CN220768634U - Novel temple bucket arch package assembly - Google Patents

Abstract

The utility model discloses a novel temple bucket arch assembly structure, which comprises a bottom supporting mechanism, wherein the bottom supporting mechanism comprises a vertical supporting rod and a first supporting bracket, an installation clamping mechanism is arranged at the top of the vertical supporting rod, the installation clamping mechanism comprises a first assembly component, a top positioning mechanism is arranged at the top of the first assembly component, the bottom of the first assembly component is connected with the top of the first supporting bracket through a mortise and tenon joint structure, and a second assembly component is arranged at the top of the first assembly component. According to the utility model, the positioning clamping sleeve, the second positioning support, the vertical support rod, the second support bracket, the T-shaped guide block, the T-shaped guide groove and the clamping groove are arranged for matching use, so that the installation simplicity and the installation stability of the components can be improved in a splicing guide manner in the use process, and the installation workload of a user can be reduced conveniently.

Description

Novel temple bucket arch package assembly

Technical Field

The utility model relates to the technical field of brackets, in particular to a novel temple bracket assembly structure.

Background

The bucket arch, also called as the bracket arch, the bucket family, the smoke tree, the pavement and the like, is a special structure of the Chinese building. The square wooden block hopper is arranged between the arch and the arch, and is called as a bucket. In the building construction process, a novel temple bracket assembly structure is often required.

Through searching, the patent number is CN212897099U, and the name is a bucket arch type modeling design dome structure, which comprises a keel frame and a bucket arch assembly, and research and analysis show that the advantages of stable splicing and convenient splicing exist, but the following disadvantages exist to a certain extent.

For example, the above-mentioned devices generally do not have multiple guiding structures in the process of installation and splicing, so that the splicing between the devices easily has a certain influence on the overall installation accuracy, and the positioning structures between the devices are generally single, so that the overall installation mode is complicated, and the installation efficiency of the staff is easily influenced to a certain extent.

Disclosure of Invention

The utility model aims to provide a novel temple bucket arch assembly structure, which has the advantages of multiple guiding and positioning mechanisms and solves the problem that the installation efficiency is affected due to poor guiding and positioning effects of a main body.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a novel temple bucket arch package assembly, includes bottom sprag mechanism, bottom sprag mechanism includes vertical bracing piece and first supporting bracket, the top of vertical bracing piece is provided with installation joint mechanism, installation joint mechanism includes first assembly subassembly, the top of first assembly subassembly is provided with top positioning mechanism, the bottom of first assembly subassembly is connected through mortise and tenon fourth of the twelve earthly branches structure with the top of first supporting bracket.

Preferably, the top of the first assembly component is provided with a second assembly component, the top of the second assembly component is cast with a third assembly component, and the top of the third assembly component is provided with a fourth assembly component.

Preferably, the center of the two sides of the fourth assembly component and the center of the two sides of the second assembly component are connected with T-shaped guide blocks through bolts, the center of the top of the first assembly component and the center of the top of the third assembly component are provided with clamping grooves, the two sides of the inner cavity of each clamping groove are provided with T-shaped guide grooves matched with the T-shaped guide blocks, and the surfaces of the T-shaped guide blocks are in sliding connection with the joints of the inner walls of the T-shaped guide grooves.

Preferably, the top of the first assembly component, the third assembly component, the fourth assembly component and the second assembly component is cast with a second support bracket, the top positioning mechanism comprises a top support plate, two sides of the bottom of the top support plate are welded with second positioning supports, and front and rear sides of the bottom of the top support plate are welded with first positioning supports.

Preferably, the front side and the rear side of the bottom center of the top support plate are welded with cross support columns, and the bottoms of the cross support columns are welded with positioning clamping sleeves.

Preferably, the top of the vertical support rod is welded with the first support bracket, and a support sleeve plate is fixedly sleeved on the top of the surface of the vertical support rod.

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

1. according to the utility model, the positioning clamping sleeve, the second positioning support, the vertical support rod, the second support bracket, the T-shaped guide block, the T-shaped guide groove and the clamping groove are arranged for matching use, so that the installation simplicity and the installation stability of the components can be improved in a splicing guide manner in the use process, and the installation workload of a user can be reduced conveniently.

2. According to the utility model, the supporting sleeve plate, the first supporting bracket, the first assembling component, the third assembling component, the top supporting plate, the fourth assembling component, the second assembling component and the first positioning support are matched for use, so that the working efficiency of a user can be greatly improved in a mode of positioning and fixing in advance in the use process.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic view of a portion of the present utility model from above;

FIG. 3 is a schematic diagram showing a partial structure of the present utility model from a bottom perspective;

fig. 4 is a schematic perspective view of a partial structure of the present utility model.

In the figure: 1. a bottom support mechanism; 2. supporting the sleeve plate; 3. a first support bracket; 4. a first splice assembly; 5. a third assembly component; 6. a top support plate; 7. a fourth assembly component; 8. a second splice assembly; 9. a first positioning support; 10. a cross support column; 11. positioning a clamping sleeve; 12. a second positioning support; 13. a vertical support rod; 14. a second support bracket; 15. a T-shaped guide block; 16. a T-shaped guide groove; 17. a clamping groove; 18. installing a clamping mechanism; 19. a top positioning mechanism.

Detailed Description

Referring to fig. 1-4, a novel temple bucket arch assembly structure comprises a bottom supporting mechanism 1, wherein the bottom supporting mechanism 1 comprises a vertical supporting rod 13 and a first supporting bracket 3, an installation clamping mechanism 18 is arranged at the top of the vertical supporting rod 13, the installation clamping mechanism 18 comprises a first assembly component 4, a top positioning mechanism 19 is arranged at the top of the first assembly component 4, and the bottom of the first assembly component 4 is connected with the top of the first supporting bracket 3 through a mortise and tenon joint structure.

The top of the first assembly component 4 is provided with a second assembly component 8, the top of the second assembly component 8 is cast with a third assembly component 5, and the top of the third assembly component 5 is provided with a fourth assembly component 7.

The center of the fourth assembly component 7 and the center of the second assembly component 8 are both connected with T-shaped guide blocks 15 through bolts, the center of the top of the first assembly component 4 and the center of the top of the third assembly component 5 are both provided with clamping grooves 17, the two sides of the inner cavity of each clamping groove 17 are both provided with T-shaped guide grooves 16 matched with the T-shaped guide blocks 15, and the surfaces of the T-shaped guide blocks 15 are slidably connected with the connecting parts of the inner walls of the T-shaped guide grooves 16.

The top of the first assembly component 4, the third assembly component 5, the fourth assembly component 7 and the second assembly component 8 are all cast with a second support bracket 14, the top positioning mechanism 19 comprises a top support plate 6, two sides of the bottom of the top support plate 6 are all welded with a second positioning support 12, and two front and rear sides of the bottom of the top support plate 6 are all welded with a first positioning support 9.

The front side and the rear side of the bottom center of the top supporting plate 6 are welded with cross supporting columns 10, and the bottom of each cross supporting column 10 is welded with a positioning clamping sleeve 11.

The top of the vertical supporting rod 13 is welded with the first supporting bracket 3, and a supporting sleeve plate 2 is fixedly sleeved on the top of the surface of the vertical supporting rod 13.

By arranging the first support bracket 3, the connection between the first assembly component 4 and the vertical support rod 13 can be facilitated, so that the connection and support stability of the main body of the vertical support rod are improved;

by arranging the first positioning support 9 and the second positioning support 12, the top support plate 6 can be positioned in the installation process, so that the installation efficiency of staff is improved conveniently;

by arranging the cross support column 10 and the positioning clamping sleeve 11, the installation of the top support plate 6 can be conveniently and evenly supported after preliminary positioning;

by providing the support sleeve plate 2, the connection stability between the vertical support rod 13 and the first support bracket 3 can be improved after the vertical support rod is installed;

example 1

The utility model provides a novel temple bucket arch package assembly, includes bottom sprag mechanism 1, and bottom sprag mechanism 1 includes vertical bracing piece 13 and first supporting bracket 3, and the top of vertical bracing piece 13 is provided with installation joint mechanism 18, and installation joint mechanism 18 includes first assembly component 4, and the top of first assembly component 4 is provided with top positioning mechanism 19, and the bottom of first assembly component 4 is connected through mortise and tenon joint structure with the top of first supporting bracket 3.

The top of the first assembly component 4 is provided with a second assembly component 8, the top of the second assembly component 8 is cast with a third assembly component 5, and the top of the third assembly component 5 is provided with a fourth assembly component 7.

The center of the fourth assembly component 7 and the center of the second assembly component 8 are both connected with T-shaped guide blocks 15 through bolts, the center of the top of the first assembly component 4 and the center of the top of the third assembly component 5 are both provided with clamping grooves 17, the two sides of the inner cavity of each clamping groove 17 are both provided with T-shaped guide grooves 16 matched with the T-shaped guide blocks 15, and the surfaces of the T-shaped guide blocks 15 are slidably connected with the connecting parts of the inner walls of the T-shaped guide grooves 16.

The top of the first assembly component 4, the third assembly component 5, the fourth assembly component 7 and the second assembly component 8 are all cast with a second support bracket 14, the top positioning mechanism 19 comprises a top support plate 6, two sides of the bottom of the top support plate 6 are all welded with a second positioning support 12, and two front and rear sides of the bottom of the top support plate 6 are all welded with a first positioning support 9.

By arranging the first positioning support 9 and the second positioning support 12, the top support plate 6 can be positioned in the installation process, so that the installation efficiency of staff is improved conveniently;

when the novel combined type bucket arch device is used, when the novel combined type bucket arch device is required to be spliced and installed, a user aligns the corresponding T-shaped guide blocks 15 to the corresponding T-shaped guide grooves 16, then pushes the corresponding T-shaped guide blocks into the corresponding T-shaped guide grooves, the second assembly component 8 and the first assembly component 4 are clamped, the fourth assembly component 7 and the third assembly component 5 are clamped, then the first assembly component 4 and the first support bracket 3 are spliced through the tenon-and-mortise structure, the preliminary installation of the novel combined type bucket arch device can be completed, the positioning clamping sleeve 11, the second positioning support 12 and the first positioning support 9 are placed at the corresponding positions respectively through the placing mode, so that the top of the top support plate 6 is completed, and then the novel combined type bucket arch device can be assembled and spliced through the tenon-and-mortise structure.

To sum up: this novel temple bucket arch package assembly uses through bottom sprag mechanism 1, support the cover board 2, first support bracket 3, first assembly subassembly 4, third assembly subassembly 5, top backup pad 6, fourth assembly subassembly 7, second assembly subassembly 8, first location support 9, cross support column 10, location joint cover 11, T shape guide way 16, joint groove 17, installation joint mechanism 18 and the cooperation of top positioning mechanism 19, has solved that main part direction positioning effect is not good and leads to the installation effectiveness to receive the problem of influence.

Claims (6)

1. The utility model provides a novel temple bucket arch package assembly, includes bottom sprag mechanism (1), its characterized in that: the bottom support mechanism (1) comprises a vertical support rod (13) and a first support bracket (3), an installation clamping mechanism (18) is arranged at the top of the vertical support rod (13), the installation clamping mechanism (18) comprises a first assembly component (4), a top positioning mechanism (19) is arranged at the top of the first assembly component (4), and the bottom of the first assembly component (4) is connected with the top of the first support bracket (3) through a mortise and tenon joint structure.

2. The novel temple arch assembly structure of claim 1, wherein: the top of subassembly (4) is assembled to first being provided with the second and is assembled subassembly (8), the top casting of subassembly (8) is assembled to the second has the third to assemble subassembly (5), the top of subassembly (5) is assembled to the third is provided with fourth and is assembled subassembly (7).

3. The novel temple arch assembly structure of claim 2, wherein: the center department that subassembly (7) both sides were assembled to the fourth and the center department that subassembly (8) both sides were assembled to the second all have T shape guide block (15) through bolted connection, joint groove (17) have all been seted up to the center department at the top of subassembly (4) and the center department at the top of subassembly (5) are assembled to the third, T shape guide groove (16) that use with T shape guide block (15) cooperation have all been seted up to the both sides of joint groove (17) inner chamber, the junction sliding connection of the surface of T shape guide block (15) and T shape guide groove (16) inner wall.

4. The novel temple arch assembly structure of claim 2, wherein: the first assembly component (4), the third assembly component (5), the fourth assembly component (7) and the second assembly component (8) are all cast at the top and have second support brackets (14), top positioning mechanism (19) are including top backup pad (6), second positioning support (12) have all been welded to the both sides of top backup pad (6) bottom, first positioning support (9) have all been welded to both sides around top backup pad (6) bottom.

5. The novel temple arch assembly structure of claim 4, wherein: the cross support column (10) is welded on the front side and the rear side of the bottom center of the top support plate (6), and the positioning clamping sleeve (11) is welded on the bottom of the cross support column (10).

6. The novel temple arch assembly structure of claim 1, wherein: the top of the vertical support rod (13) is welded with the first support bracket (3), and a support sleeve plate (2) is fixedly sleeved on the top of the surface of the vertical support rod (13).