CN210263608U - Light assembled panel with connection structure - Google Patents

Abstract

The utility model belongs to the field of energy-saving buildings, in particular to a light assembled plate with a connecting structure; a light-weight assembled plate with a connecting structure comprises a plate body. The utility model provides a new light assembled panel that has connection structure, the plate body light in weight and the self preservation temperature that constitute by frame and porous silicate heat preservation are effectual, and environmental protection safety, upper end and lower extreme at this plate body all set up a plurality of right angle connecting pieces, pass through sliding block and building subject structural connection through the right angle connecting piece direct with building subject structural connection or right angle connecting piece, not only can improve the whole assembly rate of building greatly, the efficiency of construction, reach the energy-conserving index in ultralow energy consumption passive form house, can also make the plate body along with high-rise major structure's displacement and slow movement, with the main structure deformation that adaptation and reply high-rise wind-force or vibrations production.

Description

Light assembled panel with connection structure

Technical Field

The utility model belongs to energy-conserving building field, in particular to light assembled panel with connection structure.

Background

Along with the year-by-year improvement and mandatory execution of national requirements on energy-saving and heat-insulating design of building exterior walls, the production and manufacturing difficulty and the cost of heavy-duty assembled PC boards with sandwich heat-insulating layers are higher and higher, meanwhile, due to the fact that the self weight is high, an assembling sleeve structure connection mode is required, but the inner construction of sleeves is invisible, the pouring quality is difficult to control, and the joint quality and long-term stable safety face challenges. In addition, the heavy PC wallboard is not completely applicable to a concrete and heavy steel frame structure system which accounts for 30-40% of the existing high-rise design, and has repeated bearing design and high manufacturing cost.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems existing in the prior art, the utility model provides a novel light assembled panel with connection structure.

The utility model discloses specific technical scheme as follows:

the utility model provides a light assembled plate with a connecting structure, which comprises a plate body, wherein the plate body comprises a frame and heat preservation layers arranged on the inner side of the frame, four outer walls of the frame and the upper and lower outer end surfaces of the frame, and the upper, lower, left, right, front and back 6 surfaces of the frame are all composed of supporting structures; the upper end and the lower extreme of plate body are followed the length direction of plate body interval respectively is equipped with a plurality of right angle connecting pieces, be connected with the sliding block on at least one right angle face of right angle connecting piece.

In a further improvement, the right-angle connecting piece comprises a horizontal plate piece and a vertical plate piece which are vertically arranged, at least one slotted hole is formed in each of the horizontal plate piece and the vertical plate piece, the slotted hole in each horizontal plate piece extends in the width direction of the horizontal plate piece, the slotted hole in each vertical plate piece extends in the height direction of the vertical plate piece, a bolt is arranged in each slotted hole, and a nut is screwed on each bolt; the sliding block is provided with a bar-shaped clamping groove, and one end of a bolt arranged on a horizontal plate or a vertical plate connected with the sliding block is provided with a clamping body matched with the bar-shaped clamping groove.

In a further improvement, a reinforcing structure for connecting the horizontal plate piece and the vertical plate piece is arranged on the right-angle connecting piece.

Further improvement, the both ends of bar draw-in groove all are equipped with the shutoff piece, just the bar draw-in groove with all be equipped with protection piece in the slotted hole, protection piece includes the foam or sealed glue.

In a further improvement, the peripheral side walls of the frame are provided with metal mesh molds and clamping plates, each clamping plate pushes and presses the metal mesh molds towards the inner direction of the frame to form a groove, and a waterproof layer is arranged in each groove.

In a further improvement, the side walls around the frame are provided with guide grooves, the two sides of each guide groove are provided with side wings, each side wing is connected with the corresponding supporting structure, and an included angle is formed between the guide groove arranged on the upper end surface of the frame and the length direction of the frame.

In a further improvement, board connecting grooves are formed in the peripheral side walls of the board body, heat preservation strips and sealant are arranged on two sides of each board connecting groove, a clamping board is arranged on one side, far away from the board connecting grooves, of each sealant, sealing adhesive strips are arranged in clamping grooves of the clamping boards, and each board connecting groove comprises a flat joint groove, a staggered joint and a tongue-and-groove joint.

The supporting structure is further improved, and each supporting structure consists of a plurality of vertical keels and horizontal keels which are arranged between the vertical keels and are arranged horizontally; the frame is characterized in that a metal mesh die is arranged on at least one of the front and rear side end faces of the frame, first anti-cracking mortar layers are arranged on the metal mesh die and in meshes of the metal mesh die, at least one layer of grid cloth is arranged on the first anti-cracking mortar layer arranged on the metal mesh die, and a second anti-cracking mortar layer is arranged on each layer of grid cloth.

The improved structure comprises a supporting structure body and a plurality of supporting structures, wherein the supporting structures are divided into an inner supporting body and an outer supporting body, the inner supporting body is connected with the outer supporting body through an insulating connecting piece, a heat insulation layer is arranged between the inner supporting body and the outer supporting body, and the inner supporting body and the outer supporting body are composed of a plurality of longitudinal keels and a plurality of transverse keels.

The utility model has the advantages as follows:

the utility model provides a new light assembled panel that has connection structure, the plate body light in weight and the self preservation temperature that constitute by frame and heat preservation are effectual, and environmental protection safety, upper end and lower extreme at this plate body all set up a plurality of right angle connecting pieces, pass through sliding block and building subject structural connection through the right angle connecting piece is direct to be connected with building subject structural connection or right angle connecting piece, not only can improve the whole assembly rate of building greatly, the efficiency of construction, reach the energy-conserving index in super low energy consumption passive form house, can also make the plate body slowly move along with high-rise subject structure's displacement, with the main structure deformation that adaptation and reply high-rise wind-force or vibrations produced.

Drawings

FIG. 1 is a cross-sectional view of a lightweight fabricated panel with attachment structures according to example 1;

FIG. 2 is a sectional view of the right angle connector of embodiment 2 connected to a slide block;

FIGS. 3 to 4 are schematic structural views of slots in different arrangements according to example 2;

FIGS. 5 to 6 are schematic structural views of strip-shaped card slots of several different forms in embodiment 2;

FIG. 7 is a sectional view of a lightweight fabricated panel with attachment structures according to example 1;

FIG. 8 is a top view of the slider of example 2;

FIG. 9 is a schematic view showing the construction of a right-angle joint according to embodiment 2;

fig. 10 is a side view of the plate body of embodiment 3;

fig. 11 is a side view of the plate body of embodiment 4;

fig. 12 is a front view of the plate body according to embodiment 4;

fig. 13 is a top view of the plate of example 6;

FIG. 14 is a schematic structural view of a frame according to embodiment 6;

FIG. 15 is a schematic structural view of a support structure according to example 6;

FIG. 16 is a top view of the support structure of example 6.

Detailed Description

The present invention will be described in further detail with reference to the following examples and drawings.

Example 1

The embodiment 1 of the utility model provides a light assembled panel with connection structure, as shown in fig. 1, including the panel body 1, the panel body 1 includes the frame and sets up in the frame, the heat preservation 101 on four outer walls of frame and the upper and lower outer terminal surface of frame, the upper and lower, left and right, front and back 6 faces of frame constitute by bearing structure 102; the upper end and the lower extreme of plate body 1 are followed the length direction of plate body 1 interval respectively is equipped with a plurality of right angle connecting piece 2, be connected with sliding block 3 on at least one right angle face of right angle connecting piece 2.

The utility model provides a new light assembled panel that has connection structure, the plate body light in weight and the self preservation temperature that constitute by frame and heat preservation are effectual, and environmental protection safety, upper end and lower extreme at this plate body all set up a plurality of right angle connecting pieces, pass through sliding block and building subject structural connection through the right angle connecting piece is direct to be connected with building subject structural connection or right angle connecting piece, not only can improve the whole assembly rate of building greatly, the efficiency of construction, reach the energy-conserving index in super low energy consumption passive form house, can also make the plate body slowly move along with high-rise subject structure's displacement, with the main structure deformation that adaptation and reply high-rise wind-force or vibrations produced.

The upper and lower frames of the wallboard are connected with the steel beam or the concrete floor through a plurality of right-angle connecting pieces. For the wall plates crossing the floor, a plurality of groups of right-angle connecting pieces are arranged on the upper surface (the floor) and the lower surface (the downstairs roof surface) of the steel beam or concrete floor respectively to be connected with the building main body. The right-angle connecting piece and the wallboard and the steel beam or the floor can be fixed by adopting bolt connection or welding, or can be combined in two modes; meanwhile, the right-angle connecting piece can be directly connected with the plate body and also can be connected with the plate body through the sliding block, the direct connecting piece can be directly connected with the steel beam or the concrete floor and also can be connected with the steel beam or the concrete floor through the sliding block, and according to the actual situation, the right-angle connecting piece is connected with the steel beam or the concrete floor through the sliding block and is directly connected with the plate body, so that the plate body can slowly move along with the displacement of the main body structure of the high-rise building to adapt to and respond to the deformation of the main body structure generated by the wind power or the vibration of the high-rise building; the insulation includes, but is not limited to, rock wool, glass wool, or porous silicate insulation.

Example 2

A lightweight fabricated panel with a connecting structure, as shown in fig. 2 to 6, which is different from embodiment 1: the right-angle connecting piece 2 comprises a horizontal plate member 201 and a vertical plate member 202 which are vertically arranged, at least one slotted hole 203 is formed in each of the horizontal plate member 201 and the vertical plate member 202, the slotted hole 203 in the horizontal plate member 201 extends along the width direction of the horizontal plate member 201, the slotted hole 203 in the vertical plate member 202 extends along the height direction of the vertical plate member 202, a bolt 204 is arranged in each slotted hole 203, and a nut 205 is screwed on each bolt 204; the sliding block 3 is provided with a bar-shaped clamping groove 4, and one end of a bolt 204 arranged on the horizontal plate 201 or the vertical plate 202 connected with the sliding block 3 is provided with a clamping body 206 matched with the bar-shaped clamping groove 4.

As shown in fig. 7, the right-angle connector 2 of the present embodiment is provided with a reinforcing structure 20 for connecting the horizontal plate member 201 and the vertical plate member 202. The reinforcing structure comprises a stiffening plate or a reinforcing rib, and the stiffening plate or the reinforcing rib which is obliquely pulled or provided with a right-angle support can be additionally arranged on one side or two sides of the right-angle connecting piece. And because the slotted hole on the vertical plate can set up two or even a plurality of, consequently, the vertical plate can connect the plate body of two adjacent settings from top to bottom (when building high-rise building, generally need a plurality of plate bodies to constitute the building outer wall jointly), at this moment, horizontal plate spare can pass through bolt or welded connection on girder steel or concrete floor, then connect additional strengthening on two right-angle faces of keeping away from the plate body, additional strengthening constitutes triangle-shaped with two right-angle faces of right angle connecting piece to strengthen the steadiness of connecting

As shown in fig. 8 and 9, in this embodiment, blocking pieces 5 are disposed at two ends of the strip-shaped slot 4, and protection pieces 6 are disposed in the strip-shaped slot 4 and the slot 203, where the protection pieces 6 include foam or sealant.

In the embodiment, the vertical plate is connected to the plate body, the horizontal plate and the steel beam or the concrete floor slab are connected, the slotted hole in the horizontal plate can ensure the horizontal movement of the plate body, the slotted hole in the vertical plate can ensure the vertical movement of the plate body, and the arrangement of the strip-shaped clamping groove can further ensure the horizontal or vertical movement of the plate body so as to adapt to and respond to the main structure deformation caused by high-rise wind power or vibration; the sliding block is generally parallel to the horizontal plate member or the vertical plate member, but can also be perpendicular to the horizontal plate member or the vertical plate member, according to the actual situation; and the horizontal plate is provided with at least one slotted hole, the vertical plate is provided with at least one slotted hole, the position arrangement of the slotted hole is determined according to the actual situation, the slotted holes with two different arrangement modes are shown in figures 3-4, and the slotted holes with other arrangement modes are also in the protection scope of the utility model.

In this embodiment, the strip-shaped clamping grooves may be in various shapes in order to slide in cooperation with the clamping body, and are all within the protection scope of the present invention, for example, as shown in fig. 5, the strip-shaped clamping grooves include an upper clamping groove and a lower clamping groove which are mutually communicated, and the width of the lower clamping groove is greater than that of the upper clamping groove; as shown in fig. 6, further, third slots communicated with the lower slot are disposed at the upper ends of the two sides of the lower slot.

Furthermore, one side or two sides of the right-angle connecting piece can be additionally provided with a stiffening plate or a reinforcing rib which is obliquely pulled or provided with a right-angle support.

The plate body in the embodiment can be used as an external wall plate and an internal wall plate; when the plate serves as an external wall plate and the right-angle connecting piece is directly connected with the plate body and the building main body, one right-angle surface of the right-angle connecting piece can be directly welded or connected onto the plate body through bolts, the other right-angle surface can be directly welded on a steel structure beam or welded in a factory after the steel beam is processed, or can be welded on a concrete floor panel reinforcing steel bar in advance, the upper part of the edge of the poured concrete floor plate is pre-embedded, the lower side edge of the plate body can be upwards connected with the floor plate or the steel beam through the right angle of the connecting piece, and the upper side edge can be downwards connected with the lower side surface of the upper floor plate or the upper steel beam through the right angle; when as interior wallboard and right angle connecting piece and direct and plate body and building subject be connected, on a right angle face of right angle connecting piece was connected to the plate body by direct welding or through pre-buried bolted connection, roof boarding, floor board or roof board are connected to another right angle face, for the ease of the spool butt joint on pre-buried all kinds of spool in the plate body and the floor board, near ground and with floor board line union coupling's relevant position reservation wiring operation mouth at the plate body, treat that the wiring is accomplished the back, plaster and restore.

When the concrete frame is used as an external wall panel and the right-angle connecting piece is connected with a building main body through the sliding block and is connected with a concrete frame and a floor panel for installation, the bar-shaped clamping grooves are connected with reinforcing steel bars in a concrete floor panel after being blocked with foams, and are embedded into the concrete floor panel, and the bar-shaped clamping grooves are partially sunken in reserved grooves of the floor panel reserved for the bar-shaped clamping grooves. When the plate body is installed, foam in the strip-shaped clamping groove is removed, a bolt with a clamping body is placed, the bolt penetrates through a slotted hole in the right-angle connecting piece, a nut is installed again, connection with the strip-shaped clamping groove is completed, meanwhile, when local secondary pouring is conducted at a later-stage connecting part, the connecting piece and the slotted hole are protected by foam or sealant, the right-angle connecting piece and the plate body connected with the right-angle connecting piece can slide along the strip-shaped clamping groove, and the two ends of the strip-shaped clamping groove or the sliding distance range are thoroughly blocked by the sealing piece, so that the bolt and the clamping body are prevented from derailing in sliding.

When the plate body is connected and installed with a steel structure frame and a laminated floor slab or a steel bar truss floor bearing plate, the strip-shaped clamping grooves are connected with the steel beam through welding or bolting after being plugged with foam. The installation positions of the strip-shaped clamping grooves and the right-angle connecting pieces are reserved when the laminated floor slab or the steel bar truss floor bearing plate is manufactured. When the plate body is installed, the foam in the strip-shaped clamping groove is removed, the bolt with the clamping body is placed, the bolt penetrates through the slotted hole in the right-angle connecting piece, and then the nut is installed, so that the connection with the strip-shaped clamping groove is completed. If the later connecting part needs to be subjected to secondary concrete pouring treatment, the connecting piece and the slotted hole are protected by foam or sealant so as to ensure that the right-angle connecting piece and the assembling plate connected with the right-angle connecting piece can slide along the strip-shaped clamping groove, but two ends or the sliding distance range of the strip-shaped clamping groove are thoroughly blocked and treated by the sealing piece so as to prevent the bolt and the clamping body from derailing in the sliding process.

When building high-rise buildings, generally a plurality of plate bodies are needed to jointly form a building outer wall, at the moment, two plate bodies arranged up and down can be connected through a right-angle connecting piece, the lower end of an upper-layer plate body is bolted with an upper slotted hole of a right-angle connecting surface, and the upper end of a lower-layer plate body is bolted with a lower slotted hole of the right-angle connecting surface.

Example 3

A lightweight fabricated panel with a connecting structure, as shown in fig. 10, which is different from embodiment 1 in that: all be equipped with metal mesh mould 7 and splint 8 on the lateral wall all around of frame, each splint 8 respectively in each metal mesh mould 7 to the inside direction bulldozes of frame forms recess 9, be equipped with waterproof layer 10 in the recess 9.

In the embodiment, the grooves are ejected by the clamping plates, after the metal mesh molds are arranged on the peripheral side walls of the frame, the grooves are ejected inwards by the clamping plates on each metal mesh mold, then waterproof layers formed by waterproof coatings or waterproof coiled materials are coated in the grooves, and finally the clamping plates are removed, so that waterproof grooves can be formed or a heat-insulating layer is secondarily poured when the large plates are finally connected and assembled, and the seamless connection of the heat-insulating layer is realized; at least one groove is formed in each side wall of the peripheral side walls of the frame, the grooves are arranged along the length direction or the height direction of the side walls, and when two or more grooves are formed, the grooves are arranged at intervals.

Example 4

A lightweight fabricated panel with a connecting structure, as shown in fig. 11 and 12, which is different from embodiment 1 in that: the side walls of the periphery of the frame are provided with guide grooves 11, two sides of each guide groove 11 are provided with side wings 12, each side wing 12 is connected with the corresponding supporting structure 102, an included angle is formed between each guide groove 11 arranged on the upper end face of the frame and the length direction of the frame, and the included angle ranges from 1 degree to 5 degrees, preferably 3 degrees.

In order to reduce cold bridges in the embodiment, the periphery of the frame can also adopt a plastic net mold for insulating heat and breaking bridges or a plastic diversion trench with a semicircular or trapezoidal section, thin-wall side wings are arranged at two sides of the trench, the side wings can be fixed on the side surfaces of the keel, or a layer of metal net mold is fixed outside the side wings, and then the interface is sealed by waterproof mortar or the side surfaces of the whole keel are sealed; the groove does not need to be made by a model, so that the method is convenient and quick, and the cost can be saved; the diversion trench disposed on the upper end surface of the frame may be designed to have a form with a small angle, a side higher than the other side lower than the other side, or a middle higher than the other side lower than the other side, so that water can be discharged into the diversion trench on the side surface from the diversion trench on the upper end surface more smoothly, as shown in fig. 11, the embodiment takes a side higher than the other side lower as an example.

Example 5

A lightweight fabricated panel with a connecting structure, which is different from embodiment 1 in that: the side wall all is equipped with the board and connects the groove on the periphery of plate body, the both sides in board connects the groove all are equipped with heat preservation strip and sealed glue, and each sealed glue is kept away from one side in board connects the groove all is equipped with the cardboard, be equipped with joint strip in the draw-in groove of cardboard, the board connects the groove and includes flush joint recess, staggered joint, tongue-and-groove seam.

The board connecting groove in the embodiment is used for realizing splicing between the board bodies when a house is built, and the joint forms can be flat joint grooves, staggered joints and tongue-and-groove joints, so that the connection between the boards is firmer; the sealant described in this embodiment is the same as the sealant described in embodiment 2.

Example 6

A lightweight fabricated panel with a connecting structure, as shown in fig. 13 and 14, which is different from embodiment 1 in that: each support structure 102 is composed of a plurality of vertical keels 111 and horizontal keels 112 which are arranged between the vertical keels 111 and are arranged horizontally; at least one of the front and rear end faces of the frame is provided with a metal mesh mold 7, the metal mesh mold 7 and meshes of the metal mesh mold 7 are provided with first anti-cracking mortar layers 16, the first anti-cracking mortar layers 16 arranged on the metal mesh mold 7 are provided with at least one layer of grid cloth 17, and each layer of grid cloth 17 is provided with a second anti-cracking mortar layer 18.

As shown in fig. 15 and 16, in this embodiment, each of the supporting structures 102 is divided into an inner supporting body 121 and an outer supporting body 122, the inner supporting body 121 and the outer supporting body 122 are connected by an insulating connector 123, an insulating layer 101 is disposed between the inner supporting body 121 and the outer supporting body 122, and each of the inner supporting body 121 and the outer supporting body 122 is composed of a plurality of longitudinal keels 111 and a plurality of transverse keels 112.

The steel structure frame made of the keel is filled with the heat preservation layer, so that the steel structure frame has high strength, good weather-proof and freeze-thaw resistance cycle performance, excellent fireproof function, good long-term stability, no moisture absorption and pulverization, no hollowness and sinking, environmental protection and safety in use, and can thoroughly eliminate the fire hazard in the construction and lifetime use processes; meanwhile, the energy-saving building can be directly spliced and connected with a building structure and used as an inner wall member and an outer wall member of a prefabricated whole body, so that the whole assembly rate and the construction efficiency of the building are greatly improved, and the energy-saving index of the ultra-low energy consumption passive house is reached.

The supporting structure can be supported by an inner side double-layer supporting body, an outer side double-layer supporting body, a single-layer supporting body or a constructional column, the inner side double-layer supporting body, the outer side double-layer supporting body and the single-layer supporting body are supported by keels, when the thickness of the wall plate is below 15 centimeters, the single-layer keels are used for an inner wall and an outer wall, and when the thickness of the wall plate is above 15 centimeters, the inner side double-layer keels and the outer side double-; the double-layer keels are connected by a heat insulation connecting piece, and cold and hot bridges are avoided. The heat preservation layer flows or pours between double-deck fossil fragments in the form of mobile ground paste, effectively wraps up the space and the gap around filling structure girder steel, steel column and the reservation spool, and the heat preservation is sealed, effectively eliminates cold and hot bridge.

Pipelines and wire pipes such as water, electricity and the like are required to be arranged at the appointed position of the plate supporting keel in advance according to the design requirement before the porous silicate slurry is poured into the plate body, and the plate body is sealed and fixed after pouring.

The keel can be a grouting keel with supporting holes on the side surface so as to erect the line pipe and reduce the cold and hot bridges of the keel. If the stress support connecting component is a square tube, the cavity of the square tube is also filled with the porous silicate fireproof heat-insulation core material.

In the embodiment, the metal net mold can be replaced by a closing net, an expanding net or a steel wire dense net, the first anti-crack mortar layer cannot penetrate through too many meshes, the metal net mold can be fixed only by ensuring, so that the waste of mortar is avoided, and the depth of the first anti-crack mortar layer 4 of the penetrated meshes is preferably 1/3-1/2 of the depth of the meshes; the second anti-cracking mortar layer is common mortar; the width of the front and rear side end faces is larger than that of the peripheral side faces, and the front and rear side end faces can be sprayed with finish coats of paint or real stone paint and the like.

The above-mentioned embodiments are only preferred embodiments of the present invention, and are not intended to limit the scope of the present invention, and various modifications and improvements made by those skilled in the art without departing from the spirit of the present invention should fall within the protection scope defined by the claims of the present invention.

Claims (9)

1. The light-weight assembled plate with the connecting structure is characterized by comprising a plate body (1), wherein the plate body (1) comprises a frame and heat insulation layers (101) arranged on the inner side of the frame, four outer walls of the frame and the upper and lower outer end faces of the frame, and the upper, lower, left, right, front and rear 6 faces of the frame are all formed by supporting structures (102); the upper end and the lower extreme of plate body (1) are followed the length direction of plate body (1) interval respectively is equipped with a plurality of right angle connecting piece (2), be connected with sliding block (3) on at least one right angle face of right angle connecting piece (2).

2. The lightweight fabricated panel with a connecting structure as claimed in claim 1, wherein the right-angle connecting member (2) comprises a horizontal plate member (201) and a vertical plate member (202) which are vertically arranged, each of the horizontal plate member (201) and the vertical plate member (202) is provided with at least one slot (203), the slot (203) of the horizontal plate member (201) extends along the width direction of the horizontal plate member (201), the slot (203) of the vertical plate member (202) extends along the height direction of the vertical plate member (202), each of the slots (203) is provided with a bolt (204), and each of the bolts (204) is screwed with a nut (205); be equipped with bar draw-in groove (4) on sliding block (3), locate with the one end of bolt (204) on horizontal plate spare (201) or vertical plate spare (202) that sliding block (3) are connected be equipped with bar draw-in groove (4) complex card body (206).

3. The lightweight fabricated panel with connecting structure as claimed in claim 2, wherein the right-angle connecting member (2) is provided with a reinforcing structure (20) connecting the horizontal panel member (201) and the vertical panel member (202).

4. The lightweight fabricated panel with connecting structure as claimed in claim 2, wherein both ends of said strip-shaped slot (4) are provided with plugging members (5), and said strip-shaped slot (4) and said slot (203) are provided with protecting members (6), said protecting members (6) comprising foam or sealant.

5. The lightweight fabricated panel with a connecting structure as claimed in claim 1, wherein the peripheral side walls of the frame are provided with metal mesh molds (7) and clamping plates (8), each clamping plate (8) is pushed and pressed on each metal mesh mold (7) towards the inner direction of the frame to form a groove (9), and a waterproof layer (10) is arranged in each groove (9).

6. The lightweight fabricated panel with the connecting structure as claimed in claim 1, wherein the frame has flow guide grooves (11) on the peripheral side walls, the flow guide grooves (11) have side wings (12) on both sides, and each side wing (12) is connected to the corresponding supporting structure (102); an included angle is formed between a flow guide groove (11) arranged on the upper end face of the frame and the length direction of the frame.

7. The lightweight fabricated panel with connecting structures as claimed in claim 1, wherein the panel body has a panel connecting groove on the peripheral side wall, the panel connecting groove has a thermal insulating strip and a sealant on both sides, a clamping plate is disposed on one side of each sealant away from the panel connecting groove, a sealing adhesive strip is disposed in the clamping groove of the clamping plate, and the panel connecting groove includes a flat seam groove, a staggered seam and a tongue-and-groove seam.

8. The lightweight fabricated panel with connection structure as claimed in claim 1, wherein each of the support structures (102) is composed of a plurality of vertical longitudinal keels (111) and horizontal cross keels (112) disposed between the longitudinal keels (111); the anti-cracking mortar is characterized in that a metal mesh mold (7) is arranged on at least one of the front side end face and the rear side end face of the frame, first anti-cracking mortar layers (16) are arranged on the metal mesh mold (7) and in meshes of the metal mesh mold (7), at least one layer of grid cloth (17) is arranged on the first anti-cracking mortar layers (16) arranged on the metal mesh mold (7), and a second anti-cracking mortar layer (18) is arranged on each layer of grid cloth (17).

9. The lightweight fabricated panel with the connecting structure as claimed in claim 8, wherein each supporting structure (102) is divided into an inner supporting body (121) and an outer supporting body (122), the inner supporting body (121) and the outer supporting body (122) are connected through an insulating connector (123), an insulating layer (101) is arranged between the inner supporting body (121) and the outer supporting body (122), and the inner supporting body (121) and the outer supporting body (122) are both composed of a plurality of longitudinal keels (111) and a plurality of transverse keels (112).

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