CN211923209U - Assembled integral wall board - Google Patents

Abstract

The application provides a whole wallboard of pin-connected panel, which comprises a framework, inlay in skeleton week side polylith evaporate and press aerated concrete batten and many drawknot muscle, be equipped with the screens on the skeleton, the polylith evaporates and presses aerated concrete batten to inlay in corresponding screens, many drawknot muscle intervals set up in the week side of skeleton, set up the trompil that supplies corresponding drawknot muscle to pass on each evaporates and presses aerated concrete batten, each drawknot muscle links to each other with the skeleton, and the tip of each drawknot muscle links to each other with the one side that skeleton was kept away from to corresponding evaporate and press aerated concrete batten is fixed, evaporate and press and can also strengthen the connection with the pin between aerated concrete batten and the skeleton. The framework is provided with the clamping position, and the plurality of autoclaved aerated concrete slabs are inserted in one direction from the opening of the clamping position, so that the installation is convenient and fast; and the batten is convenient to be tightly assembled, and the displacement of the autoclaved aerated concrete batten is limited, so that the integrity of the assembled wallboard is improved. The whole framework is subjected to anti-corrosion treatment, and the tie bars are connected with the framework in a non-welding mode, so that the durability of the assembled whole wallboard is improved.

Description

Assembled integral wall board

Technical Field

The application relates to the technical field of building structures, and particularly provides an assembled integral wallboard.

Background

The autoclaved aerated concrete batten has the advantages of light volume weight, heat preservation, heat insulation, high fire resistance limit, good durability, good shock resistance, good sound insulation performance, environmental protection and the like, and along with the continuous promotion of building industrialization, the technology and the process thereof are continuously improved, and the application range is wider and wider. The wall board assembled by the autoclaved aerated concrete slabs has obvious advantages in the field of fabricated buildings, and can improve the hoisting efficiency, improve the construction efficiency, reduce the labor intensity, reduce the field wet operation amount and improve the wall quality.

At present, the wall panels assembled by the autoclaved aerated concrete slabs are generally assembled by adopting a closed steel frame or exposed steel keels and the autoclaved aerated concrete slabs, the jointed boards are connected by riveting steel bars, the steel bars and the steel frame are fixed in a welding mode, or the autoclaved aerated concrete slabs and the exposed upper and lower steel keels are fixed by using hook bolts. The assembled wall boards are large in steel consumption, the autoclaved aerated concrete slabs are difficult to load, the assembling gaps are large, the anti-corrosion treatment of welding spots is not thorough, the durability is difficult to guarantee, a large building space is occupied, and the lifting and the installation of the whole wall board are difficult.

SUMMERY OF THE UTILITY MODEL

The utility model provides an aim at provides a whole wallboard of pin-connected panel aims at solving among the prior art and evaporates and presses the inconvenient problem of whole wallboard installation of aerated concrete batten assembly.

In order to achieve the purpose, the technical scheme adopted by the application is as follows: the utility model provides a whole wallboard of pin-connected panel, including the skeleton, inlay in polylith evaporate and press aerated concrete slat and many lacing bars all around the skeleton, be equipped with on the skeleton and be used for the location to support the screens of evaporating and pressing aerated concrete slat, polylith evaporate and press aerated concrete slat and inlay respectively in corresponding in the screens of skeleton, many lacing bars interval set up in all around the skeleton, each it offers the trompil that supplies corresponding lacing bar to pass on evaporating and pressing aerated concrete slat, each lacing bar with the skeleton links to each other, and each the tip of lacing bar with corresponding evaporate and press aerated concrete slat and keep away from the one side of skeleton is fixed links to each other.

In one embodiment, the framework comprises two support rods which are longitudinally arranged at intervals and two connecting rods which are transversely connected with the two support rods and are arranged at intervals, the two connecting rods are respectively positioned at two sides of a connecting line between the middles of the two support rods, and each connecting rod and the corresponding end part of the two support rods form a first clamping position in which the autoclaved aerated concrete slab is inserted.

In one embodiment, two ends of each support rod extend out of a support rod towards a direction away from the other support rod, and each support rod and the corresponding two support rods are matched to form a second clamping position for inserting the autoclaved aerated concrete slab.

In one embodiment, the framework comprises a bottom rod, two support rods longitudinally arranged on two sides of a connecting line in the middle of the bottom rod at intervals, a connecting rod transversely connecting the two support rods, and support rods extending from free ends of the two support rods in a direction away from the other support rod, wherein the support rods, corresponding sections of the bottom rod and the two corresponding support rods are matched to form a first clamping position for inserting the autoclaved aerated concrete slab, and the connecting rod and the corresponding sections of the two support rods form a second clamping position for inserting the autoclaved aerated concrete slab.

In one embodiment, the framework comprises two support rods arranged at intervals transversely and a connecting rod longitudinally connecting the two support rods, the connecting rod is connected with the middle parts of the two support rods, and the two support rods and the connecting rod are matched to form two clamping positions for the autoclaved aerated concrete batten to be inserted.

In one embodiment, a side surface of the framework facing the autoclaved aerated concrete strip is provided with a slot for clamping the corresponding autoclaved aerated concrete strip.

In one embodiment, the skeleton is welded from steel.

In one embodiment, the surface of the skeleton is provided with a coating for preventing corrosion of the skeleton.

In one embodiment, a plurality of through holes are formed in the framework, and a plurality of fixing pieces are arranged between the framework and the autoclaved aerated concrete strip plates through the plurality of through holes.

In one embodiment, the framework is provided with a groove at the part of the support rod corresponding to the installation of the door and the window.

In one embodiment, a sealant is filled in the gap between any two adjacent autoclaved aerated concrete slabs.

In one embodiment, the exterior surface of the sectional integral wall panel is coated with a water-proof layer.

The beneficial effect of this application: compared with the prior art, the split mounting type integral wallboard is convenient and fast to assemble as the clamping positions are arranged on the framework and the plurality of autoclaved aerated concrete slabs are inserted in one direction from the clamping positions; the batten is convenient to be tightly assembled, and the displacement of the autoclaved aerated concrete batten is limited, so that the integrity of the assembled wallboard is improved, the hoisting of the whole wallboard is convenient, and the steel consumption is reduced; and the tie bars are not welded with the framework, so that welding points on the framework are reduced, and the durability of the assembled integral wallboard is improved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings used in the embodiments or the description of the prior art will be briefly described below. It is obvious that the drawings in the following description are only some embodiments of the application, and that for a person skilled in the art, other drawings can be derived from them without inventive effort.

Fig. 1 is a schematic structural diagram of a framework according to an embodiment of the present disclosure;

fig. 2 is a schematic structural diagram of a built-up type integral wall panel provided in the first embodiment of the present application;

fig. 3 is a schematic structural diagram of a framework provided in the second embodiment of the present application;

fig. 4 is a schematic structural diagram of a spliced integral wall panel provided in the second embodiment of the present application;

fig. 5 is a schematic structural diagram of a framework provided in the third embodiment of the present application;

fig. 6 is a schematic structural diagram of a built-up type integral wall panel provided in the third embodiment of the present application.

Wherein, in the drawings, the reference numerals are mainly as follows:

100-assembled integral wall board;

1-a framework; 11-a support bar; 12-a connecting rod; 13-a strut; 14-clamping; 15-bottom bar; 16-a groove; 141-a first clip position; 142-a second detent;

2-autoclaved aerated concrete slabs;

and 3-stretching the tie bars.

4-fixing part.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present application clearer, the present application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

In the description of the present application, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically connected or non-mechanically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise.

Referring to fig. 1 to 2, the assembled integral wall panel of the present application will now be described. The assembled integral wallboard 100 comprises a framework 1, a plurality of autoclaved aerated concrete strips 2 and a plurality of tie bars 3, wherein the plurality of autoclaved aerated concrete strips 2 and the framework 1 form the wallboard. Wherein skeleton 1 is equipped with screens 14, and this screens 14 can the location support evaporate and press aerated concrete lath 2 to evaporate the installation of evaporating aerated concrete lath 2. Specifically, the plurality of autoclaved aerated concrete strips 2 are distributed and embedded in corresponding clamping positions 14, the displacement of the autoclaved aerated concrete strips 2 is limited, the autoclaved aerated concrete strips 2 are inserted from the clamping positions 14, so that the autoclaved aerated concrete strips 2 can be assembled conveniently, gaps between any two adjacent autoclaved aerated concrete strips 2 and gaps between the autoclaved aerated concrete strips 2 and the framework 1 are very small, namely, the matching precision between the autoclaved aerated concrete strips 2 is high, and the matching precision between the autoclaved aerated concrete strips 2 and the framework 1 is high, so that the integrity of the assembled integral wallboard 100 is good, the integral wallboard is convenient to hoist, and the steel consumption is reduced. In this embodiment, many lacing bars 3 interval settings are in skeleton 1's week side, correspondingly, each evaporate the trompil (not shown) that presses aerated concrete slat 2's side to be equipped with the corresponding lacing bar 3 of confession and pass, and each lacing bar 3 passes skeleton 1 and connects, and the tip of each lacing bar 3 just keeps away from skeleton 1's one side fixed connection with evaporating aerated concrete slat 2 like this, so can effectively improve the assembly strength who evaporates and presses aerated concrete slat 2 to the intensity of whole wallboard has been improved. Of course, in other embodiments, the autoclaved aerated concrete slabs 2 and the framework 1 may be connected by using pins for reinforcement, which is not limited herein.

Compared with the prior art, the assembled integral wallboard 100 provided by the application has the advantages that the clamping positions 14 are arranged on the framework 1, the plurality of autoclaved aerated concrete strips 2 are inserted into the clamping positions 14 in a single direction, the displacement of the autoclaved aerated concrete strips 2 is limited, the procedure of fixing the autoclaved aerated concrete by using assembling auxiliary materials such as angle steel, hook bolts, reinforcing screws, U-shaped deformed steel bars and the like is omitted, so that the plates can be assembled conveniently, and the clearance between any adjacent autoclaved aerated concrete strips 2 and the clearance between the autoclaved aerated concrete strips 2 and the framework 1 are both very small, namely, the matching tolerance between the plurality of autoclaved aerated concrete strips 2 and the matching tolerance between the autoclaved aerated concrete strips 2 and the framework 1 are very small, therefore, the integral assembly type integral wallboard 100 is good in integrity, convenient to hoist and mount and capable of reducing steel consumption. In addition, through making drawknot muscle 3 be connected with skeleton 1, and wear to establish in evaporating and pressing aerated concrete slat 2 with drawknot muscle 3 to the fastness of whole wallboard has been improved, and drawknot muscle 3 is non-welded connection with skeleton 1, with the welding point on reducing skeleton 1, and then has reduced the influence of solder joint corruption to skeleton 1, has prolonged the life of skeleton 1, has improved the durability of the whole wallboard 100 of pin-connected panel. In addition, can consolidate with a plurality of mountings 4 between skeleton 1 and the autoclaved aerated concrete strip 2, further improve the fastness of the whole wallboard 100 of pin-connected panel.

In one embodiment, referring to fig. 1-2, the tie bar 3 has a diameter in the range of 6-12 mm. The tie bars 3 with the diameter smaller than 6mm are selected, and the connection strength is not enough, so that cracks are easily generated between the two autoclaved aerated concrete slabs 2. The tie bar 3 with the diameter larger than 12mm is selected, and materials are wasted. Therefore, the tie bars 3 with the diameter range of 6-12mm can effectively prevent the autoclaved aerated concrete strips 2 from cracking, improve the connection strength between the autoclaved aerated concrete strips 2 and save materials.

Further, referring to fig. 1 to 2, as a specific embodiment of the assembled integral wall panel of the present application, the framework 1 includes two support rods 11 and two connecting rods 12, the two support rods 11 are longitudinally and alternately disposed, the two connecting rods 12 are respectively located at two sides of a connecting line between the middle portions of the two support rods 11, so as to transversely connect the two support rods 11, each connecting rod 12 and the corresponding end portion of the two support rods 11 form a first clamping position 141, and the autoclaved aerated concrete slab 2 is inserted into the first clamping position 141. It can be understood that, first screens 141 is one end open-ended rectangle structure, and the polylith evaporates presses aerated concrete slat 2 to insert in first screens 141 in proper order from the opening part, evaporates and presses aerated concrete slat 2 promptly and can only insert one-way, is favorable to this to evaporate the installation that presses aerated concrete slat 2 to the clearance between two blocks of autoclaved aerated concrete and the clearance between evaporating aerated concrete slat 2 and the skeleton 1 have been reduced, has improved wallboard size installation accuracy and wholeness. In addition, two bracing pieces 11 and two connecting rods 12 enclose to have the skeleton 1 that can be used to install the window frame for inside, are favorable to inlaying the window frame on the wallboard, have saved the process of seting up the breach on the wallboard, have improved the suitability of wall body.

Furthermore, two ends of each support rod 11 extend out of the support rod 13 towards a direction departing from the other support rod 11, each support rod 11 is matched with the corresponding two support rods 13 to form a second clamping position 142, and the autoclaved aerated concrete slab 2 is installed in the second clamping position 142. Through be equipped with second screens 142 in the both sides of skeleton 1 to inlay on the both sides of skeleton 1 and have autoclaved aerated concrete strip 2, thereby be favorable to producing the wallboard of large size. The framework 1 is made of steel plates, and the framework 1 is made to be of an H-shaped structure, so that compared with a closed framework structure, the framework 1 has enough supporting strength, the using amount of steel is reduced, and the cost is saved.

In another embodiment, referring to fig. 3 and 4, the frame includes a bottom bar 15, two support bars 11, a connecting bar 12, and two support bars 13, the two support bars 11 are longitudinally and alternately disposed at two sides of a connecting line of a middle portion of the bottom bar 15, the connecting bar 12 is transversely connected to the two support bars 11, and a free end of each support bar 11 extends out of the support bar 13 in a direction away from the other support bar 11. The corresponding sections of the support rods 13 and the bottom rod 15 are matched with the two corresponding support rods 11 to form a first clamping position 141, correspondingly, the connecting rods 12 and the corresponding sections of the two support rods 11 are a second clamping position 142, and the autoclaved aerated concrete slabs 2 are respectively inserted into the first clamping position 141 and the second clamping position 142 in a sliding mode. From this, first screens 141 and second screens 142 are one end open-ended rectangle structure respectively, the polylith evaporates presses aerated concrete slat 2 can only follow the opening part cartridge in proper order in first screens 141 and second screens 142, evaporate and press aerated concrete slat 2 promptly and can only one-way the inserting, be favorable to this to evaporate the installation that presses aerated concrete slat 2, and reduced two and evaporate the clearance between pressing aerated concrete slat 2 and evaporate the clearance between pressurized concrete slat 2 and the skeleton 1, make the fit tolerance between slat and the skeleton 1 little, the stability of the size installation accuracy of wallboard and wallboard has been improved. In addition, the bottom rod 15, the two support rods 11 and the connecting rod 12 are enclosed to form the framework 1 with the door frame structure inside, so that the door frame can be embedded on the wall board, the process of forming the notch on the wall board is omitted, and the applicability of the wall body is improved.

Specifically, each of the support rods 13 is formed by bending one end of one of the support rods 11 in a direction away from the other support rod 11. It will be appreciated that the support bar 11 is bent outwardly at both ends thereof by 90 using a bending mechanism to form the struts 13. So, compare with welding process for branch 13 is bent by bracing piece 11 and is made, and this processing method is simple, and the operation of being convenient for has reduced the welding point between branch 13 and the bracing piece 11, thereby has reduced the welding point on the skeleton 1, and then has reduced the influence of welding point corruption to skeleton 1, has prolonged the life of skeleton 1.

In addition, in another embodiment, please refer to fig. 5 and fig. 6, the frame 1 includes two support rods 11 and a connecting rod 12, the two support rods 11 are transversely disposed at intervals, and the connecting rod 12 is located in the middle of the two support rods 11, so as to vertically connect the two support rods 11. Wherein, two screens 14 are formed in the cooperation of two spinal branch vaulting poles 11 and connecting rod 12, evaporate and press aerated concrete strip 2 cartridge respectively on each screens 14. Specifically, two screens 14 are respectively arranged on two sides of the connecting rod 12, and the multiple autoclaved aerated concrete strips 2 can only be inserted in sequence from the opening of each screen 14, that is, the autoclaved aerated concrete strips 2 can only be inserted in one direction, which is beneficial to the installation of the autoclaved aerated concrete strips 2, reduces the gap between two pieces of autoclaved aerated concrete and the gap between the autoclaved aerated concrete strips 2 and the framework 1, and improves the installation accuracy and stability of the wall panel size. In addition, the framework 1 is made of steel, the framework 1 is arranged in the middle of the wallboard, and the framework 1 is made to be of an I-shaped structure, so that the supporting strength of the wallboard is improved, and the using amount of the steel is reduced.

Further, please refer to fig. 1 to 6, as a specific embodiment of the assembled wall panel of the present application, in order to reduce corrosion of the welding point to the framework 1, the tie bar 3 is often fixed on the framework 1 by using tie bar fixing members such as a gasket, a bolt, a nut, etc., based on this, a groove 16 is disposed on the framework 1 at a portion of the support rod 11 corresponding to the door or the window frame, so that the tie bar fixing member can be installed in the groove 16, thereby making an outer end surface of the tie bar fixing member flush with an inner side surface of the framework 1, so as to ensure that the tie bar fixing member does not protrude out of the framework, and further facilitating to inlay the door or window frame structure at the gap of the wall.

Further, referring to fig. 1 to 2, as a specific embodiment of the assembled integral wall panel of the present application, a slot (not shown) is provided on a side of the framework 1 facing the autoclaved aerated concrete slab 2, and the corresponding autoclaved aerated concrete slab 2 is clamped in the slot. Specifically, the width of the groove is larger than or equal to the thickness of the autoclaved aerated concrete strip 2, so that the autoclaved aerated concrete strip 2 is clamped in the groove, the connection strength of the autoclaved aerated concrete strip 2 and the framework 1 is enhanced, and the stability of the wallboard is further improved. In addition, a layer of adhesive is coated at the port of the slot, so that the autoclaved aerated concrete strip 2 is fixed in the slot.

Further, referring to fig. 1 to 3, as an embodiment of the assembled integral wall panel of the present application, the framework 1 is formed by welding steel materials. Wherein, this skeleton 1 can be formed by flat steel, square steel, angle steel, round steel welding. The framework 1 is formed by welding a plurality of steel materials, so that the manufacturing time of the framework 1 is saved. In addition, the hardness of the steel is high, the requirement of the supporting strength of the framework 1 is met, and the steel has good corrosion resistance and oxidation resistance, so that the framework 1 has good corrosion resistance and oxidation resistance.

Furthermore, the surface of the skeleton 1 is provided with a coating. For example, a layer of zinc is electroplated on the outer surface of the framework 1, so that the corrosion resistance of the framework 1 is enhanced, and the service life of the framework 1 is greatly prolonged.

Further, referring to fig. 4, as a specific embodiment of the assembled integral wall panel of the present application, a plurality of through holes (not shown) are formed in the framework 1, and fixing members 4 are respectively disposed between the framework 1 and the autoclaved aerated concrete slabs 2 through the through holes. The fixing pieces 4 and the through holes are arranged in a one-to-one correspondence mode, and the fixing pieces 4 penetrate through the corresponding through holes to fix the autoclaved aerated concrete strip 2, so that the autoclaved aerated concrete strip 2 and the framework 1 are reinforced, and the connecting strength of the autoclaved aerated concrete strip 2 and the framework 1 is improved. The connection mode is a mechanical connection mode, is not easily influenced by external temperature, and is firm in connection. Preferably, the framework 1 is mechanically connected with the autoclaved aerated concrete slabs 2 through riveting, so that the durability of the assembled integral wall panel 100 is improved. In addition, corrosion prevention treatment is performed at the joint of the fixing member 4 and the framework 1 to increase the service life of the fixing member 4. Alternatively, a plurality of fixing members 4 are provided at intervals along the support bar 11, the connecting bar 12, and the support bar 13 of the framework 1.

In some embodiments, referring to fig. 1, a gap between any two adjacent autoclaved aerated concrete slabs 2 is filled with a sealant (not shown), such as MS modified silane, a bar planting adhesive, and the like. The sealant is filled between the two adjacent autoclaved aerated concrete strips 2, so that the bonding strength of the two autoclaved aerated concrete strips 2 is enhanced, and the stability of the wallboard is improved. In addition, a thickening agent can be added into the sealant, so that the binder is prevented from being dried and shrunk due to water absorption of the autoclaved aerated concrete strips 2, and the adhesion degree and the cracking resistance of the strips are improved. In addition, the sealant is used for filling the gap between the two autoclaved aerated concrete strips 2, so that the problems of water leakage and water seepage of the connecting transverse joint of the two autoclaved aerated concrete strips 2 are solved, and the integral waterproof effect of the wallboard is improved.

Further, the outer surface of the assembled type integral wall panel 100 is coated with a waterproof layer. The waterproof layer is coated on the outer surface of the assembled integral wallboard 100, so that the waterproof performance of the autoclaved aerated concrete is improved, the waterproof performance of the wallboard is further improved, and the service life of the wallboard is prolonged.

According to the assembled integral wallboard 100, the steel frame is used as the framework 1 of the assembled integral wallboard 100, so that the defect that the existing autoclaved aerated concrete slabs 2 are assembled into the integral wallboard is overcome, the steel frame is more convenient for assembling the autoclaved aerated concrete slabs 2 and hoisting the integral wallboard through structural design and mechanical checking calculation of the steel frame, and the steel consumption is reduced; the fixing piece of the tie bar 3 on the steel frame of the window opening or the door opening is not protruded, and the steel frame is embedded into the autoclaved aerated concrete strip plate 2, so that the installation of a window frame or a door frame is facilitated; each clamping position 14 of the steel frame is three-dimensional constraint and unidirectional assembling insertion, the dimensional precision is higher, and the assembling gap of the autoclaved aerated concrete slab 2 is reduced; a plurality of fixing pieces 4 can be used for reinforcing the steel frame and the autoclaved aerated concrete strip 2; the tie bars 3, the rivets and the steel frame are mechanically connected, so that the durability of the assembled integral wallboard 100 is improved.

The above description is only exemplary of the present application and should not be taken as limiting the present application, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims (12)

1. The spliced integral wallboard is characterized by comprising a framework, a plurality of autoclaved aerated concrete strips and a plurality of tie bars, wherein the autoclaved aerated concrete strips are embedded on the periphery of the framework, clamping positions for positioning and supporting the autoclaved aerated concrete strips are arranged on the framework, the autoclaved aerated concrete strips are respectively embedded in the clamping positions corresponding to the framework, the plurality of tie bars are arranged on the periphery of the framework at intervals, openings for the corresponding tie bars to penetrate are formed in each autoclaved aerated concrete strip, each tie bar is connected with the framework, and the end part of each tie bar is fixedly connected with one corresponding surface of each autoclaved aerated concrete strip, which is far away from the framework.

2. The assembled integral wall panel according to claim 1, wherein the framework comprises two support rods arranged longitudinally and at intervals and two connecting rods transversely connecting the two support rods and arranged at intervals, the two connecting rods are respectively positioned at two sides of a connecting line between the middle parts of the two support rods, and each connecting rod and the corresponding end part of the two support rods form a first clamping position for inserting the autoclaved aerated concrete batten.

3. The assembled integral wall panel according to claim 2, wherein two ends of each support rod extend out of a support rod in a direction away from the other support rod, and each support rod and the two corresponding support rods cooperate to form a second clamping position for inserting the autoclaved aerated concrete slab.

4. The assembled integral wall panel according to claim 1, wherein the frame comprises a bottom bar, two support bars longitudinally arranged on two sides of a connecting line in the middle of the bottom bar at intervals, a connecting bar transversely connecting the two support bars, and a support bar extending from a free end of each support bar in a direction away from the other support bar, wherein corresponding sections of each support bar and the bottom bar are matched with the two corresponding support bars to form a first clamping position for inserting the autoclaved aerated concrete slab, and the connecting bar and the corresponding sections of the two support bars form a second clamping position for inserting the autoclaved aerated concrete slab.

5. The assembled integral wallboard of claim 1, wherein the framework comprises two support bars arranged at a transverse interval and a connecting bar longitudinally connecting the two support bars, the connecting bar connects the middle parts of the two support bars, and the two support bars and the connecting bar cooperate to form two clamping positions for the autoclaved aerated concrete batten to be inserted.

6. The assembled integral wall panel according to any one of claims 1 to 5, wherein a side of the framework facing the autoclaved aerated concrete slabs is provided with a slot for clamping the corresponding autoclaved aerated concrete slabs.

7. The modular integral wall panel of claim 6 wherein said frame is welded from steel.

8. The modular unitary wall panel of claim 7, wherein a surface of said skeletal frame is provided with a coating for preventing corrosion of said skeletal frame.

9. The assembled integral wall panel according to any one of claims 1 to 5, wherein a plurality of through holes are formed in the framework, and a plurality of fixing members are arranged between the framework and the autoclaved aerated concrete strip plate through the plurality of through holes.

10. The assembled integral wall panel as claimed in any one of claims 2 to 4, wherein the frame is provided with a groove at a portion of the support rod corresponding to the door or window.

11. The assembled integral wall panel as claimed in any one of claims 1 to 5, wherein a sealant is filled in the gap between any two adjacent autoclaved aerated concrete slabs.

12. The modular integral wall panel of claim 11 wherein the exterior surface of the modular integral wall panel is coated with a water-resistant layer.

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