CN211548351U - Light composite wallboard assembly - Google Patents

Abstract

The utility model relates to the technical field of composite boards, in particular to a light composite wallboard component, which comprises a composite wallboard and a connecting piece, wherein the composite wallboard comprises a left side wall and a right side wall, the left splicing block of fixedly connected with on the left side wall of the composite wallboard, the right splicing block of fixedly connected with on the right side wall of the composite wallboard, the left splicing block and the right splicing block are arranged in a staggered mode, the connecting piece comprises a connecting frame and a connecting bolt, the vertical section of the connecting frame is rectangular, the two ends of the connecting frame are in an open mode, the connecting frame comprises an upper end plate, a lower end plate, a front end plate and a rear end plate, the front end plate and the rear end plate are parallel to each other, the upper end plate is connected between the front end plate and the rear end plate, the lower end plate is connected between the front end plate and the rear end plate, the upper end plate and the lower end plate are parallel to each other, the upper end plate and the lower end plate are respectively arranged at the two ends of the front end plate. The utility model discloses an improve composite wall panel installation stability's function.

Description

Light composite wallboard assembly

Technical Field

The utility model relates to a composite sheet technical field, in particular to light composite wall board subassembly.

Background

The composite wall board is an industrially produced new generation high-performance building inner partition board, is compounded by a plurality of building materials, replaces the traditional brick and tile, has the obvious advantages of environmental protection, energy saving, no pollution, light weight, shock resistance, fire resistance, heat preservation, sound insulation and quick construction, is an ideal energy-saving wall body of a modern building, and is composed of two layers of panels and a middle sandwich layer in the prior art, wherein the production raw materials of the panels mainly select cement, sand, slag, perlite, fly ash, sawdust, glass fiber cloth, straw and the like, and the middle sandwich layer mainly comprises mineral wool boards, extruded sheets, polystyrene boards or other heat-insulating and sound-insulating materials.

When carrying out the installation of large tracts of land compound installation face, need glue the composite wall panel of unit form and establish on the installation face, splice each other simultaneously and constitute whole wall, the concatenation mode of prior art adopts for gluing composite wall panel with cement mortar and establishes on installation face and subaerial, also glues through cement mortar between the adjacent composite wall panel and establishes and form.

The shortcoming of the prior art is that when one of the composite wall boards is shaken due to large impact, the other composite wall board bonded with the composite wall board can also shake along with the composite wall board, so that the whole wall surface is easy to shake, and the whole wall surface is unstable to connect with the upper mounting surface and the ground.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a light composite wall panel subassembly has realized improving composite wall panel installation stability's function.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme:

a light composite wallboard component comprises a composite wallboard and a connecting piece, wherein the composite wallboard comprises an upper side wall, a lower side wall, a left side wall and a right side wall, a left splicing block is fixedly connected to the left side wall of the composite wallboard, a right splicing block is fixedly connected to the right side wall of the composite wallboard, the left splicing block and the right splicing block are arranged in a staggered mode, the two adjacent left splicing blocks and the right splicing blocks are spliced and matched with each other, the connecting piece comprises a connecting frame and a connecting bolt, the vertical section of the connecting frame is rectangular, the two ends of the connecting frame are in an open mode, the connecting frame comprises an upper end plate, a lower end plate, a front end plate and a rear end plate, the front end plate and the rear end plate are parallel to each other, the upper end plate is connected between the front end plate and the rear end plate, the lower end plate is connected between the front end plate and the rear end plate, the upper end plate and the lower end, the connecting bolt penetrates through the front end plate, the left splicing block and the right splicing block and then is in threaded connection with the rear end plate.

By adopting the technical scheme, two composite boards to be installed are arranged on two sides of the connecting frame, so that the left splicing block and the right splicing block of two adjacent composite boards are inserted between the front end plate and the rear end plate, the connecting frame is fixedly connected between the upper installation surface and the ground through bolts, the connecting bolts penetrate through the left splicing block and the right splicing block which are spliced in a staggered way of the two composite boards and are in threaded connection with the rear end plate, the two composite boards are fixedly bonded between the upper installation surface and the ground, when one of the composite wall boards shakes, the connecting bolt has a limiting effect on the shaking, meanwhile, the other composite wallboard has the functions of abutting and blocking the swaying composite wallboard, the connecting plate also has the function of blocking the other composite wallboard, therefore, when a single composite wallboard shakes, the adjacent composite wallboard has a limiting effect on the single composite wallboard, therefore, the connection stability of the adjacent composite wall panel is not easily influenced when the composite wall panel is shaken.

The utility model discloses further set up to: one side of the front end plate is hinged with the upper end plate through a vertical hinge shaft.

By adopting the technical scheme, the two composite boards to be installed are respectively a first composite wallboard and a second composite wallboard, when in installation, the upper side wall and the lower side wall of the first composite wallboard are respectively adhered on the upper installation surface and the ground through cement mortar, the connecting frame is arranged on one side of the first composite wallboard, the connecting frame is moved, a left splicing block of the first composite wallboard is inserted into one open-shaped side of the connecting frame, the left splicing block is positioned between the front end plate and the rear end plate, the upper end plate is fixedly connected on the upper installation surface through a bolt, the lower end is fixedly connected on the ground through a bolt, the connecting frame is fixed between the upper installation surface and the ground, the second composite wallboard to be installed is arranged on the other open-shaped side of the connecting frame, the front end plate is rotated and then opened, and the second composite wallboard is pushed towards the plane vertical to the first composite wallboard, make the right side splice of the compound wallboard of second and the left splice butt of first compound wallboard, then with the front end plate closure, pass the right splice of the compound wallboard of second and the left splice of first compound wallboard back and back end plate threaded connection in proper order along the direction of perpendicular to front end plate with connecting bolt, then pass through cement mortar with the upper end of the compound wallboard of second and glue and establish on the installation face, consequently realized conveniently installing the function between two adjacent composite sheets with the carriage.

The utility model discloses further set up to fixedly being provided with the grafting piece in one side that right concatenation piece is close to the back end plate, seted up the inserting groove on one side that left concatenation piece is close to the front end plate, grafting piece and inserting groove are pegged graft and are cooperated.

Through adopting above-mentioned technical scheme, when one of them composite wall panel received great horizontal direction's pulling force, because grafting piece and inserting groove are pegged graft and are cooperated, consequently make another composite wall panel play limiting displacement to it for two composite wall panels are difficult for taking place the separation along its length direction, have promoted the joint strength of installation face on the whole complex.

The utility model discloses further set up to be equipped with the rubber layer on the lateral wall of left side splice piece, be equipped with the rubber layer on the lateral wall of right side splice piece.

Through adopting above-mentioned technical scheme, when one of them composite wall panel takes place to rock, the rubber layer makes difficult emergence rigidity collision between left side concatenation piece and the right side concatenation piece, and then makes the composite wall panel that takes place to rock difficult to lead to the fact rigidity collision to another composite wall panel for when one of them composite wall panel takes place to rock, also difficult to lead to the fact the damage to another composite wall panel.

The utility model discloses further set up to: the T-shaped reinforcing nails are fixedly arranged inside the left splicing block and the right splicing block and comprise nail bodies and nail heads, the nail bodies are vertically arranged in the middle of the nail heads, the nail bodies of the T-shaped reinforcing nails in the left splicing block are inserted into the left side wall along the direction perpendicular to the left side wall, and the T-shaped reinforcing nails in the right splicing block are inserted into the right side wall along the direction perpendicular to the right side wall.

Through adopting above-mentioned technical scheme, in the processing composite wall panel process, at first with composite wall panel machine-shaping, fix two T shape stiffeners on left side wall and right side wall respectively, then splice the piece with a left side and splice the piece casting moulding in the T shape stiffener outside with a right side, T type shape stiffener all plays the supporting role to splice the piece with a right side to splice the piece with a left side, consequently make splice the piece with a right side and splice the piece and be difficult for droing from composite wall panel, consequently strengthened splice the piece, splice the piece and the composite wall panel between the right side and the joint strength.

The utility model discloses further set up to: composite wall panel includes panel layer, thermal insulation layer, structure enhancement layer and puigging, and the thermal insulation layer is located between two panel layers, and the puigging is located between thermal insulation layer and the panel layer, and the puigging glues the outside of establishing at thermal insulation layer and the symmetry sets up the both sides at thermal insulation layer, and the structure enhancement layer symmetry sets up the both sides of keeping away from thermal insulation layer at the puigging, and the structure enhancement layer bonds fixedly with the puigging.

Through adopting above-mentioned technical scheme, the puigging plays good syllable-dividing effect to the noise that passes composite wall panel, and the structure enhancement layer plays good fixed effect to the puigging for the puigging is difficult for droing from the thermal insulation layer, and the puigging symmetry sets up in the both sides of thermal insulation layer, has consequently played the dual function of making an uproar of falling to the noise that passes composite wall panel.

The utility model discloses further set up to: the sound insulation layer is made of glass fiber cotton felt.

Through adopting above-mentioned technical scheme, the inside fibre of glass fiber cotton felt is fluffy crisscross, there is a large amount of small holes, good sound absorption characteristic has, it still has very excellent shock attenuation, sound absorption characteristic, especially, all have good absorption effect to middle low frequency and various vibrations noise, it lays the coiled material that needs and make for adapting to the large tracts of land simultaneously, consequently can be laid in the great composite wall board of area, no matter can keep good heat preservation heat-proof quality in high temperature or low temperature environment, the sound barrier properties of composite wall board has not only been promoted, compound wall board heat preservation heat insulation effect has been played to the promotion simultaneously.

The utility model discloses further set up to: the structure reinforcing layer is a metal mesh layer.

Through adopting above-mentioned technical scheme, the glass fiber cotton felt is flexible material, glue the metal mesh layer and establish the outside of keeping away from the thermal insulation layer at the puigging, the metal mesh has higher rigidity for the glass fiber cotton felt, the glass fiber cotton felt is by the pressfitting between metal mesh layer and thermal insulation layer, consequently, make the glass fiber cotton felt difficult for coming off from the thermal insulation layer, metal mesh layer can have good stretch-proofing effect simultaneously, when making composite wall panel receive the impact and take place deformation, the glass fiber cotton felt is difficult for taking place deformation, and then make the glass fiber cotton felt difficult for coming off from the thermal insulation layer.

The utility model discloses further set up to: and a cement mortar layer is laid on one side of the structure reinforcing layer, which is far away from the heat-insulating layer, and is positioned between the structure reinforcing layer and the panel layer, and glass fiber mesh cloth is laid in the cement mortar layer.

Through adopting above-mentioned technical scheme, the panel layer is established in the metal mesh layer outside through cement mortar layer bonding, cement mortar layer has played further fixed effect to the metal mesh, make the joint strength reinforcing between metal mesh and puigging and the panel layer, composite wall board internal structure stability has been promoted, glass fiber net check cloth has good alkali resistance, pliability and longitude and latitude height tensile resistance, it is light to have a matter, high strength, high temperature resistant, alkali-proof, waterproof, corrosion-resistant, anti-cracking, characteristics such as size stability, it can effectively reduce the whole surface tension shrink of cement mortar layer and the fracture that external force arouses, the stability of cement mortar layer has been promoted, the panel layer is difficult to separate with the structure enhancement layer, and then composite wall board's combined strength has been promoted.

To sum up, the utility model discloses following technological effect has:

1. the composite wallboard assembly comprising the composite wallboard and the connecting piece is adopted, so that the effect of improving the connection stability of the composite wallboard is realized;

2. by adopting the structure of the T-shaped reinforcing nails, the function of improving the connection strength of the left splicing block, the right splicing block and the composite wallboard is realized;

3. through the structure that adopts the puigging, realized improving the function of composite wall panel sound insulation effect.

Drawings

FIG. 1 is a three-dimensional perspective view of the present embodiment;

FIG. 2 is a three-dimensional perspective view of a highlighted junction box structure;

FIG. 3 is a schematic cross-sectional view of the position of the protruded connection frame, the left splicing block and the right splicing block in splicing fit;

FIG. 4 is an enlarged schematic view of detail A of FIG. 1;

FIG. 5 is a schematic partial cross-sectional view of a highlighted T-shaped reinforcement pin structure;

fig. 6 is a schematic view, partially in section, highlighting the internal structure of the composite wall panel.

In the figure, 1, a composite wallboard; 11. a left side wall; 111. a left splice block; 1111. inserting grooves; 12. a right side wall; 121. a right splice block; 1211. an insertion block; 13. a heat insulation layer; 14. a sound insulating layer; 15. a structural reinforcement layer; 16. a cement mortar layer; 161. glass fiber mesh cloth; 17. a panel layer; 18. a T-shaped reinforcing nail; 181. a nail body; 182. a nail head; 2. a connecting member; 21. a connecting frame; 211. a front end plate; 212. a rear end plate; 213. an upper end plate; 214. a lower end plate; 22. a connecting bolt; 3. an upper mounting surface; 4. a ground surface; 5. a first composite wallboard; 6. a second composite wallboard.

Detailed Description

As shown in fig. 1, the utility model provides a light composite wall panel assembly, composite wall panel assembly includes composite wall panel 1 and connecting piece 2, and composite wall panel 1 glues along vertical direction and establishes between last installation face 3 and ground 4, and connecting piece 2 is fixed along vertical direction to be set up between last installation face 3 and ground 4, and connecting piece 2 is connected between two adjacent composite wall panels 1. When the composite wall panels 1 are installed, firstly, one of the composite wall panels 1 is adhered between an upper installation surface 3 and the ground 4, then the connecting piece 2 is fixedly arranged on one side of the composite wall panel, the other composite wall panel 1 moves along a plane perpendicular to the fixed composite wall panel 1, after the two composite wall panels 1 are connected through the connecting piece 2, the other composite wall panel 1 is adhered between the upper installation surface 3 and the ground 4, and the connecting piece 2 plays a role in connecting and fixing the two adjacent composite wall panels 1.

As shown in fig. 1 and 2, the composite wall panel 1 includes an upper side wall, a lower side wall, a left side wall 11 and a right side wall 12, a left splicing block 111 is fixedly connected to the left side wall 11 of the composite wall panel 1, a right splicing block 121 is fixedly connected to the right side wall 12 of the composite wall panel 1, the left splicing block 111 and the right splicing block 121 are arranged in a staggered manner, as shown in fig. 2, the connecting member 2 includes a connecting frame 21 and a connecting bolt 22, the vertical section of the connecting frame 21 is rectangular, both ends of the connecting frame 21 are open, the connecting frame 21 includes an upper end plate 213, a lower end plate 214, a front end plate 211 and a rear end plate 212, the front end plate 211 and the rear end plate 212 are parallel to each other, the upper end plate 213 is connected between the front end plate 211 and the rear end plate 212, the lower end plate 214 is connected between the front end plate 211 and the rear end plate 212, the upper end plate 213 and the lower end plate 214 are parallel, the connecting bolt 22 passes through the front end plate 211, the left splicing block 111 and the right splicing block 121 and then is in threaded connection with the rear end plate 212. Two composite wall boards 1 to be installed are arranged at two sides of a connecting frame 21, so that a left splicing block 111 and a right splicing block 121 of two adjacent composite wall boards 1 are inserted between a front end plate 211 and a rear end plate 212, the connecting frame 21 is fixedly connected between an upper installation surface 3 and the ground 4 through bolts, a connecting bolt 22 penetrates through the left splicing block 111 and the right splicing block 121 which are spliced in a staggered mode of the two composite wall boards 1 and is in threaded connection with the rear end plate 212, the two composite wall boards 1 are fixedly bonded between the upper installation surface 3 and the ground 4, when one composite wall board 1 shakes, the connecting bolt 22 plays a limiting role in shaking, meanwhile, the other composite wall board 1 plays a role in abutting and blocking the shaken composite wall board 1, and the connecting plate also plays a blocking role in blocking the other composite wall board 1, so that when a single composite wall board 1 shakes, the composite wall board 1 adjacent to the single composite wall board 1 plays a limiting role in the same, so that the connection stability of the adjacent composite wall panel 1 is not easily affected when the composite wall panel is shaken.

The connecting frame 21 can adopt split type structure, or adopt and pass through the articulated setting of vertical hinge axis with front end plate 211 a side and upper end plate 213, for the convenience installs connecting frame 21, the utility model adopts the above-mentioned second kind mode. As shown in fig. 3 and 4, one side of the front end plate 211 is hinged to the upper end plate 213 through a vertical hinge shaft, the two composite wall panels 1 to be installed are the first composite wall panel 5 and the second composite wall panel 6, when installing, firstly, the upper side wall and the lower side wall of the first composite wall panel 5 are respectively adhered to the upper installation surface 3 and the ground 4 through cement mortar, the connection frame 21 is placed on one side of the first composite wall panel 5, the connection frame 21 is moved, so that the left splicing block 111 of the first composite wall panel 5 is inserted into the open side of the connection frame 21, the left splicing block 111 is positioned between the front end plate 211 and the rear end plate 212, then the upper end plate 213 is fixedly connected to the upper installation surface 3 through bolts, meanwhile, the lower end is fixedly connected to the ground 4 through bolts, so that the connection frame 21 is fixed between the upper installation surface 3 and the ground 4, the second composite wall panel 6 to be installed is placed on the open side of the connection frame 21, then open after rotating front end plate 211, promote second composite wall panel 6 to the plane along the first composite wall panel 5 place of perpendicular to, make right splice 121 of second composite wall panel 6 and the left splice 111 butt of first composite wall panel 5, then close front end plate 211, pass right splice 121 of second composite wall panel 6 and the left splice 111 back and back end plate 212 threaded connection of first composite wall panel 5 in proper order along the direction of perpendicular to front end plate 211 with connecting bolt 22, then glue the upper end of second composite wall panel 6 through cement mortar and establish on upper mounting face 3, consequently realized conveniently installing the function between two adjacent composite wall panels 1 with carriage 21.

As shown in fig. 3, an insertion block 1211 is fixedly disposed on a side of the right splicing block 121 close to the rear end plate 212, an insertion groove 1111 is disposed on a side of the left splicing block 111 close to the front end plate 211, and the insertion block 1211 and the insertion groove 1111 are in insertion fit. When one of the composite wall panels 1 is pulled in a larger horizontal direction, the insertion block 1211 and the insertion groove 1111 are inserted and matched, so that the other composite wall panel 1 can limit the other composite wall panel 1, the two composite wall panels 1 are not easy to separate along the length direction of the two composite wall panels, and the connection strength of the whole composite upper mounting surface 3 is improved.

In order to strengthen the connection strength of the left splicing block 111 and the right splicing block 121 with the composite wall panel 1, the utility model discloses all fix and be provided with T-shaped reinforcing nail 18 inside the left splicing block 111 and the right splicing block 121, as shown in fig. 5, T-shaped reinforcing nail 18 includes nail body 181 and pin head 182, nail body 181 sets up at the middle part of pin head 182 perpendicularly, the nail body 181 of the T-shaped reinforcing nail 18 in the left splicing block 111 inserts in the left side wall 11 along the direction of perpendicular to left side wall 11, the T-shaped reinforcing nail 18 in the right splicing block 121 inserts in the right side wall 12 along the direction of perpendicular to right side wall 12. In the process of processing the composite wallboard 1, firstly, the composite wallboard 1 is processed and molded, two T-shaped reinforcing nails 18 are respectively fixed on the left side wall 11 and the right side wall 12, then the left splicing block 111 and the right splicing block 121 are cast and molded outside the T-shaped reinforcing nails 18, the T-shaped reinforcing nails support the left splicing block 111 and the right splicing block 121, so that the left splicing block 111 and the right splicing block 121 are not easy to fall off from the composite wallboard 1, and the connection strength between the left splicing block 111 and the composite wallboard 1 is enhanced.

As shown in fig. 6, composite wall panel 1 includes panel layer 17, thermal insulation layer 13, structure enhancement layer 15, puigging 14 and cement mortar layer 16, thermal insulation layer 13 is located between two panel layers 17, puigging 14 is located between thermal insulation layer 13 and panel layer 17, puigging 14 glues the outside of establishing at thermal insulation layer 13 and the symmetry sets up in thermal insulation layer 13's both sides, structure enhancement layer 15 symmetry sets up the both sides of keeping away from thermal insulation layer 13 at puigging 14, structure enhancement layer 15 bonds fixedly with puigging 14, cement mortar layer 16 glues and establishes in the one side that structure enhancement layer 15 keeps away from puigging 14, cement mortar layer 16 glues and establishes between structure enhancement layer 15 and panel layer 17. The puigging 14 plays good syllable-dividing effect to the noise that passes composite wall panel 1, puigging 14 symmetry sets up the both sides at thermal insulation layer 13, consequently has played the dual function of making an uproar of falling to the noise that passes composite wall panel 1, and structure enhancement layer 15 plays good fixed effect to puigging 14 for puigging 14 is difficult for droing from thermal insulation layer 13, and cement mortar layer 16 is used for bonding structure enhancement layer 15 and panel layer 17 fixedly.

The puigging 14 is the cotton felt of glass fiber, the cotton felt of glass fiber is inside the fibre is fluffy crisscross, there is a large amount of small holes, good sound absorption characteristic has, it still has very excellent shock attenuation, sound absorption characteristic, especially, well absorption effect all has to the middle low frequency and various vibrations noise, it lays the coiled material that needs and make for adapting to the large tracts of land simultaneously, consequently can be laid in the great compound wallboard 1 of area, no matter in high temperature or low temperature environment homoenergetic keep good heat preservation heat-proof quality, not only the noise insulation performance of compound wallboard 1 has been promoted, the heat preservation heat insulation effect of compound wallboard 1 has been played to the promotion simultaneously.

The structure enhancement layer 15 is the metal mesh layer, bond the metal mesh layer in puigging 14 and keep away from the outside of thermal insulation layer 13, the metal mesh has higher rigidity for the glass fiber cotton felt, the glass fiber cotton felt is pressfitting between metal mesh layer and thermal insulation layer 13, consequently, make the glass fiber cotton felt difficult for coming off from thermal insulation layer 13, metal mesh layer can have good tensile effect simultaneously, when making composite wall panel 1 receive the impact and take place the deformation, the glass fiber cotton felt is difficult for taking place the deformation, and then make the glass fiber cotton felt difficult for coming off from thermal insulation layer 13, cement mortar layer 16 has played further fixed effect to the metal mesh, make the joint strength reinforcing between metal mesh and puigging 14 and panel layer 17, composite wall panel 1 inner structure stability has been promoted.

As shown in fig. 6, the glass fiber mesh cloth 161 is laid in the cement mortar layer 16, the glass fiber mesh cloth 161 has good alkali resistance, flexibility and warp-weft high tensile resistance, and has the characteristics of light weight, high strength, high temperature resistance, alkali resistance, water resistance, corrosion resistance, crack resistance, stable size and the like, so that the cracks caused by the whole surface tension shrinkage and external force of the cement mortar layer 16 can be effectively reduced, the stability of the cement mortar layer 16 is improved, the first layer panel and the second layer panel are not easy to fall off from the structural reinforcement layer 15, and the composite strength of the composite wallboard 1 is further improved.

Panel layer 17 is the fiber cement board, the fiber cement board quality is light, high strength, in the time of keeping 1 intensity of composite wall panel, composite wall panel 1's weight has been alleviateed, make things convenient for composite wall panel 1 to be under construction and installation, it is insulating to have the fire prevention simultaneously, water and moisture proofing, high-quality performance such as thermal-insulated syllable-dividing, consequently, composite wall panel 1 adaptability under various environment has been promoted, panel layer 17 bonds through cement mortar layer 16 and establishes in the metal mesh layer outside, cement mortar layer 16 has played further fixed effect to the metal mesh, make the joint strength reinforcing between metal mesh and puigging 14 and panel layer 17, composite wall panel 1 inner structure stability has been promoted.

The heat-insulating layer 13 is a polystyrene board which has excellent heat-insulating property, high-strength compression resistance, water resistance, moisture resistance, corrosion resistance and durability, and can be used as a heat-insulating layer of building walls, roofing heat insulation and composite heat-insulating plates.

The utility model discloses a theory of operation does:

two composite wall boards 1 to be installed are arranged at two sides of a connecting frame 21, so that a left splicing block 111 and a right splicing block 121 of two adjacent composite wall boards 1 are inserted between a front end plate 211 and a rear end plate 212, the connecting frame 21 is fixedly connected between an upper installation surface 3 and the ground 4 through bolts, a connecting bolt 22 penetrates through the left splicing block 111 and the right splicing block 121 which are spliced in a staggered mode of the two composite wall boards 1 and is in threaded connection with the rear end plate 212, the two composite wall boards 1 are fixedly bonded between the upper installation surface 3 and the ground 4, when one composite wall board 1 shakes, the connecting bolt 22 plays a limiting role in shaking, meanwhile, the other composite wall board 1 plays a role in abutting and blocking the shaken composite wall board 1, and the connecting plate also plays a blocking role in blocking the other composite wall board 1, so that when a single composite wall board 1 shakes, the composite wall board 1 adjacent to the single composite wall board 1 plays a limiting role in the same, so that the connection stability of the adjacent composite wall panel 1 is not easily affected when the composite wall panel is shaken.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment without inventive contribution as required after reading the present specification, but all of them are protected by patent laws within the scope of the claims of the present invention.

Claims (9)

1. The utility model provides a light composite wall board assembly, composite wall board (1) subassembly includes composite wall board (1) and connecting piece (2), composite wall board (1) includes the lateral wall, the lateral wall down, left side wall (11) and right side wall (12), a serial communication port, fixedly connected with left concatenation piece (111) on composite wall board (1) left side wall (11), fixedly connected with right concatenation piece (121) on composite wall board (1) right side wall (12), left side concatenation piece (111) and right concatenation piece (121) crisscross setting, two adjacent left concatenation pieces (111) and right concatenation piece (121) splice the cooperation each other, connecting piece (2) are including connecting frame (21) and connecting bolt (22), and the vertical cross-section of connecting frame (21) is the rectangle, and connecting frame (21) both ends are the open form, and connecting frame (21) include upper end plate (213), lower end plate (214), Front end plate (211) and back end plate (212), front end plate (211) and back end plate (212) are parallel to each other, upper end plate (213) are connected between front end plate (211) and back end plate (212), lower end plate (214) are connected between front end plate (211) and back end plate (212), upper end plate (213) and lower end plate (214) are parallel to each other, upper end plate (213) and lower end plate (214) set up respectively at the both ends of front end plate (211), connecting bolt (22) pass front end plate (211), behind left splice (111) and the right splice (121) with back end plate (212) threaded connection.

2. A lightweight composite wall panel assembly according to claim 1, wherein one side of the front end panel (211) is hingedly connected to the upper end panel (213) by a vertical hinge.

3. The light composite wallboard assembly of claim 1, wherein an insertion block (1211) is fixedly arranged on one side of the right splicing block (121) close to the rear end plate (212), an insertion groove (1111) is formed on one side of the left splicing block (111) close to the front end plate (211), and the insertion block (1211) is in insertion fit with the insertion groove (1111).

4. The lightweight composite wall panel assembly of claim 1, wherein a rubber layer is provided on the outer sidewall of the left tile (111) and a rubber layer is provided on the outer sidewall of the right tile (121).

5. The lightweight composite wall panel assembly according to claim 1, wherein the left and right splice blocks (111, 121) are each internally and fixedly provided with a T-shaped reinforcing nail (18), each T-shaped reinforcing nail (18) comprises a nail body (181) and a nail head (182), the nail body (181) is vertically arranged in the middle of the nail head (182), the nail body (181) of the T-shaped reinforcing nail (18) in the left splice block (111) is inserted into the left side wall (11) in a direction perpendicular to the left side wall (11), and the nail body (181) of the T-shaped reinforcing nail (18) in the right splice block (121) is inserted into the right side wall (12) in a direction perpendicular to the right side wall (12).

6. A light weight composite wall panel assembly according to claim 1, wherein the composite wall panel (1) comprises a panel layer (17), a thermal insulation layer (13), a structural reinforcing layer (15) and a sound insulation layer (14), the thermal insulation layer (13) is located between two panel layers (17), the sound insulation layer (14) is located between the thermal insulation layer (13) and the panel layer (17), the sound insulation layer (14) is adhered to the outer side of the thermal insulation layer (13) and symmetrically arranged on the two sides of the thermal insulation layer (13), the structural reinforcing layer (15) is symmetrically arranged on the two sides of the sound insulation layer (14) far away from the thermal insulation layer (13), and the structural reinforcing layer (15) is adhered and fixed with the sound insulation layer (14).

7. A lightweight composite wall panel assembly according to claim 6, wherein the acoustical layer (14) is a glass fiber wool blanket.

8. A lightweight composite wall panel assembly according to claim 7, wherein said structural reinforcing layer (15) is a metal mesh layer.

9. A lightweight composite wall panel assembly as claimed in claim 8, wherein a layer of cement mortar (16) is applied to the structural reinforcing layer (15) on the side remote from the insulating layer (13), the layer of cement mortar (16) being located between the structural reinforcing layer (15) and the facing layer (17), and a fiberglass scrim (161) is applied within the layer of cement mortar (16).

Images