CN215630977U

CN215630977U - Assembled pitched roof structure

Info

Publication number: CN215630977U
Application number: CN202121483367.5U
Authority: CN
Inventors: 黄炜; 葛培; 张家瑞; 权文立; 张皓
Original assignee: Xian University of Architecture and Technology
Current assignee: Xian University of Architecture and Technology
Priority date: 2021-06-30
Filing date: 2021-06-30
Publication date: 2022-01-25
Anticipated expiration: 2031-06-30

Abstract

The utility model discloses an assembled sloping roof structure, which comprises two sloping roof bodies, wherein the top ends of the two sloping roof bodies are mutually butted to form a ridge; the upper end and the lower end of the pitched roof body are respectively provided with an L-shaped beam, the upper end of the L-shaped beam is fixed with the end part of the pitched roof body, and the lower end of the L-shaped beam vertically extends to be fixedly connected with the upright post; the L-shaped beams at the top ends of the two pitched roof bodies are spliced to form a ridge beam, and the lower end of the ridge beam is fixedly connected with the first upright post through the prefabricated groove beam; the L-shaped beam at the lower end of the pitched roof body is fixedly connected with the second upright post; the L-shaped beams are arranged at the two ends of the pitched roof body, the L-shaped beams at the upper ends of the two pitched roof bodies with the tops butted with each other are spliced to form the ridge beam, the ridge beam is fixed with the upright post through the prefabricated groove beam, and the L-shaped beam at the lower end is fixedly connected with the upright post; the prefabricated structural member of adoption piecemeal satisfies the prefabricated processing of mill, and the efficiency of construction is higher, need not on-the-spot formwork, and energy-concerving and environment-protective, structural integrity is good.

Description

Assembled pitched roof structure

Technical Field

The utility model belongs to the technical field of assembly type buildings, and particularly relates to an assembly type sloping roof structure.

Background

At present, most building sloping roofs are cast-in-place structures, and a supporting system is formed by ridge beams, oblique beams and upright posts; the traditional sloping roof needs a large amount of supporting forms, and has high construction energy consumption, great difficulty and long construction period.

SUMMERY OF THE UTILITY MODEL

Aiming at the technical problems in the prior art, the utility model provides an assembled sloping roof structure, which aims to solve the technical problems of high construction energy consumption, high difficulty and long construction period because most of the existing building sloping roofs adopt cast-in-place structures.

In order to achieve the purpose, the utility model adopts the technical scheme that:

the utility model provides an assembled sloping roof structure which comprises two sloping roof bodies, wherein the top ends of the two sloping roof bodies are mutually butted to form a ridge; the upper end and the lower end of the pitched roof body are respectively provided with an L-shaped beam, the upper end of the L-shaped beam is fixed with the end part of the pitched roof body, and the lower end of the L-shaped beam vertically extends to be fixedly connected with the upright post;

the L-shaped beams at the top ends of the two pitched roof bodies are spliced to form a ridge beam, and the lower end of the ridge beam is fixedly connected with the first upright post through the prefabricated groove beam; the L-shaped beam at the lower end of the pitched roof body is fixedly connected with the second upright post.

Furthermore, the bottom of the prefabricated groove beam is arranged on the top of the first upright column in a clinging manner, and rectangular connecting plates are respectively arranged on two sides of the prefabricated groove beam; the upper end of the rectangular connecting plate is fixedly connected with the outer side face of the flange of the prefabricated groove beam through a bolt, and the lower end of the rectangular connecting plate is fixedly connected with the side wall of the first stand column through a bolt.

Further, an L-shaped connecting plate is arranged between the L-shaped beam at the lower end of the pitched roof body and the second upright post; one end of the L-shaped connecting piece is fixedly connected with the outer side face of the L-shaped beam at the lower end of the pitched roof body through a bolt, and the other end of the L-shaped connecting piece is fixedly connected with the column top of the second upright column through a bolt.

Furthermore, each sloping roof body comprises an uphill roof panel, a plurality of middle-slope roof panels and a downhill roof panel; the top end of the upslope roof panel of one pitched roof body is mutually butted with the top end of the upslope roof panel of the other pitched roof body to form a ridge, and a plurality of intermediate slope roof panels are sequentially spliced and then connected with the downslope roof panels; the upper end of the top level middle slope roof panel is in butt joint with the lower end of the top slope roof panel, the lower end of the bottom level middle slope roof panel is in butt joint with the upper end of the down slope roof panel, and the lower end of the down slope roof panel forms an eave;

l-shaped beams are respectively arranged at two ends of the uphill roof panel, the middle-uphill roof panel and the downhill roof panel, and the L-shaped beams at the upper ends of the uphill roof panels in the adjacent pitched roof bodies are spliced to form ridge beams; the L-shaped beams at the joint of the uphill roof panel and the middle-slope roof panel are spliced to form a middle node beam, and the lower end of the middle node beam is fixedly connected with the third upright post through a prefabricated groove beam; the L-shaped beam at the lower end of the downhill roof board is fixedly connected with the second upright post.

Furthermore, the lower ends of the ridge beam and the middle node beam are respectively matched and arranged in the groove structure of the prefabricated groove beam and are fixed with the two wings of the prefabricated groove beam through the opposite penetrating bolts.

Furthermore, the uphill roof panel, the middle-slope roof panel and the downhill roof panel are all assembled slope roof panels; the assembled sloping roof plate comprises reinforced concrete rib grids, building blocks and a reinforced concrete bottom plate; the reinforced concrete bottom plate is obliquely arranged, the reinforced concrete rib grids are arranged on the reinforced concrete bottom plate, and the building blocks are filled in the reinforced concrete rib grids;

the reinforced concrete bottom plate is obliquely arranged, the reinforced concrete rib grids are arranged on the reinforced concrete bottom plate in parallel, and the plurality of building blocks are filled in the reinforced concrete rib grids; the L-shaped beams are arranged at the upper end and the lower end of the reinforced concrete bottom plate, the upper ends of the L-shaped beams are fixed with the reinforced concrete rib grids, and the lower ends of the L-shaped beams extend to the lower portion of the reinforced concrete bottom plate.

Furthermore, the building blocks are light heat-insulating building blocks; the light heat-insulating building block is made of recycled brick aggregate, polyphenyl granules, cement and sand.

Further, the splicing seams of the assembled sloping roof panel are filled with cement mortar grouting materials; the joint of the L-shaped beam and the prefabricated groove beam is filled with cement mortar grouting material; and a waterproof layer is laid on the upper surface of the pitched roof body.

Furthermore, the lower end of the downhill roof board is horizontally provided with water drainage grooves, and reserved water drainage holes are uniformly arranged in the water drainage grooves at intervals.

Compared with the prior art, the utility model has the beneficial effects that:

the utility model provides an assembled sloping roof structure, wherein L-shaped beams are arranged at two ends of a sloping roof body, the L-shaped beams at the upper ends of two sloping roof bodies with mutually butted tops are spliced to form a ridge beam, the ridge beam is fixed with an upright post through a prefabricated groove beam, and the L-shaped beam at the lower end is fixedly connected with the upright post; the prefabricated structure that adopts the piecemeal satisfies the mill prefabricated processing, compares in the cast-in-place construction, and the structure and assemble the construction simply, and the efficiency of construction is higher, need not on-the-spot formwork, and energy-concerving and environment-protective, structural integrity is good.

Further, the prefabricated groove beam and the upright post are fixed with the first upright post through a rectangular connecting plate by using a bolt; the L-shaped beam at the lower end of the pitched roof body is fixedly connected with the second upright post through an L-shaped connecting plate by using a bolt; the connecting piece has the advantages of simple structure, higher construction efficiency and good stability.

Furthermore, the lower ends of the ridge beam and the middle node beam are fixed with the two wings of the prefabricated groove beam through the through bolts, so that effective connection between the partitioned sloping roof panels is guaranteed, an integral component is formed, and the stability of the integral structure is guaranteed.

Furthermore, each pitched roof body is designed in a block mode, so that the prefabricated structural part can be conveniently manufactured, transported and hoisted, and the construction cost is low.

Furthermore, the uphill roof panel, the middle-slope roof panel and the downhill roof panel are all assembled slope roof panels, and light heat-insulating building blocks are filled in the assembled slope roof panels, so that the functions of heat insulation and weight reduction are achieved; meanwhile, the light heat-insulating building block comprises recycled brick aggregate, polyphenyl granules, cement and sand as raw materials, so that the construction waste is recycled, and the requirements of energy conservation and environmental protection are met.

Further, cement mortar grouting materials are adopted to fill the splicing seams of the assembled sloping roof panel and the seams of the L-shaped beams and the prefabricated groove beams; the slope roof structure is filled with cement mortar grouting materials, and the waterproof layer is paved on the upper surface of the slope roof body, so that water leakage of the slope roof structure is effectively prevented, rainwater cannot enter a room, and safety and reliability are high.

Furthermore, a drainage groove is horizontally arranged at the lower end of the downhill roof panel, reserved drainage holes are uniformly arranged in the drainage groove at intervals, and effective drainage of the pitched roof structure is achieved.

According to the assembled sloping roof structure, the assembled sloping roof plate structure is installed on the factory prefabricating site so as to save templates and improve the construction efficiency; meanwhile, the sloping roof plate is made of green light heat-insulating material blocks so as to reduce self weight, reduce production energy consumption, and has small construction difficulty, high construction efficiency and short construction period.

Drawings

FIG. 1 is an elevational view of an assembled sloping roof structure according to the present invention;

FIG. 2 is a plan view of the fabricated sloping roof structure according to the present invention;

FIG. 3 is a schematic diagram of a sloping roof plate structure with a drainage channel in the fabricated sloping roof structure according to the present invention;

FIG. 4 is a schematic view of a sloping roof panel structure without drainage channels in the fabricated sloping roof structure according to the present invention;

FIG. 5 is a schematic view of a connecting structure of a sloping roof panel and a vertical column according to the present invention;

FIG. 6 is a schematic view of the connection of the sloping roof panel of the present invention to the vertical column via the prefabricated groove beam;

fig. 7 is a connection and disassembly diagram of the sloping roof plate and the upright post through the prefabricated groove beam.

The reinforced concrete floor is characterized by comprising 1 reinforced concrete rib grid, 2 building blocks, 3 reinforced concrete bottom plates, 4L-shaped beams, 5 drainage grooves, 6 reserved drainage holes, 7 first split bolt holes, 8 first stand columns, 9L-shaped connecting plates, 10 fixing nuts, 11 embedded bolts, 12 rectangular connecting plates, 13 split bolts, 14 prefabricated groove beams, 15 cement mortar layers, 16 steel backing plates, 17 second split bolt holes, 18 second stand columns and 19 third stand columns.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects of the present invention more apparent, the following embodiments further describe the present invention in detail. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

As shown in fig. 1-7, the utility model provides an assembled sloping roof structure, which comprises two sloping roof bodies, an L-shaped beam 4 and a prefabricated groove beam 14, wherein the top ends of the two sloping roof bodies are mutually butted to form a ridge; the upper end and the lower end of the pitched roof body are respectively provided with an L-shaped beam 4, the upper end of the L-shaped beam 4 is fixed with the end part of the pitched roof body, and the lower end of the L-shaped beam is vertically extended and fixedly connected with the upright post; the L-shaped beams 4 at the top ends of the two pitched roof bodies are spliced to form a ridge beam, the lower end of the ridge beam is fixedly connected with the first upright post 8 through the prefabricated groove beam 14, and the L-shaped beams 4 at the lower end of the pitched roof body are fixedly connected with the second upright post 18.

Each sloping roof body comprises an ascending roof panel, a plurality of middle sloping roof panels and a descending roof panel, wherein the top end of the ascending roof panel of one sloping roof body is butted with the top end of the ascending roof panel of the other sloping roof body to form a ridge, and the plurality of middle sloping roof panels are sequentially spliced and then connected with the descending roof panel.

The upper end of the top level middle slope roof panel is in butt joint with the lower end of the top slope roof panel, the lower end of the bottom level middle slope roof panel is in butt joint with the upper end of the down slope roof panel, and the lower end of the down slope roof panel forms an eave; preferably, the lower end of the downhill roof panel is horizontally provided with a drainage channel 5, and the drainage channel 5 is horizontally arranged at the cornice position; reserved drain holes 6 are uniformly arranged in the drain tank 5 at intervals, and the reserved drain holes 6 are used for connecting a downpipe.

L-shaped beams 4 are respectively arranged at two ends of the uphill roof panel, the middle-uphill roof panel and the downhill roof panel, and the L-shaped beams 4 at the upper ends of the uphill roof panels in adjacent pitched roof bodies are spliced to form ridge beams; the L-shaped beams 4 at the joint of the uphill roof panel and the middle-slope roof panel are spliced to form a middle node beam, and the lower end of the middle node beam is fixedly connected with a third upright post 19 through a prefabricated groove beam 14; the L-shaped beam 4 at the lower end of the downhill roof board is fixedly connected with the second upright post 18.

The lower ends of the ridge beam and the middle node beam are respectively arranged in a groove structure of the prefabricated groove beam 14 in a matched mode, a first pair of pull bolt holes 7 are formed in the L-shaped beams of the ridge beam and the middle node beam, second pair of pull bolt holes are formed in two wings of the prefabricated groove beam 14 respectively, a pair of pull bolts 13 sequentially penetrate through a second pair of pull bolt holes 17 and the first pair of pull bolt holes 7, and the ridge beam or the middle node beam and the two wings of the corresponding prefabricated groove beam 14 are fixed through the pair of pull bolts 13; wherein, a steel pad plate 16 is arranged between the split bolt 13 and the two wings of the precast groove beam 14.

The bottom of the prefabricated groove beam 14 is closely attached to the top of the first upright post 8 or the third upright post 19, and rectangular connecting plates 12 are respectively arranged on two sides of the prefabricated groove beam 14; preferably, the prefabricated groove beam 14 and the top of the first upright post 8 or the third upright post 19 are provided with a cement mortar layer 15; the upper end of the rectangular connecting plate 12 is fixedly connected with the outer side face of the flange of the prefabricated groove beam 14 through a bolt, and the lower end of the rectangular connecting plate 12 is fixedly connected with the side wall of the first upright post 8 or the third upright post 19 through a bolt; wherein, be provided with buried bolt 11 on the flange lateral surface of prefabricated notch roof beam 14 and the lateral wall of first stand 8 or third stand 19 respectively, be provided with the reservation bolt hole on the rectangular connecting plate 12, buried bolt 11 cooperation sets up in the reservation bolt hole of rectangular connecting plate 12 to through fixation nut 10 with rectangular connecting plate 12 and buried bolt 11 fixed connection together, and then realize utilizing rectangular connecting plate 12 to be in the same place prefabricated notch roof beam 14 and first stand 8 or third stand 19 fixed connection.

An L-shaped connecting plate 9 is arranged between the L-shaped beam 4 at the lower end of the pitched roof body and the second upright post 18; one end of the L-shaped connecting piece 9 is fixedly connected with the outer side surface of the L-shaped beam 4 at the lower end of the pitched roof body through a bolt, and the other end of the L-shaped connecting piece is fixedly connected with the column top of the second upright column through a bolt; wherein, the lateral surface of the L type roof beam 4 of pitched roof body lower extreme is provided with buried bolt 11 in advance, the capital of second stand 18 also is provided with buried bolt 11 in advance, the both ends of L type connecting piece 9 are provided with reserved bolt hole respectively, the cooperation of the buried bolt 11 of the capital of L type roof beam 4 of pitched roof body lower extreme and second stand 18 sets up in the reserved bolt hole of L type connecting piece 9, and be in the same place L type connecting piece 9 and buried bolt 11 fixed connection in advance through fixation nut 10, and then realize utilizing L type connecting piece 9 to be in the same place L type roof beam 4 and second stand 18 fixed connection of pitched roof body lower extreme.

In the utility model, an uphill roof panel, a middle-slope roof panel and a downhill roof panel in the pitched roof body are all assembled slope roof panels; the assembled sloping roof plate comprises a reinforced concrete rib grid 1, building blocks 2 and a reinforced concrete bottom plate 3; the reinforced concrete bottom plate 3 is obliquely arranged, the reinforced concrete rib grids 1 are arranged on the reinforced concrete bottom plate 3, and the building blocks 2 are filled in the reinforced concrete rib grids 1; the reinforced concrete bottom plate 3 is obliquely arranged, the reinforced concrete rib grids 1 are arranged on the reinforced concrete bottom plate 3 in parallel, and the plurality of building blocks 2 are filled in the reinforced concrete rib grids 1; the L-shaped beams 4 are arranged at the upper end and the lower end of the reinforced concrete bottom plate 3, the upper ends of the L-shaped beams 4 are fixed with the reinforced concrete rib grids 1, and the lower ends of the L-shaped beams extend to the lower part of the reinforced concrete bottom plate 3; preferably, the building block 2 is a light heat-insulating building block; the light heat-insulating building block comprises recycled brick aggregate, polyphenyl granules, cement and sand as raw materials; wherein, the splicing seams of the assembled sloping roof panel are filled with cement mortar grouting material; the joint of the L-shaped beam 4 and the prefabricated groove beam 14 is filled with cement mortar grouting material; and a waterproof layer is laid on the upper surface of the pitched roof body.

The manufacturing and construction process comprises the following steps:

the construction process of the assembled sloping roof structure generally comprises the following steps: manufacturing a light heat-insulation block → manufacturing an assembled sloping roof panel → manufacturing a prefabricated groove beam → mounting construction of the prefabricated groove beam and the upright column → hoisting construction of the assembled sloping roof panel → waterproof layer construction; the specific process is as follows:

step 1, processing and manufacturing a light heat-insulating building block according to a designed size; preferably, the material is processed and manufactured according to the size of 450mm multiplied by 80 mm; the material of the test mold is steel plates with the thickness of 5mm, each steel plate of the test mold can be freely disassembled and assembled, and no gap is left after assembly; the light heat-insulating building block is prepared from recycled brick aggregate, polyphenyl granules, cement and sand according to the following mix proportion: cement, water, sand, recycled brick aggregate and polyphenyl particles, wherein the weight ratio of the polyphenyl particles to the cement to the water is 1:0.5:1.2:1.8: 0.2; and then pouring the light heat-insulating concrete into a steel mould, removing the mould after 2 days, and moving to a concrete curing room for standard curing for 28 days.

Step 2, manufacturing and assembling an assembled slope panel template according to the size, embedding PVC sleeves at reserved drain holes, embedding PVC sleeves at reserved holes of split bolts of the L-shaped beams, and embedding bolts at the connecting positions of the L-shaped connecting plates; binding the steel bars of the reinforced concrete bottom plate and the rib grids, placing the light heat-insulating building blocks at corresponding positions, pouring concrete and vibrating to be compact.

And 3, manufacturing a groove beam template according to the size and assembling, embedding PVC sleeves at the positions of the reserved holes of the split bolts connected with the L-shaped beam, embedding bolts at the connecting positions of the rectangular connecting plates, pouring concrete and vibrating to be compact.

Step 4, embedding bolts according to the connecting positions before constructing the stand columns; before the prefabricated groove beam is hoisted, cement mortar with the length of 2cm is smeared on the top of the upright column to form a cement mortar layer; accurately determining the elevation and the axis position of the groove beam by using measuring equipment; and then hoisting the prefabricated groove beam to the top of the upright column and accurately positioning, and connecting the upright column and the prefabricated groove beam together by using the rectangular connecting plate and the embedded bolt to ensure reliable connection.

Step 5, one end of the downhill roof board is connected with the second upright post through an L-shaped connecting plate, the other end of the downhill roof board is inserted into the prefabricated groove beam and is connected through a split bolt, and cement mortar is used for filling a gap between the L-shaped beam and the prefabricated groove beam; and respectively inserting the two ends of the middle slope roof panel and the upper slope roof panel into the prefabricated groove beams and filling gaps among the prefabricated groove beams with cement mortar.

Step 6, after all the assembled sloping roof panels are assembled, filling and compacting gaps of the assembled sloping roof panels by using cement mortar; then paving and pasting the waterproof coiled material, wherein the waterproof coiled material is paved and pasted from the lowest position, the waterproof coiled material is firstly placed rightly according to the position, the long edge is reserved with 8cm joint, and the short edge is reserved with 10cm joint; then, igniting a blowtorch to aim at the bottom surface of the waterproof roll and the surface of the base layer and simultaneously and uniformly heating; wherein, the distance between the nozzle of the spray lamp and the surface of the coiled material is about 30 cm; after the surface of the waterproof coiled material is melted, the waterproof coiled material is immediately rolled forwards, and is compacted and flattened, the stubble part is preferably extruded with molten asphalt, air and foreign matters are not involved during rolling, and deflection, bulging and wrinkling are prevented. Finally, the seam is sealed well by using a blast burner and a pressing pin uniformly and finely, so that the edge warping is prevented.

In the utility model, the structures of the uphill roof panel and the middle-slope roof panel are the same, and the uphill roof panel and the middle-slope roof panel both adopt assembled slope roof panels without drainage channels; the downhill roof boarding is different from the uphill roof boarding or the middle slope roof boarding in that a drainage groove is arranged at the lower end of the assembled sloping roof boarding without the drainage groove to form the sloping roof boarding structure with the drainage groove.

The assembled sloping roof structure comprises an assembled sloping roof panel, an L-shaped beam, a prefabricated groove beam and an upright post; the assembled sloping roof plate comprises reinforced concrete rib grids, building blocks and a reinforced concrete bottom plate; the assembled sloping roof panel has two forms of a drainage groove and a non-drainage groove, the assembled sloping roof panel with the drainage groove is used at the cornice position of a sloping roof, and the non-drainage groove is used at other positions; the building blocks are light heat-insulating building blocks, and the light heat-insulating building blocks are prepared from recycled brick aggregates, polyphenyl granules, cement, sand and water according to a preset proportion; the recycled brick aggregate has small density and large porosity, and has certain heat preservation performance and certain strength; the recycled brick aggregate plays roles of heat preservation and framework in the building block, the cement mortar plays a role of bonding, and the polyphenyl granules play a role of heat preservation, so that the light heat preservation building block which has certain strength and good heat preservation effect is formed.

According to the utility model, the assembled sloping roof panel and the prefabricated groove beam are mainly connected through the split bolts, and when the L-shaped beam and the prefabricated groove beam are arranged, the split bolt reserved holes are reserved at corresponding positions; the gaps between the L-shaped beams and the prefabricated groove beams and between the sloping roof plates are filled with cement mortar grouting materials; the assembled sloping roof panel with the drainage channel at the cornice position is connected with the second upright post through an L-shaped connecting plate, and bolts are embedded at corresponding positions when the assembled sloping roof panel and the upright post are manufactured; the prefabricated groove beam and the upright post are mainly connected through a rectangular connecting plate, and bolts are embedded at corresponding positions when the L-shaped beam and the upright post are manufactured; and paving and pasting the waterproof layer after the assembled slope roof panel is assembled.

Compared with the traditional slope roof construction mode, the assembled slope roof adopts the construction modes of industrial production, specialized distribution and assembled construction, and the construction site mainly depends on specialized light machinery, so that the method has the advantages of less labor force, high automation degree, high construction speed, high production efficiency, energy conservation and environmental protection; the prefabricated sloping roof panel is internally filled with the light heat-insulating building blocks, and the light heat-insulating material adopts recycled brick aggregate polyphenyl granule concrete, so that the dead weight of the prefabricated sloping roof panel is reduced, and the recycling of construction waste is realized.

The above-described embodiment is only one of the embodiments that can implement the technical solution of the present invention, and the scope of the present invention is not limited by the embodiment, but includes any variations, substitutions and other embodiments that can be easily conceived by those skilled in the art within the technical scope of the present invention disclosed.

Claims

1. An assembled sloping roof structure is characterized by comprising two sloping roof bodies, wherein the top ends of the two sloping roof bodies are mutually butted to form a ridge; the upper end and the lower end of the pitched roof body are respectively provided with an L-shaped beam (4), the upper end of each L-shaped beam (4) is fixed with the end part of the pitched roof body, and the lower end of each L-shaped beam is vertically extended and fixedly connected with the upright post;

the L-shaped beams (4) at the top ends of the two pitched roof bodies are spliced to form a ridge beam, and the lower end of the ridge beam is fixedly connected with the first upright post through a prefabricated groove beam (14); the L-shaped beam (4) at the lower end of the pitched roof body is fixedly connected with the second upright post.

2. The fabricated pitched roof structure as claimed in claim 1, wherein, the bottom of the prefabricated groove beam (14) is closely arranged on the top of the first upright column, and both sides of the prefabricated groove beam (14) are respectively provided with a rectangular connecting plate (12); the upper end of the rectangular connecting plate (12) is fixedly connected with the outer side face of the flange of the prefabricated groove beam (14) through bolts, and the lower end of the rectangular connecting plate (12) is fixedly connected with the side wall of the first upright post through bolts.

3. The assembled pitched roof structure according to claim 1, wherein an L-shaped connecting plate (9) is arranged between the L-shaped beam (4) at the lower end of the pitched roof body and the second upright column; one end of the L-shaped connecting piece (9) is fixedly connected with the outer side surface of the L-shaped beam (4) at the lower end of the pitched roof body through a bolt, and the other end of the L-shaped connecting piece is fixedly connected with the column top of the second upright column through a bolt.

4. An assembled sloping roof structure as claimed in claim 1, wherein each sloping roof body comprises an uphill roof panel, a plurality of medium slope roof panels and a downhill roof panel; the top end of the upslope roof panel of one pitched roof body is mutually butted with the top end of the upslope roof panel of the other pitched roof body to form a ridge, and a plurality of intermediate slope roof panels are sequentially spliced and then connected with the downslope roof panels; the upper end of the top level middle slope roof panel is in butt joint with the lower end of the top slope roof panel, the lower end of the bottom level middle slope roof panel is in butt joint with the upper end of the down slope roof panel, and the lower end of the down slope roof panel forms an eave;

l-shaped beams (4) are respectively arranged at two ends of the uphill roof panel, the middle-uphill roof panel and the downhill roof panel, and the L-shaped beams (4) at the upper ends of the uphill roof panels in adjacent pitched roof bodies are spliced to form ridge beams; the L-shaped beams (4) at the joints of the uphill roof panel and the middle-slope roof panel are spliced to form middle node beams, and the lower ends of the middle node beams are fixedly connected with the third upright posts through prefabricated groove beams (14); the L-shaped beam at the lower end of the downhill roof board is fixedly connected with the second upright post.

5. An assembled pitched roof structure as claimed in claim 4, characterized in that, the lower ends of the ridge beam and the middle node beam are respectively arranged in the groove structure of the prefabricated groove beam (14) in a matching way and fixed with the two wings of the prefabricated groove beam (14) through the opposite penetrating bolts.

6. The fabricated sloping roof structure as claimed in claim 4, wherein the sloping roof panels are fabricated sloping roof panels; the assembled sloping roof plate comprises reinforced concrete rib grids (1), building blocks (2) and a reinforced concrete bottom plate (3); the reinforced concrete bottom plate (3) is obliquely arranged, the reinforced concrete rib grids (1) are arranged on the reinforced concrete bottom plate (3), and the building blocks (2) are filled in the reinforced concrete rib grids (1);

the reinforced concrete bottom plate (3) is obliquely arranged, the reinforced concrete rib grids (1) are arranged on the reinforced concrete bottom plate (3) in parallel, and the plurality of building blocks (2) are filled in the reinforced concrete rib grids (1); the L-shaped beams (4) are arranged at the upper end and the lower end of the reinforced concrete bottom plate (3), the upper ends of the L-shaped beams (4) are fixed with the reinforced concrete rib grids (1), and the lower ends of the L-shaped beams extend to the lower portion of the reinforced concrete bottom plate (3).

7. The fabricated sloping roof structure as claimed in claim 6, wherein the building blocks (2) are light heat-insulating building blocks; the light heat-insulating building block is made of recycled brick aggregate, polyphenyl granules, cement and sand.

8. The fabricated pitched roof structure according to claim 6, wherein the splicing seams of the fabricated pitched roof panel are filled with cement mortar grouting materials; the joint of the L-shaped beam (4) and the prefabricated groove beam (14) is filled with cement mortar grouting material; and a waterproof layer is laid on the upper surface of the pitched roof body.

9. An assembled sloping roof construction according to claim 4, characterised in that the lower end of the downhill roof panel is horizontally provided with drainage channels (5), and that the drainage channels (5) are provided with pre-drainage holes (6) at regular intervals.