CN217352852U - Full-size ancient building accessory modularization metal bracket manufacturing structure - Google Patents

Abstract

The utility model relates to a modular metal bucket arch manufacturing structure of full-size ancient building accessories, which comprises a sitting bucket, a mud-way arch, a Hua arch, a bucket, a loose bucket, a slow arch, a melon-seed arch, a command arch and a play head oblique-high combination body, wherein the sitting bucket, the mud-way arch, the Hua arch, the bucket, the loose bucket, the slow arch, the melon-seed arch, the command arch and the play head oblique-high combination body all comprise a plurality of plates which are mutually clamped; a mud-way arch and a Huazhong are embedded in the sitting bucket, buckets are arranged in the middle of the mud-way arch and on the Huazhong, scattered buckets are arranged at two ends of the mud-way arch, and a head-playing and oblique-raising combination body is embedded between the mud-way arch and the buckets on the Huazhong; the slow arch is embedded between the bucket and the scattered bucket on the mud-way arch, the melon-seed arch is embedded on the bucket on the Huazhong, the melon-seed arch is spliced with the head-playing Chongang combination body, the buckets are spliced on two sides of the head-playing Chongang combination body, the order arch is embedded in one bucket on the head-playing Chongang combination body, and the slow arch is embedded in the other bucket. The utility model discloses adopt the location structure of draw-in groove fixture block to carry out the tack welding between a plurality of slab of corresponding component for agree with each other between the slab of component, it is convenient to fix a position the installation.

Description

Full-size ancient building accessory modularization metal bracket manufacturing structure

Technical Field

The utility model relates to a bracket preparation installation technical field especially relates to full-size ancient building accessory modularization metal bracket preparation structure.

Background

The bracket is a special member for ancient Chinese buildings and consists of square brackets, loose brackets, warps and hooks. The existing bucket arches mainly play a role in building decoration, and the bucket arches are divided into wooden bucket arches, concrete bucket arches and general assembly type metal bucket arches.

Wooden brackets are rarely used for environmental and fire protection reasons. Concrete bracket is because of the size is fixed, and bracket detail size can't be realized, inconvenient installation, and the later stage quality does not have the assurance, is applied to the individual layer building in a small amount. The metal bracket is of a hollow structure formed by welding metal sheets, each metal sheet is complex to install and easy to produce position deviation, so that later-stage assembly cannot be performed, all parts forming the metal bracket are assembled and welded into a whole, the size is large, and the transportation cost is high and the risk is large.

Disclosure of Invention

The utility model discloses an easily produce positional deviation's problem when solving the preparation of metal bracket, provide full-size ancient and build accessory modularization metal bracket preparation structure, through design joint structure on each sheet metal of metal bracket, improve the accuracy of mounted position.

In order to achieve the above object, the utility model adopts the following technical scheme:

the full-size ancient building accessory modularization metal bracket manufacturing structure comprises a sitting bracket, a mud-way bracket, a Hua bracket, a scattered bracket, a slow bracket, a melon-seed bracket, a command bracket and a play head oblique-high combination body, wherein the sitting bracket, the mud-way bracket, the Hua bracket, the scattered bracket, the slow bracket, the melon-seed bracket, the command bracket and the play head oblique-high combination body comprise a plurality of plate sheets which are mutually clamped, and the plurality of plate sheets are welded and fixed to form a hollow structure;

the mud-channel arch and the flower arch are embedded in the sitting bucket, the mud-channel arch and the flower arch are spliced to form a T shape, the buckets are arranged in the middle of the mud-channel arch and on the flower arch, the scattered buckets are arranged at two ends of the mud-channel arch, the head playing and oblique raising combination is embedded between the buckets on the mud-channel arch and the flower arch, and the head playing and oblique raising combination is a hollow structure formed by integrating a head playing body and a head playing body;

the mud-track arch is embedded with between the fill and the scattered fill on the mud-track arch and is had the slow arch, it is embedded with on the fill on the hua hun the melon seed arch, the melon seed arch is pegged graft with play head and is high the complex, play head and high the complex both sides are pegged graft and are had the fill, play head and high one fill embedded have order arch, another fill is embedded to have the slow arch on the complex, order arch and slow arch all with play head and high the complex peg graft.

Furthermore, the seat bucket comprises four rectangular seat bucket plate pieces I and four seat bucket plate pieces II, wherein the four seat bucket plate pieces I are arranged at four corners above the seat bucket; and a clamping groove and a clamping block are arranged between every two adjacent first seat bucket plate pieces and are mutually clamped, and a clamping groove and a clamping block are arranged between the first seat bucket plate pieces and the second seat bucket plate pieces.

Furthermore, the waffle arch comprises two waffle arch sheet bars I which are symmetrically arranged, a waffle arch sheet bar II which covers the space between the two waffle arch sheet bars I, and an arc waffle arch sheet bar III which covers the space between the lower sides of the two waffle arch sheet bars; clamping grooves and clamping blocks are arranged between the first Hua-arch plate piece and the second Hua-arch plate piece, between the first Hua-arch plate piece and the third Hua-arch plate piece in a clamped connection mode, and an inserting block is arranged at one end of each Hua-arch plate piece.

Furthermore, the mud-way arch comprises two symmetrically arranged mud-way arch sheet pieces I, two mud-way arch sheet pieces II covering two sides above the two mud-way arch sheet pieces I and two arc-shaped mud-way arch sheet pieces covering two sides below the two mud-way arch sheet pieces; the mud-way arch bar piece I, the mud-way arch bar piece II, the mud-way arch bar piece I and the mud-way arch bar piece III are all provided with clamping groove clamping blocks which are mutually clamped, each mud-way arch bar piece I is provided with two slots, and the inserting blocks are inserted into the slots.

Furthermore, the hopper comprises four hopper plate pieces I which are arranged in a rectangular shape in a surrounding mode and four hopper plate pieces II which are arranged at four corners of the hopper; two adjacent first hopper plate pieces are provided with clamping grooves and clamping blocks which are mutually clamped, and the clamping grooves and the clamping blocks are mutually clamped between the first hopper plate piece and the second hopper plate piece.

Furthermore, the bulk hopper comprises four bulk hopper plate pieces I which are arranged in a rectangular shape in a surrounding mode and two bulk hopper plate pieces II which are symmetrically arranged on two sides of the bulk hopper, clamping grooves and clamping blocks are arranged between every two adjacent bulk hopper plate pieces I in a clamped mode, and clamping grooves and clamping blocks are arranged between the bulk hopper plate pieces I and the bulk hopper plate pieces II in a clamped mode.

Furthermore, the slow arches are of a two-section structure which is symmetrically arranged, each slow arch is symmetrically inserted into two sides of the head-playing and oblique-connecting body, and each slow arch comprises two slow arch plate pieces I which are symmetrically arranged, a slow arch plate piece II which covers the upper part of the two slow arch plate pieces I, and an arc slow arch plate piece III which covers the lower part of the two slow arch plate pieces; the slow arch sheet I, the slow arch sheet II, the slow arch sheet I and the slow arch sheet III are all provided with clamping groove clamping blocks which are mutually clamped, one end of each slow arch sheet is provided with an insertion block, and the play head and inclined connector body is provided with a slot matched with the insertion block.

Furthermore, the slow arch, the melon seed arch and the ream arch have the same structure, and the melon seed arch and the ream arch are symmetrically distributed in a two-section structure; the utility model discloses a high-efficient combination of playing head, high-efficient.

Through the technical scheme, the beneficial effects of the utility model are that:

the utility model discloses the preparation raw materials of each component of bracket is smooth slab, and the component all adopts a plurality of slabs to make, adopts the location structure of draw-in groove fixture block to carry out positioning welding between a plurality of slabs of corresponding component, forms the component product of an assembled, and the welding does not have the deformation distortion, and dimensional error is little. The positioning structure of the clamping groove clamping block enables the plates of the component to be matched with each other, the positioning and installation are convenient, the instability during welding can be avoided, the deviation of the welding position can be prevented, the standardized manufacturing of the component is realized, and the error of later assembly is avoided. All the components can be transported in a unified mode after being manufactured and molded, bulk transportation is adopted, all the components are assembled according to design drawings after being transported to the site, the bucket arches with corresponding shapes are welded through a cold welding machine, and the bucket arches are installed on the site quickly and efficiently.

Drawings

Fig. 1 is the bucket arch molding schematic diagram of the full-size ancient building accessory modularization metal bucket arch manufacturing structure of the utility model.

Fig. 2 is the utility model discloses full-size ancient building accessory modularization metal bracket makes the seat fill schematic diagram of structure.

Fig. 3 is the seat fill explosion view of the full-size ancient building accessory modularization metal bracket manufacturing structure of the utility model.

Fig. 4 is the utility model discloses the hua of full-size ancient building accessory modularization metal bracket preparation structure encircles the schematic diagram.

Fig. 5 is the hua jian explosion view of the full-size ancient building accessory modularization metal bracket manufacturing structure of the utility model.

Fig. 6 is the mud-way arch schematic diagram of the full-size ancient building accessory modularization metal bracket manufacturing structure of the utility model.

Figure 7 is the utility model discloses full-size ancient building accessory modularization metal bracket makes the mud track of structure encircle the explosion view.

Fig. 8 is the utility model discloses full-size ancient building accessory modularization metal bracket makes the fill schematic diagram of structure.

Fig. 9 is the utility model discloses full-scale ancient building accessory modularization metal bracket makes the fill explosion view of structure.

Fig. 10 is the scattered fill schematic diagram of the full-size ancient building accessory modularization metal bracket manufacturing structure of the utility model.

Fig. 11 is the utility model discloses full-scale ancient building accessory modularization metal bracket makes the scattered fill explosion view of structure.

Fig. 12 is the utility model discloses full-scale ancient building accessory modularization metal bracket makes slow hunch schematic diagram of structure.

Figure 13 is the utility model discloses full-size ancient building accessory modularization metal bracket makes slow-arch explosion view of structure.

Fig. 14 is a schematic diagram of the full-size ancient building accessory modularization metal bracket of the utility model of a head-playing oblique-raising integrated body-grafting bucket.

The reference numbers in the drawings are as follows: the structure comprises a seat 1, a seat plate I11, a seat plate II 12, a mud channel arch 2, a mud channel arch 21, a mud channel arch plate I, a mud channel arch plate II 22, a mud channel arch plate III 23, a mud channel arch 3, a flower arch 31, a flower arch plate I, a flower arch plate II 32, a flower arch plate III 33, a bucket 4, a bucket 41, a bucket plate I, a bucket plate II 42, a bucket plate II 5, a bucket 51, a bucket plate I, a bucket plate II 52, a slow arch 6, a slow arch plate I61, a slow arch plate II 62, a slow arch plate III 63, a melon arch 7, a command arch 8, a show head inclined body 9, a show head 91, a show head 92, a fixture block 10, a fixture block 20, an insert block 30 and a slot 40.

Detailed Description

The following detailed description of the embodiments of the present invention is made with reference to the accompanying drawings:

as shown in fig. 1 to 14, the full-size ancient building accessory modularized metal bucket arch manufacturing structure comprises a seat bucket 1, a mud channel arch 2, a Hua arch 3, a bucket 4, a scattered bucket 5, a slow arch 6, a melon seed arch 7, a ream arch 8 and a play head oblique-raising body 9, wherein all the components are the components of the bucket arch.

When the bucket arch is manufactured, the sitting bucket 1, the mud road arch 2, the Hua arch 3, the bucket 4, the scattering bucket 5, the slow arch 6, the melon seed arch 7, the ream arch 8 and the play head oblique body 9 all comprise a plurality of plates which are mutually clamped, the plates are welded and fixed to form a hollow structure, namely all components of the bucket arch are manufactured by the plates, and the plates are clamped and positioned firstly and then welded and fixed to form corresponding components with the hollow structure.

When the bucket arch is manufactured by the components, all the components are combined in a splicing welding fixing mode, and different bucket arch models can be manufactured according to the arrangement of different numbers of the components.

In this embodiment, a bucket arch model is shown in fig. 1: the mud-way arch 2 and the Hua-arch 3 are embedded in the seat bucket 1, the mud-way arch 2 and the Hua-arch 3 are spliced, and the spliced mud-way arch 2 and the Hua-arch 3 are arranged in a T shape. Set up on mud-path arch 2 middle part and the corresponding hua encircles 3 fight 4, it has to play head and hang high complex 9 to inlay between the fight 4 on mud-path arch 2 and the hua encircles 3, play head and hang high complex 9 for play head 91 and high 92 integrated into one piece's hollow structure.

Mud-track encircles 2 both ends and sets up loose fill 5, it has to inlay between 4 and the loose fill 5 on the mud-track encircles 2 slow arch 6, it has to inlay on 4 of the fill on 3 to hua archs melon seed arch 7, melon seed arch 7 with play head and hang high complex 9 and peg graft play head and hang high complex 9 both sides are pegged graft and are had fill 4, play head and hang high complex 9 and play head and hang a fill 4 of fighting 4 embedded and have a command arch 8, another fill 4 embedded and have slow arch 6, command arch 8 and slow arch 6 all peg graft with play head and hang high complex 9.

According to the bucket arch model shown in FIG. 1, the manufacturing structure of each component is as follows:

as shown in fig. 2 to 3, when the seat 1 is manufactured, the seat 1 includes four seat sheet pieces 11 arranged in a rectangular shape and four rectangular seat sheet pieces 12 arranged at four corners above the seat 1, a clamping groove 20 and a clamping block 10 are arranged between two adjacent seat sheet pieces 11, and the clamping grooves 20 and the clamping blocks 10 are arranged between the seat sheet pieces 11 and the seat sheet pieces 12.

The first seat bucket plate 11 and the second seat bucket plate 12 are machined through a laser cutting machine according to a design drawing, corresponding clamping grooves 20 and clamping blocks 10 are reserved during machining so as to facilitate subsequent positioning welding, the machined first seat bucket plate 11 is of a flat plate structure, and the lower end of the first seat bucket plate 11 is bent inwards during installation.

As shown in fig. 4 to 5, when the flower arch 3 is manufactured, the flower arch 3 includes two flower arch sheet pieces 31 which are symmetrically arranged, a flower arch sheet piece two 32 which covers between the two flower arch sheet pieces 31 and an arc-shaped flower arch sheet piece three 33 which covers between the two flower arch sheet pieces 31, the flower arch sheet pieces 32, the flower arch sheet pieces 31 and the flower arch sheet pieces three 33 are all provided with clamping grooves 20, the clamping blocks 10 are mutually clamped, and the end of each flower arch sheet piece 31 is provided with an inserting block 30.

Processing a first Hua-arch plate piece 31, a second Hua-arch plate piece 32 and a third Hua-arch plate piece 33 by a laser cutting machine according to a design drawing, reserving a corresponding clamping groove 20 and a corresponding fixture block 10 for subsequent positioning welding during processing, and reserving an inserting block 30 for subsequent insertion with a mud-way arch 2; the machined second and third huazhong slab pieces 32 and 33 are flat slab structures, when the two huazhong slab pieces are installed, two ends of the second huazhong slab piece 32 are symmetrically bent upwards, and the arc-shaped bending of the third huazhong slab piece 33 is matched with the bottom edge profile of the first huazhong slab piece 31.

As shown in fig. 6 to 7, the mud-way arch 2 comprises two symmetrically arranged mud-way arch sheet pieces 21, two mud-way arch sheet pieces 22 covering two sides above the two mud-way arch sheet pieces 21 and two arc-shaped mud-way arch sheet pieces 22 covering two sides below the two mud-way arch sheet pieces 21, and the clamping grooves 20 and the clamping blocks 10 are arranged between the mud-way arch sheet pieces 21 and the mud-way arch sheet pieces 22, and between the mud-way arch sheet pieces 21 and the mud-way arch sheet pieces 23 in a clamped manner.

Two slots 40 which are arranged in parallel are formed in each mud way arch sheet I21, and the inserting blocks 30 are inserted into the slots 40 to achieve positioning and installation of the Hua-shaped arch 3 and the mud way arch 2.

Processing a mud way arch bar sheet I21, a mud way arch bar sheet II 22 and a mud way arch bar sheet III 23 by adopting a laser cutting machine according to a design drawing, reserving a corresponding clamping groove 20 and a corresponding clamping block 10 for subsequent positioning welding during processing, and reserving a slot 40 for being conveniently spliced with an inserting block 30 on the Huazhong 3; the manufactured mud channel arch bar piece II 22 and the manufactured mud channel arch bar piece III 23 are both flat bar structures, when the mud channel arch bar piece II 22 is installed, two ends of the mud channel arch bar piece II 22 are symmetrically bent upwards, and the arc-shaped bending of the mud channel arch bar piece III 23 is matched with the bottom edge profile of the mud channel arch bar piece I21.

As shown in fig. 8 to 9, the bucket 4 includes four bucket plate pieces 41 arranged in a rectangular shape and four bucket plate pieces 42 arranged at four corners of the bucket 4, the two adjacent bucket plate pieces 41 are provided with clamping grooves 20 and clamping blocks 10 which are clamped with each other, and the clamping grooves 20 and the clamping blocks 10 which are clamped with each other are arranged between the bucket plate pieces 41 and the bucket plate pieces 42.

According to the design drawing, a first bucket plate 41 and a second bucket plate 42 are machined through a laser cutting machine, corresponding clamping grooves 20 and clamping blocks 10 are reserved during machining so as to facilitate subsequent positioning welding, the machined first bucket plate 41 is of a flat plate structure, and the lower end of the first bucket plate 41 is bent inwards during installation.

As shown in fig. 10 to 11, the bulk hopper 5 includes four bulk hopper plate pieces 51 which are rectangular in shape and two bulk hopper plate pieces 52 which are symmetrically arranged at two sides of the bulk hopper 5, a clamping groove 20 and a clamping block 10 are arranged between the two adjacent bulk hopper plate pieces 51 and are clamped with each other, and a clamping groove 20 and a clamping block 10 are arranged between the bulk hopper plate pieces 51 and the bulk hopper plate pieces 52 and are clamped with each other.

Processing a first bulk cargo bucket plate 51 and a second bulk cargo bucket plate 52 by a laser cutting machine according to a design drawing, reserving a corresponding clamping groove 20 and a corresponding clamping block 10 during processing so as to facilitate subsequent positioning welding, wherein the processed first bulk cargo bucket plate 51 is of a flat plate structure, and the lower end of the first bulk cargo bucket plate 51 is bent inwards during installation.

As shown in fig. 12 to 13, the slow arches 6 are symmetrically arranged in two-segment structures, each segment of the slow arches 6 is symmetrically inserted into two sides of the vaulting-chang assembly 9, each segment of the slow arch 6 has the same structure as the hua arch 3, and each segment of the slow arch 6 includes two slow arch sheet pieces 61 symmetrically arranged, a slow arch sheet piece two 62 covering the space above the two slow arch sheet pieces 61, and an arc-shaped slow arch sheet piece three 63 covering the space below the two slow arch sheet pieces 6.

Clamping grooves 20 and clamping blocks 10 are arranged between the slow arch plate I61 and the slow arch plate II 62, and between the slow arch plate I61 and the slow arch plate III 63 in a clamped mode, an inserting block 30 is arranged at the end portion of each slow arch plate I61, and a socket 40 is formed in the play head and inclined body 9 to match the inserting block 30, so that the slow arch 6 and the play head and inclined body 9 are positioned and installed.

And machining a first slow arch plate 61, a second slow arch plate 62 and a third slow arch plate 63 by using a laser cutting machine according to a design drawing, reserving a corresponding clamping groove 20 and a corresponding clamping block 10 for subsequent positioning welding during machining, and reserving a plug block 30 for subsequent splicing with the play head slant body 9. The processed slow arch sheet II 62 and the processed slow arch sheet III 63 are both of flat sheet structures, when the slow arch sheet II 62 is installed, two ends of the slow arch sheet II 62 are symmetrically bent upwards, and the arc-shaped bending of the slow arch sheet III 63 is matched with the bottom edge profile of the slow arch sheet I61.

In this embodiment, the slow arch 6, the melon seed arch 7 and the ream arch 8 have the same structure, that is, the slow arch 6, the melon seed arch 7 and the ream arch 8 have the same structural shape, and the slow arch 6, the melon seed arch 7 and the ream arch 8 have the same width and different lengths. The slow arch 6, the melon seed arch 7 and the order arch 8 are both of two-section type structures which are symmetrically arranged, and are positioned and installed by adopting a splicing mode and a head playing and bevel raising integrated body 9, and the details are not repeated.

As shown in fig. 14, the buckets 4 inserted into two sides of the head-playing and reclining body 9 are also of a two-stage structure which is symmetrically arranged, and different from the conventional bucket 4, the middle of two bucket plate pieces 41 which are processed by a laser cutting machine according to the design drawing is cut to form the two-stage structure, and the insertion blocks 30 are reserved when the bucket plate pieces 41 are cut to facilitate subsequent positioning and installation of the head-playing and reclining body 9.

It should be noted that: 1. the show head and oblique high integrated body 9 is also made of a plurality of plates, and comprises two show head and oblique high integrated body plates which are symmetrically arranged, a show head and oblique high integrated body plate second covering the two show head and oblique high integrated body plates and a show head and oblique high integrated body plate third covering the lower part of the two show head and oblique high integrated body plates, and the processing and manufacturing of the show head and oblique high integrated body 9 also adopt a positioning structure that the clamping grooves 20 and the clamping blocks 10 are mutually clamped, and the description is omitted here. 2. The protruding height of the fixture block 10 and the recessed depth of the clamping groove 20 are both the plate thickness of the member, for example, 2mm stainless steel plates are adopted for a plurality of plates of the member, and the protruding height of the fixture block 10 and the recessed depth of the clamping groove 20 are both 2mm during processing. 3. The protruding height of the insert 30 is twice the thickness of the plate of the member, for example, if a stainless steel plate of 2mm is used for a plurality of plates of the member, the protruding height of the insert 30 is 4mm during processing.

The above-mentioned embodiments are merely preferred embodiments of the present invention, and not intended to limit the scope of the present invention, so that equivalent changes or modifications made by the structure, features and principles of the present invention should be included in the claims of the present invention.

Claims (8)

1. Full-size ancient building accessory modularization metal bracket preparation structure, including sit fill (1), mud track arch (2), hua encircles (3), fill (4), loose fill (5), slow-speed arch (6), melon seed arch (7), order arch (8) and play head and incline and increase the fit (9), characterized by that, sit fill (1), mud track arch (2), hua encircles (3), fill (4), loose fill (5), slow-speed arch (6), melon seed arch (7), order arch (8) and play head and incline and increase the fit (9) and all include a plurality of slab of mutual joint, the welded fastening forms hollow structure between a plurality of slab;

the mud-channel arch (2) and the Huazhong (3) are embedded in the seat bucket (1), the mud-channel arch (2) and the Huazhong (3) are spliced to form a T shape, the buckets (4) are arranged in the middle of the mud-channel arch (2) and on the Huazhong (3), the scattering buckets (5) are arranged at two ends of the mud-channel arch (2), the play head oblique-raising body (9) is embedded between the buckets (4) on the mud-channel arch (2) and the Huazhong (3), and the play head oblique-raising body (9) is a hollow structure formed by integrally playing head (91) and raising (92);

it has to be embedded between fill (4) and the scattered fill (5) on mud-path arch (2) slow arch (6), it has to be embedded on fill (4) on hunch (3) melon seeds encircle (7), melon seeds encircle (7) and play head to one side high complex (9) peg graft, play head to one side high complex (9) both sides are pegged graft and are had fill (4), play head to one side fill (4) on high complex (9) embedded have to be played and encircle (8), another fill (4) are embedded to have to hang down and encircle (6), order encircle (8) and hang down and stretch up with play head to one side high complex (9).

2. The full-size ancient building accessory modularization metal bracket manufacturing structure according to claim 1, wherein the seat (1) comprises four seat sheet bars (11) which are arranged in a rectangular shape in a surrounding manner and four seat sheet bars (12) which are arranged at four corners above the seat (1); clamping grooves (20) are formed between every two adjacent first seat bucket plate pieces (11), clamping blocks (10) are clamped with each other, and the clamping grooves (20) are formed between the first seat bucket plate pieces (11) and the second seat bucket plate pieces (12), and the clamping blocks (10) are clamped with each other.

3. The full-size ancient building accessory modular metal bracket manufacturing structure according to claim 1, wherein the China arch (3) comprises two symmetrical China arch sheet bars I (31), a China arch sheet bar II (32) covering the space above the two China arch sheet bars I (31), and an arc China arch sheet bar III (33) covering the space below the two China arch sheet bars I (31); clamping grooves (20) and clamping blocks (10) are arranged between the first Hua arch sheet bar (31) and the second Hua arch sheet bar (32), between the first Hua arch sheet bar (31) and the third Hua arch sheet bar (33) in a clamped mode, and an inserting block (30) is arranged at the end portion of each first Hua arch sheet bar (31).

4. The full-size ancient building accessory modularization metal bracket manufacturing structure according to claim 3, wherein the mud channel arch (2) comprises two symmetrically-arranged mud channel arch piece I (21), two mud channel arch pieces (22) covering two sides above the two mud channel arch piece I (21) and two arc-shaped mud channel arch pieces (22) covering two sides below the two mud channel arch piece I (21);

clamping grooves (20) and clamping blocks (10) are arranged between the first mud way arch plate piece (21) and the second mud way arch plate piece (22) and between the first mud way arch plate piece (21) and the third mud way arch plate piece (23) in a mutually clamped mode, two inserting grooves (40) are formed in each mud way arch plate piece (21), and the inserting blocks (30) are inserted into the inserting grooves (40).

5. The full-size ancient building accessory modularization metal bracket manufacturing structure according to claim 1, wherein the hopper (4) comprises four hopper plate pieces I (41) which are arranged in a rectangular shape in a surrounding mode and four hopper plate pieces II (42) which are arranged at four corners of the hopper (4); the adjacent first bucket plate pieces (41) are provided with clamping grooves (20), the clamping blocks (10) are mutually clamped, and the clamping grooves (20) are arranged between the first bucket plate pieces (41) and the second bucket plate pieces (42) and the clamping blocks (10) are mutually clamped.

6. The full-size ancient building accessory modularization metal bracket manufacturing structure according to claim 1, characterized in that the scattering bucket (5) comprises four scattering bucket plate pieces (51) which are arranged in a rectangular shape in a surrounding mode and two scattering bucket plate pieces (52) which are symmetrically arranged on two sides of the scattering bucket (5), clamping grooves (20) are arranged between every two adjacent scattering bucket plate pieces (51), clamping blocks (10) are clamped with each other, and clamping grooves (20) are arranged between the scattering bucket plate pieces (51) and the scattering bucket plate pieces (52), and the clamping blocks (10) are clamped with each other.

7. The modular metal bucket arch manufacturing structure of the full-size ancient building accessories according to claim 1, wherein the slow arch (6) is a two-segment structure which is symmetrically arranged, each segment of the slow arch (6) is symmetrically inserted at two sides of the head-playing oblique-high body (9), each segment of the slow arch (6) comprises two slow arch sheet bars I (61) which are symmetrically arranged, a slow arch sheet bar II (62) which covers the upper parts of the two slow arch sheet bars I (61) and an arc-shaped slow arch sheet bar III (63) which covers the lower parts of the two slow arch sheet bars I (6);

clamping grooves (20) and clamping blocks (10) are arranged between the slow arch plate I (61) and the slow arch plate II (62) and between the slow arch plate I (61) and the slow arch plate III (63) in a clamped mode, an inserting block (30) is arranged at the end portion of each slow arch plate I (61), and a socket (40) is arranged on the show head oblique connecting body (9) to match with the inserting block (30).

8. The full-size ancient building accessory modular metal bucket arch manufacturing structure according to claim 7, wherein the slow arch (6), the melon seed arch (7) and the ream arch (8) are identical in structure, and the melon seed arch (7) and the ream arch (8) are symmetrically arranged in two-section structure; the two-section type structure of the two sides of the head-playing oblique-raising integrated body (9) are symmetrically arranged.

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