has the first tenon of vertical setting, end connection muscle II sets up vertical first recess, first tenon with first recess looks adaptation is pegged graft.

Preferably, the middle connecting rib I is provided with a second projecting tenon transversely arranged, the middle connecting rib II is provided with a second groove transversely arranged, and the second projecting tenon is connected with the second groove in an adaptive inserting mode.

Preferably, the end connecting ribs and the middle connecting rib are distributed in a matrix.

Preferably, the board A unit and the board B unit are both tongue-and-groove boards with tongues and grooves at two ends.

Preferably, the wallboard A and/or wallboard B are provided with slurry filling openings.

The utility model also provides an assembly type wall body which comprises the wallboard mounting structure; the keel structure also comprises a ground keel fixed on the ground and a top keel fixed on the top surface; the upper end and the lower end of the wallboard A and the wallboard B are fixedly connected to the top keel and the ground keel; the side receiving plate is also a tongue-and-groove plate and can be matched and matched with the tongue-and-groove of the A wallboard and the B wallboard; the side folding plate is connected to the tail ends of the wall plates A and B.

Compared with the prior art, the utility model has the advantages of it is following:

1. in the utility model, the corresponding connecting ribs are arranged on the wallboard A and the wallboard B, the connecting ribs are provided with pin holes, and locking positioning pins for locking the wallboard A and the wallboard B are inserted in the pin holes; the whole mode adopts the structural style of 'grafting locking', and the assembly is simple, and the combination is fixed convenient, effectively improves the efficiency of construction.

2. Although the connecting ribs are arranged in the utility model, the cavity formed between the wall plate A and the wall plate B is also a through cavity which is communicated with the cavity, thus being convenient for laying various pipelines and facilities in the wall body, and being convenient for laying no matter in the longitudinal direction or the transverse direction, the utility model can improve the space utilization rate, reduce the installation cost, avoid secondary opening, slotting and cutting on site, effectively avoid artificial damage to the wall body, and waste and construction pollution caused by the artificial damage; different slurry can be filled or injected into the through cavity as required, so that various functional requirements (such as fire prevention, sound insulation, heat preservation, radiation protection, moisture protection and the like) on the wall body are realized.

3. The plate body materials and the connecting ribs of the wallboard A and the wallboard B can be changed according to requirements, and different wall body strengths are realized by combining slurry with different properties, so that the wall body is suitable for special requirements (such as outer walls, sound insulation walls, waterproof walls and the like) of different places.

4. The utility model discloses in still be provided with the middle part splice bar, play the effect of better enhancement support and connection.

5. The utility model discloses well locking spacer pin has two kinds of structural style: the U-shaped pin and the X-shaped pin are respectively used for locking the end connecting rib and the middle connecting rib; the X-shaped pin is used for locking four adjacent end connecting ribs after splicing, so that the whole A wallboard and the B wallboard are integrally locked in a pulling mode, and the reliability, the stability and the firmness can be effectively improved.

6. The end connecting ribs and the middle connecting ribs are of tongue-and-groove structures, the end connecting ribs I are provided with first vertical convex tenons, the end connecting ribs II are provided with first vertical grooves, and the first convex tenons are in adaptive splicing with the first grooves; the middle connecting rib I is provided with a second convex tenon arranged transversely, the middle connecting rib II is provided with a second groove arranged transversely, and the second convex tenon is in adaptive splicing with the second groove; by arranging the tongue-and-groove structures which are mutually inserted in the transverse direction and the longitudinal direction in different directions, the positioning and splicing of the wall boards during construction are facilitated, the stability after insertion is better, and the wall bodies are firmly connected.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic structural view of a wall panel mounting structure (locking dowel omitted).

Fig. 2 is a schematic view of a U-shaped pin structure in the locking dowel.

Fig. 3 is a schematic view of an X-pin structure in the locking dowel.

Figure 4 is a schematic view of the wall panel mounting structure when connected to the locking dowel.

Fig. 5 is a plan view of the assembled wall body (locking dowel omitted).

Fig. 6 is a front view of an assembled wall.

FIG. 7 is a schematic diagram showing the insertion relationship between the U-shaped pin and the middle connecting rib along the E-E direction.

FIG. 8 is an enlarged view of the U-shaped pin of FIG. 7 in engagement with the middle connecting rib.

FIG. 9 is a schematic diagram of the insertion relationship between the X-shaped pin and the end connecting rib along the D-D direction.

Fig. 10 is an enlarged view of the insertion relationship between the X-shaped pin and the end connecting rib in fig. 9.

Description of reference numerals:

1-A wall board; 101-a board unit; 2-B wallboard; 201-B board unit; 3-middle connecting ribs; 301-middle connecting rib I; 3011-a second tennons; 302-middle connecting rib II; 3021-a second recess; 4-end connecting ribs; 401-end connector bar I; 4011-a first falcon; 402-end connecting rib II; 4021-first recess; 5-a cavity; 6-pin holes; 7-side folding; 8-a pipeline; 9-U-shaped pin; 10-X pins; 11-top keel; 12-the overground keel; 13-slurry fill port.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

Example one

As shown in fig. 1 to 4, the present embodiment provides a wall panel installation structure, which includes an a wall panel 1 and a B wall panel 2 opposite to the a wall panel 1, wherein, in use, the a wall panel 1 and the B wall panel 2 are used in pair, and a through cavity 5 is provided between the a wall panel 1 and the B wall panel 2, so as to facilitate the laying of various pipelines 8.

The A wallboard 1 is formed by splicing a plurality of A board units 101; the B wallboard 2 is formed by splicing a plurality of B board units 201; the A board unit 101 and the B board unit 201 are the same in length; one side of the board unit 101A and one side of the board unit 201B are respectively provided with corresponding connecting ribs which are positioned in the cavity 5, and the connecting ribs are arranged in the cavity 5 and are of a hidden design.

The a board unit 101 and the B board unit 201 are preferably tongue-and-groove boards having tongues and grooves at both ends.

The connecting ribs are respectively provided with a pin hole 6; the locking positioning pin used for locking the wallboard A1 and the wallboard B2 is inserted into the pin hole 6, and when the locking positioning pin is used, the locking positioning pin is inserted into the pin hole 6, so that the wallboard A1 and the wallboard B2 are pulled and locked, and the integral firmness of the wall body is improved.

The utility model is provided with corresponding connecting ribs on the wall plate A1 and the wall plate B2, the connecting ribs are provided with pin holes 6, and locking positioning pins for locking the wall plate A1 and the wall plate B2 are inserted in the pin holes 6; the whole mode adopts the structural style of 'inserting and locking', the assembly is simple, the combination is convenient and fast, and the construction efficiency is effectively improved.

It should be noted that: although the utility model discloses in be provided with the splice bar, the cavity 5 that nevertheless forms between A wallboard 1 and B wallboard 2 is the logical chamber that link up, just so make things convenient for laying of various pipeline 8 and facilities in the wall body, no matter can conveniently lay either vertically or transversely, can improve space utilization, reduce installation cost, avoid on-the-spot secondary trompil, fluting, cutting, effectively avoid the artificial destruction to the wall body to and the waste and the construction that produce from this pollute; different slurry can be filled or injected into the through cavity as required, so that different functional requirements (such as fire prevention, sound insulation, heat preservation, radiation protection, moisture protection and the like) on the wall body are met.

The following is set forth in detail:

as an alternative design: the connecting ribs comprise end connecting ribs 4, and the end connecting ribs 4 comprise end connecting ribs I401 and end connecting ribs II402; wherein, two ends of each A plate unit 101 are respectively connected with an end connecting rib I401; the end connecting ribs I401 are arranged on the back surfaces close to the two ends of the A plate unit 101; two ends of each B plate unit 201 are respectively connected with an end connecting rib II402 matched with the end connecting rib I401 for use; the end connecting ribs 4 are provided with the pin holes 6; the end connecting rib I401 and the end connecting rib II402 can be butted, and the butting mode between the end connecting rib I401 and the end connecting rib II402 includes but is not limited to a flat connection or a tongue-and-groove connection.

Furthermore, the locking positioning pin comprises a U-shaped pin 9, the U-shaped pin 9 is provided with two rod bodies which are in adaptive insertion connection with the pin holes 6; the end connecting rib 4 is locked and positioned by a U-shaped pin 9. When the connecting device is used, the two rod bodies of the U-shaped pin 9 are respectively inserted into the pin holes 6 corresponding to the end connecting ribs I401 and II402, so that locking connection is realized.

Further, in the present embodiment, the locking positioning pin further includes an X-shaped pin 10; the X-shaped pin 10 is provided with four rod bodies which are in adaptive splicing with the pin holes 6; the end connecting ribs 4 on any two adjacent groups of the plate A units 101 and the corresponding adjacent plate B units 201 are locked and positioned through X-shaped pins 10; the end connecting ribs 4 at the head end and the tail end are locked and positioned through U-shaped pins 9 respectively. It should be noted that two adjacent sets of end connecting ribs 4 can be locked by the U-shaped pin 9 and the X-shaped pin 10. In this embodiment, the adjacent end connecting ribs 4 except for the end connecting ribs 4 at the head end and the tail end are preferably locked and positioned by the X-shaped pin 10.

Locking spacer pin has two kinds of structural style in this scheme: a U-shaped pin 9 and an X-shaped pin 10 respectively, wherein the U-shaped pin 9 can be used for locking the end connecting rib 4 and the middle connecting rib 3; the X-shaped pin 10 is used for locking four adjacent end connecting ribs 4 after splicing, so that the whole A wallboard 1 and the B wallboard 2 are integrally locked through a tie, and the reliability, the stability and the firmness can be effectively improved.

As a more preferable option, in this embodiment, the connecting ribs may further include a middle connecting rib 3, and the middle connecting rib 3 is located between the end connecting ribs 4, preferably at a central position, which can play a better role in supporting and connecting. The middle connecting rib 3 consists of a middle connecting rib I301 and a middle connecting rib II302 which is matched with and corresponds to the middle connecting rib I301; the middle connecting rib I301 is connected to the plate A unit 101, and the middle connecting rib II302 is connected to the plate B unit 201; the middle connecting rib 3 is also provided with the pin hole 6; the middle connecting rib 3 is also locked and positioned by the U-shaped pin 9. That is, the clevis pin 9 can lock both the center tie bar 3 and the end tie bar 4.

It should be noted that, as a preferable mode, the end connecting rib 4 adopts a tongue-and-groove structure, specifically, the end connecting rib I401 has a first projecting falcon 4011 vertically arranged, the end connecting rib II402 has a first vertical groove 4021, and the first projecting falcon 4011 is inserted in the first groove 4021 in a matching manner. Similarly, middle connecting rib 3 also adopts tongue-and-groove structure, and specifically, middle connecting rib I301 has second protruding falcon 3011 that transversely sets up, and middle connecting rib II302 sets up the second recess 3021 that transversely sets up, and second protruding falcon 3011 pegs graft with second recess 3021 looks adaptation.

In the scheme, the end connecting ribs 4 and the middle connecting ribs 3 are of tongue-and-groove structures, the end connecting rib I401 is provided with a first convex tenon 4011 which is vertically arranged, the end connecting rib II402 is provided with a first vertical groove 4021, and the first convex tenon 4011 is in adaptive insertion connection with the first groove 4021; middle connecting rib I301 is provided with a second convex falcon 3011 arranged transversely, middle connecting rib II302 is provided with a second groove 3021 arranged transversely, and second convex falcon 3011 is inserted into second groove 3021 in a matched manner; by arranging the tongue-and-groove structures which are mutually inserted in the transverse direction and the longitudinal direction in different directions, the positioning and splicing of the wall boards during construction are facilitated, the stability after insertion is better, and the wall bodies are firmly connected.

The wallboard A1 and/or wallboard B2 are provided with slurry filling ports 13, and different slurries can be filled or injected according to needs, so that various functional requirements (such as fire prevention, sound insulation, heat preservation, radiation protection, moisture protection and the like) on the wall body can be met.

In the embodiment, all the tongue-and-groove parts can be coated with the environment-friendly adhesive according to the needs, so that the strength and the sealing property of the wall body are improved.

Example two

As shown in fig. 5-10, the present embodiment provides a fabricated wall body including a wall panel mounting structure as described in the first embodiment; the keel structure also comprises a ground keel 12 fixed on the ground and a top keel 11 fixed on the top surface; the ground keel 12 and the top keel 11 adopt C-shaped keels; the upper end and the lower end of the wallboard A1 and the wallboard B2 are fixedly connected to the top keel 11 and the ground keel 12; the wall panel comprises a wall panel A1 and a wall panel B2, and is characterized by also comprising a side receiving plate 7 for plugging, wherein the side receiving plate 7 is also a tongue-and-groove plate and can be matched and matched with the tongue-and-groove of the wall panel A1 and the wall panel B2; the side collecting plate 7 is connected with the tail ends of the wall plates A1 and B2.

The following is set forth in detail:

basic components of the assembled wall:

1. the basic components are: the plate-type building block comprises an A plate unit 101, a B plate unit 201, C-shaped keels (a ground keel 12 and a top keel 11), U-shaped pins 9, X-shaped pins 10 and side folding plates 7.

2. The plate A unit 101 and the plate B unit 201 are used in pairs, and corresponding end connecting ribs 4 and middle connecting ribs 3 are protruded from the back of the plate body and distributed in a matrix manner, so that a through cavity 5 is formed in the wall body conveniently; the height of the rib can be determined according to the thickness of the wall body, and the end connecting rib 4 and the middle connecting rib 3 are provided with a male-female tongue-and-groove and a pin hole 6.

3. The side plates are provided with grooves and tongues which correspond to the grooves and tongues of the A board unit 101 and the B board unit 201 and are used as side edge closing-in components.

4. The C-shaped keel is used for fixing the wall body to the top floor slab and the bottom floor slab.

5. The U-shaped pin 9 and the X-shaped pin 10 are used for quickly locking the AB plate wall body.

Mounting an assembled wall body:

1. the C-shaped keels (top keel 11 and ground keel 12) are fixed to the top surface and the floor slab, and can be fixed in a screw mode.

2. The upper end and the lower end of the A plate unit 101 are fixed on the C-shaped keels, and self-tapping screws can be used for fixing.

3. The pipelines 8 and the shelters are fixedly arranged on the back of the A plate unit 101.

4. The upper end and the lower end of the B board unit 201 are fixed on the C-shaped keels and correspond to the tongue-and-groove of the A board unit 101.

5. The A plate unit 101 and the B plate unit 201 are locked by inserting U-shaped pins 9 into pin holes 6 on the middle connecting rib 3 in the middle of the A plate unit 101 and the B plate unit 201 and into pin holes 6 on the idle end connecting ribs 4 to form a first block.

6. Circularly performing the previous action, and inserting the other group of the tongue-and-groove pairs on the side surfaces of the A board unit 101 and the B board unit 201 into the tongue-and-groove of the first chunk to form a second chunk; and inserting the X-shaped pin 10 into the pin hole 6 on the connecting rib 4 at the adjacent end parts of the first block and the second block to lock the first block and the second block.

7. And (3) performing cycle operation in sequence to finally complete the whole wall body, finally installing the side folding plate 7, and connecting and fixing the side folding plate 7 and the side surfaces of the A plate unit 101 and the B plate unit 201 at the tail ends by adopting self-tapping screws.

8. According to design requirements, slurry with different properties is injected from the slurry filling port 13; or keeping the cavity 5 in a light wall state.

9. The fixing part of the C-shaped keel and the closing part of the side plate can be combined with other decorative components such as skirting lines, male and female corner lines, door pocket lines and the like for beautifying treatment.

As can be seen from the above description, the present embodiment has the following advantages:

1. the weight of the wall body is reduced, and the load and the cost of transportation and carrying are reduced.

2. The manpower or the load of machines in the installation process is greatly reduced, and the safety risk is effectively reduced.

3. The assembly is simple, the combination is fixed convenient, and the construction efficiency is effectively improved.

4. The secondary holing, slotting and cutting on site are avoided, the artificial damage to the wall is effectively avoided, and the waste and construction pollution caused by the artificial damage are avoided.

5. The laying of various pipelines 8 and facilities in the wall body is facilitated, the space utilization rate is improved, and the installation cost is reduced.

6. Different slurry can be filled or injected according to the requirements to realize different functional requirements (such as fire prevention, sound insulation, heat preservation, radiation protection, moisture protection and the like) on the wall body

7. The finished product has simple production process, wide material selection range, easy modularization and parametric production, and is beneficial to reducing the production cost.

8. The wall structure and the wall surface decoration effect can be finished at one time without secondary decoration.

9. According to the requirements, the plate body material and the inner ribs can be changed, and different properties of slurry are combined, so that the strength of the wall body is different, and the special requirements (such as external walls, sound insulation walls, waterproof walls and the like) of different places are met.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (10)

1. The wallboard mounting structure is characterized by comprising a wallboard A and a wallboard B arranged opposite to the wallboard A, wherein a through cavity is formed between the wallboard A and the wallboard B; the wallboard A is formed by splicing a plurality of wallboard units A; the B wallboard is formed by splicing a plurality of B board units; one side of the plate A unit and one side of the plate B unit are respectively provided with corresponding connecting ribs which are positioned in the cavities; the connecting ribs are respectively provided with pin holes; and a locking positioning pin used for locking the wall plate A and the wall plate B is inserted in the pin hole.

2. The wall panel mounting structure according to claim 1, wherein the tie bars comprise end tie bars consisting of end tie bar I and end tie bar II; wherein, both ends of each A plate unit are respectively connected with an end connecting rib I; two ends of each B plate unit are respectively connected with an end connecting rib II matched with the end connecting rib I for use; the end connecting ribs are provided with the pin holes; the locking positioning pin comprises a U-shaped pin, and the U-shaped pin is provided with two rod bodies which are in adaptive insertion connection with the pin holes; the end connecting rib is locked and positioned through the U-shaped pin.

3. The wall panel mounting structure of claim 1, wherein said locking dowel further comprises an X-pin; the X-shaped pin is provided with four rod bodies which are in adaptive splicing with the pin holes; the end connecting ribs on any two adjacent groups of the plate A units and the corresponding adjacent plate B units are locked and positioned through X-shaped pins; the end connecting ribs at the head end and the tail end are locked and positioned through U-shaped pins respectively.

4. The wall panel mounting structure according to claim 2 or 3, wherein the connecting ribs further comprise middle connecting ribs, and the middle connecting ribs comprise middle connecting ribs I and middle connecting ribs II which are matched with and arranged correspondingly to the middle connecting ribs I; the middle connecting rib I is connected to the plate A unit, and the middle connecting rib II is connected to the plate B unit; the middle connecting rib is also provided with the pin hole; and the middle connecting rib is locked and positioned through the U-shaped pin.

5. The wall panel mounting structure according to claim 2, wherein the end connecting ribs I are provided with first vertically arranged convex tenons, the end connecting ribs II are provided with first vertically arranged grooves, and the first convex tenons are in fit connection with the first grooves.

6. The wall panel mounting structure of claim 4, wherein the middle connecting rib I is provided with a second horizontally arranged tenon, the middle connecting rib II is provided with a second horizontally arranged groove, and the second tenon is fittingly inserted into the second groove.

7. The wall panel mounting structure of claim 4, wherein the end connector ribs and the middle connector rib are arranged in a matrix.

8. The wall panel mounting structure of claim 1, wherein said a board unit and said B board unit are both tongue-and-groove boards having tongues and grooves at both ends.

9. The wall panel mounting structure of claim 1, wherein the wall panels a and/or B are provided with a slurry filling port.

10. An assembled wall comprising the wall panel mounting structure of any one of claims 1-7; the keel structure also comprises a ground keel fixed on the ground and a top keel fixed on the top surface; the upper end and the lower end of the wallboard A and the wallboard B are fixedly connected to the top keel and the ground keel; the side receiving plate is also a tongue-and-groove plate and can be matched and matched with the tongue-and-groove of the A wallboard and the B wallboard; the side folding plate is connected to the tail ends of the wall plates A and B.

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