CN221346033U - Supporting structure of slope roof expansion house - Google Patents

Abstract

The utility model relates to the technical field of roof supporting structures and provides a supporting structure of a slope roof expansion house, which comprises a bottom supporting seat and a rotary steel plate, wherein a first splicing block is nested in the bottom supporting seat, a second splicing block is nested in the first splicing block, a top supporting seat is nested in the second splicing block, two left pull rods, left diagonal rods, right pull rods and right diagonal rods are slidably assembled in the bottom supporting seat, the first splicing block and the second splicing block, the two pull caps of each component are pulled through the arrangement of the structures such as the pull caps and the left clamping blocks, the two left clamping blocks and the two right clamping blocks can be withdrawn from the interior of the other component at the same time, limiting is eliminated, each component can be detached, each clamping block can be fixed in the interior of the other component by loosening the two pull caps of each component, and the problem that the two clamping blocks are inconvenient to disassemble and reuse and the component in the prior art can be conveniently and quickly reused is solved through the technical scheme.

Description

Supporting structure of slope roof expansion house

Technical Field

The utility model relates to the technical field of roof supporting structures, in particular to a supporting structure of a slope roof expansion house.

Background

At present, for some expansion houses and large-area workshops, the roof is designed to be inclined, roof angles of all areas are suitable for according to different inclination angles, as the whole structure of the roof is inclined, the roof is influenced by gravity and can generate sideslip force, so that the roof structure is unstable, the roof structure is required to be placed on a beam for reinforcement so as to resist the influence of natural disasters such as earthquake typhoons, and the like, especially in areas where earthquake natural disasters often exist, the structural bearing requirement on the roof is very high, and the support structure at the bottom of the roof is required to be improved and designed, so that the support structure of the steel structure slope roof expansion house is designed.

In the prior art, the authorized bulletin number is: the utility model provides a steel construction pitched roof beam bearing structure of CN214461654U, includes slope top bearing structure, changeable festival bearing structure, floorbar bearing structure, slope top bearing structure passes through the connecting pin to be connected on changeable festival bearing structure's top, floorbar bearing structure passes through the connecting pin to be connected in changeable festival bearing structure's bottom. The utility model optimizes the arrangement of the steel structure inclined roof supporting structure, changes the supporting column made of fixed or cut length adopted in the prior art, improves the supporting column into a supporting structure with multiple high universality, can realize the application of different beam-off heights by changing the length of the variable-joint supporting structure, has the advantages of good durability and toughness and wide application range, is suitable for popularization and use, uses a large number of rivets and screws for connection among components, is inconvenient to disassemble and reuse, and is easy to damage the components in use without considering shock absorption measures among the components.

Disclosure of utility model

The utility model provides a supporting structure of a slope roof expansion house, which solves the problems of inconvenient disassembly and reuse and easy damage to components in the related technology.

The technical scheme of the utility model is as follows: the utility model provides a bearing structure of room is extended on slope roof, includes base support seat and rotatory steel sheet, the inside nestification of base support seat has splice block one, splice block one's inside nestification has splice block two, splice block one and splice block two's inside all sliding fit has two left pull rod, left diagonal rod, right pull rod and right diagonal rod, the one end of left pull rod is through screw fixedly connected with left diagonal block, the one end of right pull rod is through screw fixedly connected with right diagonal block, left pull rod with the other end of right pull rod is common through screw fixedly connected with pull cap, one side of left diagonal block is connected with left spring one, three one end of left spring one is connected with the base support seat respectively splice block one and splice block two inside, one end of left diagonal rod is connected with left clamping block through screw fixedly connected with left side spring two, three one end is connected with two by left side support block two, one end is connected with two by right side support block respectively with one end of the inside two, one end is connected with two end of spring support blocks respectively.

Preferably, the inside rotation of top supporting seat is installed the pivot, the pivot passes through screw fixed connection be in the inside of rotatory steel sheet, the bottom supporting seat splice piece one and splice piece two's inside all is connected with a plurality of big spring.

Preferably, the bottom support seat and the inside of the rotary steel plate are provided with two symmetrically arranged large thread grooves, and the inside of the top support seat is provided with a rotary groove.

Preferably, the bottom support seat, the first splicing block and the second splicing block are respectively provided with a splicing slot, the first splicing block is nested in one splicing slot, the second splicing block is nested in the other splicing slot, and the top support seat is nested in the other splicing slot.

Preferably, the first splicing block, the second splicing block and the top supporting seat are provided with clamping block grooves, and the left clamping block and the right clamping block are nested in the clamping block grooves together.

Preferably, the first round groove is formed in the rotary steel plate, the second round groove is formed in the top supporting seat, the rotating shaft penetrates through the first round groove, and the rotating shaft is nested in the second round groove.

Preferably, the third circular groove is formed in the bottom support seat, the first splicing block and the second splicing block, the left pull rod penetrates through the third circular groove, the fourth circular groove is formed in the bottom support seat, the first splicing block and the second splicing block, and the right pull rod penetrates through the third circular groove.

Preferably, the bottom support seat, the first splicing block and the second splicing block are respectively provided with a first square groove, the left inclined rod penetrates through the first square groove, the bottom support seat, the first splicing block and the second splicing block are respectively provided with a second square groove, and the right inclined rod penetrates through the second square groove.

The working principle and the beneficial effects of the utility model are as follows:

1. According to the utility model, through the arrangement of the structures such as the pulling caps and the left clamping blocks, the two pulling caps of each component are pulled, so that the two left clamping blocks and the two right clamping blocks can simultaneously withdraw from the interior of the other component, and the limit is canceled, so that each component can be disassembled, each clamping block can be fixed in the interior of the other component by loosening the two pulling caps of each component, and the device can be conveniently and rapidly reused.

2. According to the utility model, through the arrangement of the structures such as the bottom support seat, the large springs and the like, after the assembly is completed, the large springs are in a pressed state, and when the top support transmits large force, the springs can react to additional force to buffer interaction force among the assemblies.

Drawings

The utility model will be described in further detail with reference to the drawings and the detailed description.

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic view of a splice of components of the present utility model;

FIG. 3 is a schematic view of a top support structure according to the present utility model;

FIG. 4 is a sectional view of the detachable structure of the present utility model;

fig. 5 is a partially enlarged view of the detachable structure of the present utility model.

In the figure: 1. a bottom support base; 2. splice one; 3. a second splicing block; 4. a top support base; 5. a rotating shaft; 6. rotating the steel plate; 7. a large spring; 8. pulling the cap; 9. a left pull rod; 10. a right pull rod; 11. a left sloping block; 12. a right sloping block; 13. a left diagonal bar; 14. a right diagonal bar; 15. a left clamping block; 16. a right clamping block; 17. a left spring I; 18. a left spring II; 19. a right spring I; 20. a right spring II; 21. a large thread groove; 22. splicing slots; 23. a clamping block groove; 24. and a rotary groove.

Detailed Description

The technical solutions of the embodiments of the present utility model will be clearly and completely described below in conjunction with the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

As shown in fig. 1-5, the embodiment provides a supporting structure of a slope roof expansion house, which comprises a bottom supporting seat 1 and a rotary steel plate 6, wherein a first splicing block 2 is nested in the bottom supporting seat 1, a second splicing block 3 is nested in the first splicing block 2, a top supporting seat 4 is nested in the second splicing block 3, two left pull rods 9, a left diagonal rod 13, a right pull rod 10 and a right diagonal rod 14 are slidably assembled in the bottom supporting seat 1, the first splicing block 2 and the second splicing block 3, one end of the left pull rod 9 is fixedly connected with a left diagonal block 11 through a screw, one end of the right pull rod 10 is fixedly connected with a right diagonal block 12 through a screw, the other ends of the left pull rod 9 and the right pull rod 10 are jointly fixedly connected with a pull cap 8 through a screw, one side of the left diagonal block 11 is connected with a left spring 17, one end of three left spring one 17 is connected in the inside of base support seat 1, splice one 2 and splice two 3 respectively, the one end of left diagonal rod 13 is through screw fixedly connected with left fixture block 15, one side of left fixture block 15 is connected with left spring two 18, the one end of three left spring two 18 is connected in the inside of base support seat 1, splice one 2 and splice two 3 respectively, one side of right diagonal block 12 is connected with right spring one 19, the one end of three right spring one 19 is connected in the inside of base support seat 1, splice one 2 and splice two 3 respectively, the one end of right diagonal rod 14 is through screw fixedly connected with right fixture block 16, one side of right fixture block 16 is connected with right spring two 20, the one end of three right spring two 20 is connected in the inside of base support seat 1, splice one 2 and splice two 3 respectively.

As shown in fig. 1-2, two large thread grooves 21 which are symmetrically arranged are formed in the bottom support seat 1 and the rotating steel plate 6, and a rotating groove 24 is formed in the top support seat 4.

As shown in fig. 2, the bottom supporting seat 1, the first splicing block 2 and the second splicing block 3 are respectively provided with a splicing slot 22, the first splicing block 2 is nested in one of the splicing slots 22, the second splicing block 3 is nested in the other splicing slot 22, and the top supporting seat 4 is nested in the other splicing slot 22.

As shown in fig. 2, the first splicing block 2, the second splicing block 3 and the top supporting seat 4 are provided with clamping block grooves 23, and the left clamping block 15 and the right clamping block 16 are nested in the clamping block grooves 23.

As shown in fig. 4 and 5, the third circular groove is formed in the bottom support seat 1, the first splicing block 2 and the second splicing block 3, the left pull rod 9 penetrates through the third circular groove, the fourth circular groove is formed in the bottom support seat 1, the first splicing block 2 and the second splicing block 3, and the right pull rod 10 penetrates through the third circular groove.

As shown in fig. 4 and 5, the first square groove is formed in the bottom support seat 1, the first splicing block 2 and the second splicing block 3, the left inclined rod 13 penetrates through the first square groove, the second square groove is formed in the bottom support seat 1, the first splicing block 2 and the second splicing block 3, and the right inclined rod 14 penetrates through the second square groove.

In this embodiment, the number of the splice blocks is determined according to the distance from the beam supporting point to the pitched roof, then the bottom supporting seat 1 is fixed on the beam by using a large bolt through a large threaded hole, then a sufficient number of splice blocks are inserted, the pull cap 8 is loosened to clamp each clamping block into the clamping block groove 23 to complete the fixation between the components, and as the force applied to each component is transverse or vertical downward, the disassembly of each component can only be realized through the action of upward extraction, the fixation of four clamping blocks and the clamping grooves is sufficient to limit the connection between the components, and then the rotating steel plate 6 is rotated to the angle of the pitched roof and fixed on the pitched roof by using the large bolt through the large threaded hole to complete the support.

Example 2

As shown in fig. 1 to 3, based on the same concept as that of the above embodiment 1, this embodiment further proposes that a rotating shaft 5 is rotatably installed inside the top support seat 4, the rotating shaft 5 is fixedly connected inside the rotating steel plate 6 through a screw, and a plurality of large springs 7 are connected inside the bottom support seat 1, the first splicing block 2 and the second splicing block 3.

As shown in fig. 3, a first circular groove is formed in the rotary steel plate 6, a second circular groove is formed in the top support seat 4, the rotary shaft 5 penetrates through the first circular groove, and the rotary shaft 5 is nested in the second circular groove.

In this embodiment, through the arrangement of structures such as the bottom support seat 1, the big spring 7, all there is big spring 7 as buffering in the junction of each subassembly, can effectively be to the live load of fragile support piece such as strong wind, little vibrations.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims (8)

1. The utility model provides a supporting structure of roof expansion room on slope, its characterized in that includes base supporting seat (1) and rotatory steel sheet (6), the inside nestification of base supporting seat (1) has splice block one (2), the inside nestification of splice block one (2) has splice block two (3), the inside nestification of splice block two (3) has top supporting seat (4), base supporting seat (1) splice block one (2) and the inside of splice block two (3) all slide and are equipped with two left pull rod (9), left diagonal rod (13), right pull rod (10) and right diagonal rod (14), the one end of left pull rod (9) is through screw fixedly connected with left diagonal block (11), the one end of right pull rod (10) is through screw fixedly connected with right diagonal block (12), left pull rod (9) with the other end of right pull rod (10) is jointly through screw fixedly connected with cap (8), one side of left diagonal block (11) is connected with left spring one end (17), three one end of left side (17) is connected with one end of left side (15) and one end (15) is connected with one end of left side (15) respectively, the three one end of left spring two (18) is connected respectively bottom sprag seat (1) splice piece one (2) and splice piece two (3) inside, one side of right sloping block (12) is connected with right spring one (19), and three one end of right spring one (19) is connected respectively bottom sprag seat (1) splice piece one (2) and splice piece two (3) inside, the one end of right diagonal rod (14) is through screw fixedly connected with right fixture block (16), one side of right fixture block (16) is connected with right spring two (20), and three one end of right spring two (20) is connected respectively bottom sprag seat (1) splice piece one (2) and splice piece two (3) inside.

2. The supporting structure of the slope roof expansion house according to claim 1, wherein a rotating shaft (5) is rotatably installed in the top supporting seat (4), the rotating shaft (5) is fixedly connected to the inside of the rotating steel plate (6) through screws, and a plurality of large springs (7) are connected to the inside of the bottom supporting seat (1), the inside of the first splicing block (2) and the inside of the second splicing block (3).

3. The supporting structure of the slope roof expansion house according to claim 1, wherein two symmetrically arranged large thread grooves (21) are formed in the bottom supporting seat (1) and the rotating steel plate (6), and a rotating groove (24) is formed in the top supporting seat (4).

4. The supporting structure of a slope roof expansion house according to claim 1, wherein the bottom supporting seat (1), the first splicing block (2) and the second splicing block (3) are provided with splicing slots (22) in the interior, the first splicing block (2) is nested in one of the splicing slots (22), the second splicing block (3) is nested in the other splicing slot (22), and the top supporting seat (4) is nested in the other splicing slot (22).

5. The supporting structure of the slope roof expansion house according to claim 1, wherein the first splicing block (2), the second splicing block (3) and the top supporting seat (4) are provided with clamping block grooves (23), and the left clamping block (15) and the right clamping block (16) are nested in the clamping block grooves (23) together.

6. The supporting structure of the slope roof expansion house according to claim 2, wherein a first circular groove is formed in the rotary steel plate (6), a second circular groove is formed in the top supporting seat (4), the rotating shaft (5) penetrates through the first circular groove, and the rotating shaft (5) is nested in the second circular groove.

7. The supporting structure of the slope roof expansion house according to claim 1, wherein the bottom supporting seat (1), the first splicing block (2) and the second splicing block (3) are provided with third round grooves, the left pull rod (9) penetrates through the third round grooves, the bottom supporting seat (1), the first splicing block (2) and the second splicing block (3) are provided with fourth round grooves, and the right pull rod (10) penetrates through the third round grooves.

8. The supporting structure of the slope roof expansion house according to claim 1, wherein the bottom supporting seat (1), the first splicing block (2) and the second splicing block (3) are provided with first square grooves, the left inclined rod (13) penetrates through the first square grooves, the bottom supporting seat (1), the first splicing block (2) and the second splicing block (3) are provided with second square grooves, and the right inclined rod (14) penetrates through the second square grooves.