CN217419933U - Assembly type building structure - Google Patents

Abstract

The utility model relates to an assembly type building structure, including assembly type panel wall body, link and roof apron, the link include the base and set up in the first joint groove of base, the base deviates from one side in first joint groove has the face of accepting that the slope set up, the base erects in the upside of assembly type panel wall body, just the upside joint of assembly type panel wall body in first joint groove, roof apron lid is located accept the face, just the roof apron with accept the face laminating, accept the face with assembly type panel wall body front side surface is crossing, and the intersection level. According to the scheme, the roof can be better in sealing performance with the wall body when inclined at a certain angle, and the problem that the gap between the roof and the wall body is not tight enough is solved.

Description

Assembly type building structure

Technical Field

The application relates to the technical field of assembly type buildings, in particular to an assembly type building structure.

Background

The assembly type building has attracted people's interest in the beginning of the 20 th century, and is rapidly popularized and developed all over the world due to the advantages of high construction speed, low production cost, environmental friendliness and the like.

The prefabricated building is a building which is formed by transferring a large amount of field operation work in the traditional construction mode to a factory, processing and manufacturing building components and accessories in the factory, transporting the building components and accessories to a building construction site, and assembling and installing the building components and the accessories on the site in a reliable connection mode.

The prefabricated house is built in an industrialized production mode, part or all components of the house are prefabricated in a factory and then transported to a construction site, the components are assembled in a reliable connection mode to form the house, the house is also called an industrialized house or an industrialized house, the prefabricated house is generally built near the construction site for accelerating the construction progress and is used as a temporary living office point, but the roof of the house adopts a cover plate, the cover plate is directly covered on a wall body during building and then is connected with the wall body through screws and bolts, in addition, the cover plate needs to incline a certain angle for preventing rain, the line contact between the roof and the wall body is caused, and the sealing of a gap between the roof and the wall body is not tight enough.

SUMMERY OF THE UTILITY MODEL

On the basis, it is necessary to adopt the apron usually to the roof of prefabricated building among the prior art, directly cover the apron on the wall body when building, then through screw and bolted connection, and in order to prevent rain, the apron needs to incline certain angle, leads to the line contact between roof and the wall body, the sealed not tight problem in gap between roof and the wall body. The utility model provides an assembly type building structure can make the roof when certain angle of slope, can also be better with the wall body leakproofness, solves the not tight problem of gap seal between roof and the wall body inadequately.

The utility model provides an assembly type building structure, includes assembled panel wall body, link and roof apron, the link include the base and set up in the first joint groove of base, the base deviates from one side in first joint groove has the face of accepting that the slope set up, the base erects in the upside of assembled panel wall body, just the upside joint of assembled panel wall body in first joint groove, roof apron lid is located accept the face, just the roof apron with accept the face laminating, accept the face with the surface is crossing before the assembled panel wall body, and the intersection line level.

Preferably, in the above fabricated building structure, a first sealing layer is disposed between the bottom side of the first clamping groove and the upper end face of the fabricated panel wall, and a second sealing layer is disposed between the roof cover plate and the receiving surface.

Preferably, in the above fabricated building structure, a stopping protrusion is provided at one side edge of the receiving surface, and the roof cover plate and the stopping protrusion are in a positioning fit in an inclined direction of the receiving surface.

Preferably, in the above fabricated building structure, a first rain guiding groove is formed at an intersection of the blocking protrusion and the receiving surface, a second rain guiding groove is formed at a side surface of the blocking protrusion contacting with the roof cover plate, and the second rain guiding groove is communicated with the first rain guiding groove.

Preferably, in the above fabricated building structure, the base is provided with lightening holes, and the base is of a hollow structure.

Preferably, in the above fabricated building structure, the fabricated panel wall includes a heat-insulating composite panel and a connecting clamping plate, the heat-insulating composite board comprises a first board core and first supporting and protecting plates glued on the upper surface and the lower surface of the first board core, the first support protection plate is provided with a first extension part extending beyond the first plate core at two opposite ends of the heat insulation composite plate, so as to form a second clamping groove, the connecting clamping plate comprises a second plate core and a second supporting and protecting plate glued in the middle parts of the upper surface and the lower surface of the second plate core, third clamping grooves are arranged at the two ends of the connecting clamping plates, which are opposite to each other, between the second supporting and protecting plate and the second plate core, the heat-insulating composite board is connected with the first clamping groove and the second clamping groove, the first extending portion is connected with the third clamping groove in a clamping mode, and the second board core is connected with the second clamping groove in a clamping mode.

Preferably, in the fabricated building structure, when the heat-insulating composite boards are spliced by the connecting clamping boards, the second board core is attached to the first board core, or a sound-insulating and heat-insulating sealing part is filled between the second board core and the first board core.

Preferably, in the fabricated building structure, when the thermal insulation composite boards are spliced by the connecting clamping boards, first connecting nails are arranged on one side of the first board core facing the second board core or one side of the second board core facing the first board core.

Preferably, among the above-mentioned assembly type building structure, assembly type panel wall body still includes the connection cover plate heat preservation composite board back of the body both ends that carry on the back have can hold the first step portion of connection cover plate heat preservation composite board passes through under the condition of connecting the concatenation of cardboard, the connection cover plate lid fits first step portion, just the upper surface of connection cover plate with heat preservation composite board's upper surface parallel and level, the connection cover plate orientation one side of heat preservation composite board is provided with the second and connects the nail.

Preferably, among the above-mentioned assembled building structure heat preservation composite board back to back both ends, glue in two first support guard plates on the surface buckle in opposite directions about the first core, and form and to hold the second step portion of second support guard plate heat preservation composite board passes through under the condition of connecting the concatenation of cardboard, the second supports the guard plate lid fit in second step portion, just the outer surface of second support guard plate with heat preservation composite board's surface parallel and level.

The technical scheme adopted by the application can achieve the following beneficial effects:

in the assembly type structure that this application embodiment discloses, the link erects the upside in assembly type panel wall body through first joint groove, roof apron lid is located and is accepted the face, and the roof apron with accept the face laminating, the tank bottom in first joint groove and the side contact that goes up of assembly type panel wall body, and the roof apron with accept the face contact, so that between link and the assembly type panel wall body, and the sealed comparatively tight of gap between roof apron and the link, and simultaneously, the roof apron can incline certain angle, thereby can make the roof apron when the certain angle of slope, can also be better with the leakproofness of assembly type panel wall body, solve the sealed not tight problem of gap between roof apron and the assembly type panel wall body.

Drawings

FIG. 1 is a schematic illustration of a fabricated building structure according to the embodiments disclosed herein;

FIG. 2 is an enlarged partial schematic view of FIG. 1;

FIG. 3 is a cross-sectional view of a fabricated building structure as disclosed in an embodiment of the present application;

FIG. 4 is an enlarged partial schematic view of FIG. 3;

FIG. 5 is a schematic view of a connecting frame according to an embodiment of the disclosure;

FIG. 6 is an enlarged partial schematic view of FIG. 5;

FIG. 7 is a schematic view of a connection bracket disclosed in an embodiment of the present application from another perspective;

FIG. 8 is a schematic view of a fabricated panel wall according to an embodiment of the present disclosure;

FIG. 9 is an exploded view of a fabricated panel wall according to the embodiments of the present disclosure;

FIG. 10 is an enlarged partial schematic view of FIG. 9;

fig. 11 is a partial cross-sectional view of a fabricated panel wall according to an embodiment of the present disclosure.

Wherein: the prefabricated panel wall body 100, the heat-insulating composite panel 110, the first panel core 111, the first support protection plate 112, the first extension portion 1121, the second clamping groove 113, the connecting clamping plate 120, the second panel core 121, the second support protection plate 122, the third clamping groove 123, the connecting cover plate 130, the connecting frame 200, the base 210, the first clamping groove 220, the bearing surface 230, the blocking protrusion 240, the first rain guiding groove 250, the second rain guiding groove 260, the lightening hole 270 and the roof cover plate 300.

Detailed Description

To facilitate an understanding of the present application, the present application will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present application are given in the accompanying drawings. This application may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. As used herein, the terms "vertical," "horizontal," "left," "right," "top," "bottom," "top," and the like are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used herein in the description of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1 to 11, an embodiment of the present application discloses a fabricated building structure, which includes a fabricated panel wall 100, a connecting frame 200, and a roof cover 300, wherein:

the connecting frame 200 comprises a base 210 and a first clamping groove 220 arranged on the base 210, one side, away from the first clamping groove 220, of the base 210 is provided with a bearing surface 230 which is obliquely arranged, the base 210 is erected on the upper side of the assembled plate wall 100, the upper side of the assembled plate wall 100 is clamped in the first clamping groove 220, the connecting frame 200 is erected on the upper side of the assembled plate wall 100 through the first clamping groove 220, a roof cover plate 300 is covered on the bearing surface 230, the roof cover plate 300 is attached to the bearing surface 230 to achieve sealing, the bearing surface 230 is intersected with the front side surface of the assembled plate wall 100, and the line of intersection is horizontal, so that the bearing surface 230 is inclined forwards, and the roof cover plate 300 is inclined forwards.

In a specific installation process, firstly, the assembly type panel wall 100 is installed, then the connecting frame 200 is erected on the upper side of the assembly type panel wall 100 through the first clamping groove 220, and finally the roof cover plate 300 is covered on the receiving surface 230, so that in order to make the assembly type building structure more firm, the connecting frame 200 can be erected on the upper side of the assembly type panel wall 100, and the roof cover plate 300 is covered on the receiving surface 230, and all the connecting frame and the roof cover plate are connected through screws.

In the assembled building structure disclosed in the embodiment of the present application, the connecting frame 200 is erected on the upper side of the assembled plate wall 100 through the first clamping groove 220, the roof cover plate 300 is covered on the receiving surface 230, and the roof cover plate 300 is attached to the receiving surface 230, the groove bottom of the first clamping groove 220 is in contact with the upper side of the assembled plate wall 100, and the roof cover plate 300 is in contact with the receiving surface 230, so that the connecting frame 200 is in contact with the assembled plate wall 100, and the gap between the roof cover plate 300 and the connecting frame 200 is sealed tightly, meanwhile, the roof cover plate 300 can be inclined at a certain angle, so that the roof cover plate 300 can be inclined at a certain angle, and the sealing performance of the gap between the roof cover plate 300 and the assembled plate wall 100 is better, and the problem that the gap between the roof cover plate 300 and the assembled plate wall 100 is sealed tightly enough is solved.

In order to further improve the sealing performance between the roof cover plate 300 and the fabricated panel wall 100, in an alternative embodiment, a first sealing layer may be disposed between the bottom side of the first clamping groove 220 and the upper end surface of the fabricated panel wall 100 to improve the tightness of the gap seal between the connecting frame 200 and the fabricated panel wall 100, a second sealing layer may be disposed between the roof cover plate 300 and the receiving surface 230, and the gap seal between the roof cover plate 300 and the connecting frame 200 is more tight, so that the sealing performance between the roof cover plate 300 and the fabricated panel wall 100 may be further improved to make the gap seal between the roof cover plate 300 and the fabricated panel wall 100 more tight.

As described above, the roof cover 300 is covered on the receiving surface 230, and the receiving surface 230 intersects with the front side surface of the prefabricated panel wall 100, and the intersection line is horizontal, so that the receiving surface 230 can be inclined forwards, and the roof cover 300 can be inclined forwards, in order to avoid the roof cover 300 sliding downwards along the receiving surface 230 under the action of self weight, and the stability of the prefabricated building structure is poor. In this regard, in an alternative embodiment, a side edge of the receiving surface 230 may have a stop protrusion 240, and the roof cover 300 and the stop protrusion 240 are in a stop fit in the inclined direction of the receiving surface 230. The blocking protrusion 240 can block the roof sheathing panel 300 from sliding down along the bearing surface 230 under the effect of its own weight, so that the roof sheathing panel 300 can be stably covered on the bearing surface 230, thereby improving the stability of the prefabricated building structure.

When it rains, the rainwater may flow downward along the joint surface of the roof cover 300 and the receiving surface 230 due to capillary phenomenon when the rainwater flows to the position of the blocking protrusion 240, and then the rainwater may flow into the prefabricated building structure. Optionally, a first rain guiding groove 250 may be formed at an intersection of the blocking protrusion 240 and the receiving surface 230, a second rain guiding groove 260 may be formed on a side surface of the blocking protrusion 240 contacting the roof cover 300, and the second rain guiding groove 260 is communicated with the first rain guiding groove 250. The first rain guiding groove 250 and the second rain guiding groove 260 can quickly converge and drain rainwater in time, so that rainwater is prevented from flowing upwards along the joint surface of the roof cover plate 300 and the bearing surface 230, and then rainwater is prevented from entering the assembly type building structure.

Preferably, the base 210 may be provided with lightening holes 270 so that the base 210 has a hollow structure. The lightening holes 270 can reduce the weight of the connecting frame 200, so that the weight borne by the fabricated panel wall 100 is low, and the fabricated panel wall 100 is prevented from being easily deformed and damaged due to the high borne weight, thereby improving the stability and reliability of the fabricated building structure.

In one embodiment, the fabricated panel wall 100 may include an insulation composite panel 110 and a connection clip 120, the insulation composite panel 110 includes a first core 111 and first support protection panels 112 glued to the upper and lower surfaces of the first core 111, at the opposite ends of the thermal insulation composite board 110, the first support protection plate 112 has a first extension portion 1121 extending beyond the first core 111, to form a second clamping groove 113, the connecting clamping plate 120 comprises a second plate core 121 and a second supporting and protecting plate 122 glued to the middle portions of the upper and lower surfaces of the second plate core 121, at the opposite ends of the connecting clamping plate 120, a third clamping groove 123 is formed between the second supporting protection plate 122 and the second plate core 121, under the condition that the heat-insulating composite board 110 is spliced through the connecting clamping plates 120, the first extension portion 1121 is in clamping fit with the third clamping groove 123, and the second board core 121 is in clamping fit with the second clamping groove 113.

Specifically, the thermal insulation composite board 110 includes a first core 111 made of rock wool and a first supporting protection plate 112 glued on the upper and lower surfaces of the first core 111 and made of steel or alloy material for supporting protection and beautifying design, and similarly, the connecting clamping board 120 includes a second core 121 made of rock wool and a second supporting protection plate 122 glued on the upper and lower surfaces of the first core 111 and made of steel or alloy material for supporting protection and beautifying design. At two opposite ends of the thermal insulation composite board 110, i.e. two ends for splicing, the first support protection plate 112 has a first extension portion 1121 extending beyond the first board core 111, and a second clamping groove 113 is formed between two first extension portions 1121 at two sides of the upper and lower surfaces of the first board core 111. Since the second support and protection plate 122 is glued to the middle portions of the upper and lower surfaces of the second core 121, a third clamping groove 123 is formed between the second support and protection plate 122 and the second core 121, and further, the middle portions of the upper and lower surfaces of the second core 121 have protrusions, and the second support and protection plate 122 is glued to the protrusions.

In the fabricated panel wall 100, the heat-insulating composite panel 110 is spliced prior to the connecting clamping plate 120, and then is spliced with another heat-insulating composite panel 110 through the connecting clamping plate 120, and so on, the splicing of the fabricated panel wall 100 is completed, when the heat-insulating composite panel 110 is spliced with the connecting clamping plate 120, the first extension portion 1121 is inserted into the third clamping groove 123, so that the first extension portion 1121 is in clamping fit with the third clamping groove 123, the second core 121 is inserted into the second clamping groove 113, so that the second core 121 is in clamping fit with the second clamping groove 113, and the splicing of the heat-insulating composite panel 110 and the connecting clamping plate 120 is completed. The spliced heat-insulating composite board 110 and the connecting clamping board 120 are provided with a plurality of layers of first supporting and protecting plates 112 at the splicing position, a second supporting and protecting plate 122, a first board core 111 and a second board core 121, and are mutually staggered, especially, the spliced first supporting and protecting plates 112 and the second supporting and protecting plates 122 are provided, because the first supporting and protecting plates 112 and the second supporting and protecting plates 122 play a supporting role, the bending strength of the first supporting and protecting plates 112 and the second supporting and protecting plates 122 is higher, the bending strength of the splicing position can be effectively improved by the spliced first supporting and protecting plates 112 and the second supporting and protecting plates 122, the splicing position of the assembled board wall 100 is prevented from being easily bent, the assembled board wall 100 is prevented from being easily deformed and losing efficacy, and the reliability of the assembled board wall 100 is improved.

Meanwhile, under the condition that the heat-insulating composite board 110 is spliced through the connecting clamping plates 120, the first extension portion 1121 is in clamping fit with the third clamping groove 123, the second board core 121 is in clamping fit with the second clamping groove 113, so that the splicing position is provided with a plurality of clamping connections, so that the heat-insulating composite board 110 is reliably spliced with the connecting clamping plates 120, the splicing position of the heat-insulating composite board 110 and the connecting clamping plates 120 is prevented from being easily separated, the connection strength of the assembled board wall 100 after splicing is high, and the reliability of the assembled board wall 100 is improved.

In order to improve the sealing performance of the splicing part of the fabricated panel wall 100, optionally, under the condition that the heat-insulating composite panel 110 is spliced by the connecting clamping plate 120, the second panel core 121 and the first panel core 111 may be attached, and the second panel core 121 and the first panel core 111 are attached to avoid a gap between the second panel core 121 and the first panel core 111, so that the air tightness and the water tightness of the splicing part of the fabricated panel wall 100 can be effectively improved, and the sealing performance of the splicing part of the fabricated panel wall 100 is improved. Of course, in the case that the thermal insulation composite panels 110 are spliced by the connection clamping plates 120, a sound insulation and heat insulation sealing portion may be filled between the second core 121 and the first core 111. The sound-proof and heat-insulation sealing part can further improve the air tightness and water tightness of the splicing part of the assembled plate wall 100, can also play a role in sound and heat insulation, and improves the sound and heat insulation of the splicing part of the assembled plate wall 100.

As described above, under the condition that the thermal insulation composite boards 110 are spliced by the connecting clamping plates 120, the first extending portions 1121 are in clamping fit with the third clamping grooves 123, and the second board cores 121 are in clamping fit with the second clamping grooves 113, so that the spliced portion has a plurality of clamping connections, so that the thermal insulation composite boards 110 and the connecting clamping plates 120 are reliably spliced. In an alternative embodiment, in the case that the thermal insulation composite panels 110 are spliced by the connecting clamping plate 120, the first connecting nail may be disposed on one side of the first core 111 facing the second core 121 or one side of the second core 121 facing the first core 111, that is, the first connecting nail may be disposed on one side of the first core 111 facing the second core 121, or the first connecting nail may be disposed on one side of the second core 121 facing the first core 111. In the splicing process, when second board core 121 inserts second joint groove 113, first board core 111 and second board core 121 are connected to first connecting nail, thereby can make enough heat preservation composite board 110 and the concatenation of being connected cardboard 120 reliable in the concatenation, in order to further prevent assembled panel wall 100 after the concatenation, take place heat preservation composite board 110 and the phenomenon of being connected cardboard 120, thereby avoid heat preservation composite board 110 and connect cardboard 120 concatenation department and separate more easily, can make joint strength after assembled panel wall 100 splices higher, and then improve assembled panel wall 100's reliability and stability.

Preferably, the fabricated panel wall 100 may further include a connection cover plate 130, a first step portion capable of accommodating the connection cover plate 130 is disposed at two opposite ends of the thermal insulation composite panel 110, the connection cover plate 130 covers the first step portion when the thermal insulation composite panel 110 is spliced by the connection clamping plate 120, an upper surface of the connection cover plate 130 is flush with an upper surface of the thermal insulation composite panel 110, and a second connection nail is disposed on one side of the connection cover plate 130 facing the thermal insulation composite panel 110. Connect apron 130 lid to first step portion to make the second connect the concatenation department that the nail effectively connects assembled panel wall 100, thereby can further prevent assembled panel wall 100 after the concatenation, take place the phenomenon of heat preservation composite sheet 110 with be connected cardboard 120, and then further improve the joint strength after assembled panel wall 100 splices. Meanwhile, the upper surface of the connecting cover plate 130 is flush with the upper surface of the heat-insulating composite board 110, so that the appearance of the connecting cover plate is neat and attractive, the assembly of the upper assembled board wall 100 of the assembled board wall 100 is not affected, and the practicability of the assembled board wall 100 is improved.

Further, one side of the connecting cover plate 130, which is far away from the heat-insulating composite board 110, can be further provided with second connecting nails, the second connecting nails, which are far away from the heat-insulating composite board 110, of the connecting cover plate 130 can be connected with the upper and lower two-layer assembled board walls 100, so that the upper and lower two-layer assembled board walls 100 can be reliably connected, and the connection between the upper and lower two-layer assembled board walls 100 is prevented from being easily separated, so that the connection strength of the whole assembled board wall 100 after splicing is high, the reliability and stability of the assembled board wall 100 are further improved, and the convenience of installation is also improved.

In a specific embodiment, at two ends of the insulating composite board 110 opposite to each other, the first supporting and protecting plates 112 glued on the upper and lower surfaces of the first board core 111 are bent in opposite directions, and form the second step portion capable of accommodating the second supporting and protecting plate 122, under the condition that the insulating composite board 110 is spliced by the connecting clamping board 120, the second supporting and protecting plate 122 covers the second step portion, and the outer surface of the second supporting and protecting plate 122 is flush with the outer surface of the insulating composite board 110. That is to say, first support guard plate 112 on two upper and lower surfaces of first core 111 is buckled in opposite directions and is formed the dodge space of dodging second support guard plate 122, under the condition that thermal insulation composite panel 110 is through connecting the concatenation of cardboard 120, second support guard plate 122 is located the dodge space, and the outside table of second support guard plate 122 and thermal insulation composite panel 110's surface parallel and level, so that thermal insulation composite panel 110 and the surface of connecting cardboard 120 after the concatenation are neat pleasing to the eye, so as to demonstrate the assembled panel wall body 100 effect of integral type for the user, promote user's use impression.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the claims. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. The utility model provides an assembly type building structure, its characterized in that, includes assembly type panel wall body (100), link (200) and roof apron (300), link (200) including base (210) and set up in first joint groove (220) of base (210), base (210) deviate from one side of first joint groove (220) has the face of accepting (230) that the slope set up, base (210) erect in the upside of assembly type panel wall body (100), just the upside joint of assembly type panel wall body (100) in first joint groove (220), roof apron (300) lid is located accept face (230), just roof apron (300) with accept the face (230) laminating, accept the face (230) with assembly type panel wall body (100) front side surface is crossing, and the intersection line level.

2. The prefabricated building structure of claim 1, wherein a first sealing layer is arranged between the bottom side of the first clamping groove (220) and the upper side end face of the prefabricated panel wall body (100), and a second sealing layer is arranged between the roof cover plate (300) and the bearing face (230).

3. A fabricated building structure according to claim 1, wherein one side edge of the receiving surface (230) is provided with a stop projection (240), and the roof cover panel (300) is in limited engagement with the stop projection (240) in the inclined direction of the receiving surface (230).

4. A fabricated building structure according to claim 3, wherein a first rain guiding groove (250) is formed at the intersection of the blocking protrusion (240) and the bearing surface (230), a second rain guiding groove (260) is formed at one side surface of the blocking protrusion (240) contacting with the roof cover plate (300), and the second rain guiding groove (260) is communicated with the first rain guiding groove (250).

5. The assembly type building structure according to claim 1, wherein the base (210) is provided with lightening holes (270), and the base (210) is a hollow structure.

6. The fabricated building structure of claim 1, wherein the fabricated panel wall (100) comprises insulation composite panels (110) and connecting tabs (120), the insulation composite panels (110) comprise a first core (111) and first supporting protective plates (112) glued on the upper and lower surfaces of the first core (111), the first supporting protective plates (112) have first extending portions (1121) extending beyond the first core (111) at opposite ends of the insulation composite panels (110) to form second snap grooves (113), the connecting tabs (120) comprise second cores (121) and second supporting protective plates (122) glued in the middle of the upper and lower surfaces of the second cores (121), and third snap grooves (123) are formed between the second supporting protective plates (122) and the second cores (121) at opposite ends of the connecting tabs (120), under the condition that the heat-insulation composite board (110) is spliced through the connecting clamping plates (120), the first extending part (1121) is in clamping fit with the third clamping groove (123), and the second board core (121) is in clamping fit with the second clamping groove (113).

7. A fabricated building structure according to claim 6, wherein the second core (121) is attached to the first core (111) or sound and heat insulating seals are filled between the second core (121) and the first core (111) when the thermal insulation composite boards (110) are spliced by the connecting clamping board (120).

8. A fabricated building structure according to claim 6, wherein, in a state where the thermal insulation composite boards (110) are spliced by the connection clamping board (120), a side of the first board core (111) facing the second board core (121) or a side of the second board core (121) facing the first board core (111) is provided with a first connection nail.

9. The assembly type building structure according to claim 6, wherein the assembly type panel wall (100) further comprises a connecting cover plate (130), a first step portion capable of accommodating the connecting cover plate (130) is arranged at two opposite ends of the heat-insulating composite panel (110), the connecting cover plate (130) covers the first step portion when the heat-insulating composite panel (110) is spliced by the connecting clamping plate (120), the upper surface of the connecting cover plate (130) is flush with the upper surface of the heat-insulating composite panel (110), and a second connecting nail is arranged at one side of the connecting cover plate (130) facing the heat-insulating composite panel (110).

10. The assembly type building structure of claim 6, wherein at opposite ends of the thermal insulation composite board (110), first supporting and protecting plates (112) glued to the upper and lower surfaces of the first core (111) are bent toward each other and form second stepped portions for accommodating the second supporting and protecting plates (122), and when the thermal insulation composite board (110) is spliced by the connecting clamping plates (120), the second supporting and protecting plates (122) are covered on the second stepped portions, and the outer surface of the second supporting and protecting plates (122) is flush with the outer surface of the thermal insulation composite board (110).

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