CN112091909A - High-applicability type building steel structure convenient for multi-angle assembling - Google Patents

Abstract

The utility model provides a high suitable type building steel structure convenient to multi-angle is assembled, includes girder body, removal slider, first pair roof beam body and the vice roof beam body of second, the removal spout is all installed to the both sides of girder body outer wall, the internally mounted who removes the spout has the removal slider, the intermediate position department of girder body surface installs the fixed block, the equal fixedly connected with snubber block in both ends of spring inside, first pair roof beam body is installed to one side of fixed block, the vice roof beam body of second is installed to the opposite side of fixed block, the surface winding of the vice roof beam body of second has anticorrosive structure. According to the invention, the mounting groove is formed in the main beam body, the mounting blocks on the first auxiliary beam body and the second auxiliary beam body are aligned to the mounting groove, so that the springs on the mounting blocks are compressed, and then the mounting blocks on the first auxiliary beam body and the second auxiliary beam body are clamped into the mounting groove, so that the effect of fixedly mounting the first auxiliary beam body and the second auxiliary beam body is realized.

Description

High-applicability type building steel structure convenient for multi-angle assembling

Technical Field

The invention relates to the technical field, in particular to a high-applicability building steel structure convenient for multi-angle assembly.

Background

In China, steel structure buildings are mainly used for building steel structures, steel bars for reinforced concrete, steel strands, steel wires, doors and windows and the like, wherein steel for the steel structures only accounts for about 10%, China is a country with large energy consumption and relatively lack of resources, energy conservation becomes a hot problem concerned by the current government, and the steel structure buildings with good energy conservation performance have positive promoting effect The use of sling structures, membrane structures, etc. will lead the Chinese architectural revolution, but the existing devices still have certain problems and defects.

The high-applicability type building steel structure convenient for multi-angle assembling is inconvenient to install an auxiliary beam in the using process, so that the auxiliary beam is very inconvenient in the using process, and a novel high-applicability type building steel structure convenient for multi-angle assembling is required to be manufactured to solve the problems.

Disclosure of Invention

The purpose of the invention is: the utility model provides a high suitable type building steel structure convenient to multi-angle is assembled to the problem of proposing inconvenient installation in solving above-mentioned background art.

The technical scheme of the invention is as follows: a high-applicability type building steel structure convenient for multi-angle assembly comprises a main beam body, a movable sliding block, a first auxiliary beam body and a second auxiliary beam body, wherein movable sliding grooves are respectively installed on two sides of the outer wall of the main beam body, the movable sliding block is installed inside the movable sliding grooves, a fixed block is installed at the middle position of the outer surface of the main beam body, adjusting structures penetrate through two ends of the fixed block, installation structures are respectively installed on two sides inside the fixed block, each installation structure comprises a connecting plate, an installation block, an installation groove, a damping block and a spring, the installation grooves are respectively installed on two sides inside the fixed block, the installation block is installed inside the installation groove, the connecting plate is installed on one side of the installation block, the spring is fixedly connected to the top end of the connecting plate, the damping blocks are respectively fixedly connected to two ends inside the spring, the first auxiliary beam, the vice roof beam body of second is installed to the opposite side of fixed block, the surface winding of the vice roof beam body of second has anticorrosive structure.

Preferably, anticorrosion structure includes polyurethane layer, basic unit, fixing bolt and epoxy layer, the basic unit twines in the surface of the vice roof beam body of second, the surface winding of basic unit has the epoxy layer, the surface winding of epoxy layer has the polyurethane layer, fixing bolt has been run through to the one end on polyurethane layer.

Preferably, the polyurethane layer all twines in the surface of first auxiliary girder body and the vice roof beam body of second, the polyurethane layer is through being adhesive connection between epoxy layer and the basic unit.

Preferably, adjust the structure including adjusting the plug, adjusting jack and preformed hole, the preformed hole all runs through the intermediate position department at fixed block outer wall both ends, the inside of preformed hole is run through there is the regulation plug, the one end of adjusting the plug is all installed and is adjusted the jack.

Preferably, the adjusting jacks are arranged in a plurality, and the adjusting jacks are distributed at equal intervals.

Preferably, the adjusting plug is matched with the adjusting jack, and a mortise and tenon structure is formed between the adjusting jack and the adjusting plug.

Preferably, the inner diameter of the mounting groove is larger than the outer diameter of the mounting block, and a clamping structure is formed between the mounting block and the mounting groove.

Preferably, the connecting plate is fixedly connected to the surface of the mounting block, and the mounting block and the connecting plate are in a welding integrated structure.

Preferably, the cross section of the moving sliding groove is larger than that of the moving sliding block, and the moving sliding block forms a sliding structure between the moving sliding grooves.

Compared with the prior art, the invention has the beneficial effects that: the high-applicability building steel structure convenient for multi-angle assembly not only realizes convenient installation, but also realizes good corrosion resistance effect and good adjustment effect;

1. by arranging the mounting structure, when the device needs to be used, the main beam body is firstly placed at a designated position, then the main beam body is fixed, in order to facilitate the installation of the main beam body and the first auxiliary beam body and the second auxiliary beam body, an installation groove can be arranged on the main beam body, then the mounting blocks on the first auxiliary beam body and the second auxiliary beam body are aligned with the mounting grooves, so that the springs on the mounting blocks are compressed, when the springs are compressed until the shock absorption blocks touch each other, the mounting blocks on the first auxiliary beam body and the second auxiliary beam body are clamped into the mounting grooves, so that the effect of fixedly mounting the first auxiliary beam body and the second auxiliary beam body is realized, if the first auxiliary beam body and the second auxiliary beam body need to be replaced and disassembled, the reverse operation is performed in the same way, so that the first auxiliary beam body and the second auxiliary beam body can be rapidly detached and replaced;

2. by arranging the anti-corrosion structure, when the device is used, the first auxiliary beam body and the second auxiliary beam body can be exposed in the air for a long time, in order to prevent the first auxiliary beam body and the second auxiliary beam body from being corroded due to long-time rainwater hitting, a base layer can be wound on the surfaces of the first auxiliary beam body and the second auxiliary beam body, then an epoxy resin layer is coated on the base layer, so that the polyurethane layer can be adhered on the base layer, and then the base layer is fixed by the fixing bolt, so that the phenomenon that the first auxiliary beam body and the second auxiliary beam body are corroded due to long-time exposure in the air is prevented, and the service lives of the first auxiliary beam body and the second auxiliary beam body are prolonged;

3. through being provided with the regulation structure, when using, the girder body can be fixed in appointed position, and first pair roof beam body and the vice roof beam body of second can be along with the condition of use needs highly adjusting, for the convenience to the regulation of first pair roof beam body and the vice roof beam body height of second, can break away from preformed hole and adjusting socket with adjusting the plug earlier, then remove the inside of removal spout with the removal slider on the fixed block, when the fixed block removes to appointed position, at last will adjust the plug again and inject inside preformed hole and adjusting socket, thereby realized the regulation to the fixed block height, because first pair roof beam body and the vice roof beam body of second are fixed on the fixed block, thereby played the effect to the vice roof beam body altitude mixture control of first pair roof beam body and second.

Drawings

FIG. 1 is a schematic front sectional view of the present invention;

FIG. 2 is a schematic side view of the present invention;

FIG. 3 is a schematic top view of the present invention;

FIG. 4 is a front expanded view of the corrosion protection structure of the present invention;

FIG. 5 is an enlarged partial cross-sectional view of FIG. 1 at B according to the present invention;

FIG. 6 is an enlarged partial cross-sectional view taken at A in FIG. 1 according to the present invention.

In the figure: 1. a main beam body; 2. moving the slide block; 3. a fixed block; 4. an anti-corrosion structure; 401. a polyurethane layer; 402. a base layer; 403. fixing the bolt; 404. an epoxy resin layer; 5. a first secondary beam body; 6. an adjustment structure; 601. adjusting the plug; 602. adjusting the jack; 603. reserving a hole; 7. a mounting structure; 701. a connecting plate; 702. mounting blocks; 703. mounting grooves; 704. a damper block; 705. a spring; 8. a second secondary beam body; 9. and moving the chute.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-6, a high-applicability building steel structure convenient for multi-angle assembly comprises a main beam body 1, a movable sliding block 2, a first auxiliary beam body 5 and a second auxiliary beam body 8, wherein both sides of the outer wall of the main beam body 1 are provided with movable sliding chutes 9, the movable sliding block 2 is arranged inside the movable sliding chutes 9, the cross section of the movable sliding chutes 9 is larger than that of the movable sliding block 2, the movable sliding block 2 forms a sliding structure between the movable sliding chutes 9, a fixed block 3 is arranged at the middle position of the outer surface of the main beam body 1, adjusting structures 6 are arranged at both ends of the fixed block 3 in a penetrating manner, each adjusting structure 6 comprises an adjusting plug 601, an adjusting jack 602 and a reserved hole 603, each reserved hole 603 is arranged at the middle position of both ends of the outer wall of the fixed block 3 in a penetrating manner, each adjusting plug 601 is arranged inside each reserved hole 603, and each adjusting jack 602 is arranged at, a plurality of adjusting jacks 602 are arranged, the plurality of adjusting jacks 602 are distributed at equal intervals, the adjusting plugs 601 are matched with the adjusting jacks 602, and a mortise and tenon structure is formed between the adjusting jacks 602 and the adjusting plugs 601;

specifically, as shown in fig. 1, 2, 3 and 6, when the mechanism is used, first, when in use, the main beam body 1 is fixed at a designated position, and the first and second sub-beam bodies 5 and 8 will be adjusted in height as the use case requires, in order to facilitate the height adjustment of the first secondary beam body 5 and the second secondary beam body 8, the adjusting plug 601 may be detached from the prepared hole 603 and the adjusting insertion hole 602, then the moving slide block 2 on the fixed block 3 is moved inside the moving chute 9, and when the fixed block 3 is moved to a designated position, finally, the adjusting bolt 601 is inserted into the preformed hole 603 and the adjusting insertion hole 602, thereby realizing the adjustment of the height of the fixed block 3, the first auxiliary beam body 5 and the second auxiliary beam body 8 are fixed on the fixing block 3, so that the effect of adjusting the heights of the first auxiliary beam body 5 and the second auxiliary beam body 8 is achieved;

mounting structures 7 are mounted on two sides inside the fixed block 3, each mounting structure 7 comprises a connecting plate 701, a mounting block 702, a mounting groove 703, a shock-absorbing block 704 and a spring 705, the mounting grooves 703 are mounted on two sides inside the fixed block 3, the mounting blocks 702 are mounted inside the mounting grooves 703, the connecting plate 701 is mounted on one side of each mounting block 702, the spring 705 is fixedly connected to the top end of each connecting plate 701, the shock-absorbing blocks 704 are fixedly connected to two ends inside the springs 705, the inner diameter of each mounting groove 703 is larger than the outer diameter of each mounting block 702, a clamping structure is formed between each mounting block 702 and each mounting groove 703, each connecting plate 701 is fixedly connected to the surface of each mounting block 702, and each mounting block 702 and each;

specifically, as shown in fig. 1, 2, 3, 5 and 6, when the device is used, firstly, when the device needs to be used, the main beam body 1 is placed at a designated position, then the main beam body 1 is fixed, in order to facilitate the installation of the main beam body 1 and the first and second auxiliary beam bodies 5 and 8, an installation groove 703 can be provided on the main beam body 1, then the installation blocks 702 on the first and second auxiliary beam bodies 5 and 8 are aligned with the installation groove 703, so that the springs 705 on the installation blocks 702 are compressed, when the springs 705 are compressed until the shock absorption blocks 704 touch each other, the installation blocks 702 on the first and second auxiliary beam bodies 5 and 8 are clamped into the installation groove, thereby achieving the effect of fixedly installing the first and second auxiliary beam bodies 5 and 8, if the first and second auxiliary beam bodies 5 and 8 need to be replaced, in a similar way, the first auxiliary beam body 5 and the second auxiliary beam body 8 can be quickly disassembled and replaced through reverse operation;

a first auxiliary beam body 5 is installed on one side of a fixing block 3, a second auxiliary beam body 8 is installed on the other side of the fixing block 3, an anti-corrosion structure 4 is wound on the outer surface of the second auxiliary beam body 8, the anti-corrosion structure 4 comprises a polyurethane layer 401, a base layer 402, a fixing bolt 403 and an epoxy resin layer 404, the base layer 402 is wound on the outer surface of the second auxiliary beam body 8, the epoxy resin layer 404 is wound on the outer surface of the base layer 402, the polyurethane layer 401 is wound on the outer surface of the epoxy resin layer 404, the fixing bolt 403 penetrates through one end of the polyurethane layer 401, the polyurethane layer 401 is wound on the outer surfaces of the first auxiliary beam body 5 and the second auxiliary beam body 8, and the polyurethane layer 401 is in bonding connection with the base layer 402 through the epoxy resin layer 404;

specifically, as shown in fig. 1, 2, 3, 4 and 6, when the mechanism is used, first, when the device is used, the first sub beam body 5 and the second sub beam body 8 are exposed to the air for a long time, and in order to prevent the first sub beam body 5 and the second sub beam body 8 from corroding due to long-time impact of rainwater, a base layer 402 may be wound on the surfaces of the first sub beam body 5 and the second sub beam body 8, and then an epoxy resin layer 404 may be coated on the base layer 402 so that the polyurethane layer 401 may be adhered to the base layer 402, and then fixed by fixing bolts 403, thereby preventing the first sub beam body 5 and the second sub beam body 8 from corroding due to long-time exposure to the air, and thus increasing the service life of the first sub beam body 5 and the second sub beam body 8.

When the invention is used, firstly, when the device needs to be used, the main beam body 1 is firstly placed at a designated position, then the main beam body 1 is fixed, in order to facilitate the installation of the main beam body 1 and the first and second auxiliary beam bodies 5 and 8, an installation groove 703 can be arranged on the main beam body 1, the mounting blocks 702 on the first and second secondary beam bodies 5, 8 are then aligned with the mounting slots 703, causing the springs 705 on the mounting blocks 702 to compress, when the springs 705 are compressed to the point that the shock absorbing blocks 704 touch each other, the mounting blocks 702 on the first auxiliary beam body 5 and the second auxiliary beam body 8 are clamped into the mounting grooves 703, so that the effect of fixedly mounting the first auxiliary beam body 5 and the second auxiliary beam body 8 is achieved, if first auxiliary girder body 5 and the second auxiliary girder body 8 need to be changed when dismantling, on the same hand, reverse operation for first auxiliary girder body 5 and the second auxiliary girder body 8 can be quick dismantlement change.

Thereafter, when the device is used, the first sub beam body 5 and the second sub beam body 8 are exposed to the air for a long time, and in order to prevent the first sub beam body 5 and the second sub beam body 8 from corroding due to long-term impact of rainwater, a base layer 402 may be wound on the surfaces of the first sub beam body 5 and the second sub beam body 8, and then an epoxy resin layer 404 may be coated on the base layer 402, so that the polyurethane layer 401 may be adhered to the base layer 402 and then fixed by the fixing bolts 403, thereby preventing the first sub beam body 5 and the second sub beam body 8 from corroding due to long-term exposure to the air, and increasing the service life of the first sub beam body 5 and the second sub beam body 8.

Finally, when using, girder body 1 can be fixed in appointed position, and first pair girder body 5 and the vice girder body 8 of second can be along with the condition needs of use are adjusted the height, for the convenience to the regulation of first pair girder body 5 and the vice girder body 8 height of second, can break away from preformed hole 603 and regulation jack 602 with adjusting plug 601 earlier, then move the inside of removal slider 2 on fixed block 3 at removal spout 9, when fixed block 3 removed to appointed position, at last insert adjusting plug 601 inside preformed hole 603 and regulation jack 602 again, thereby realized the regulation to fixed block 3 height, because first pair girder body 5 and the vice girder body 8 of second are fixed on fixed block 3, thereby played the effect to first pair girder body 5 and the vice girder body 8 height control of second.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein, and any reference signs in the claims are not intended to be construed as limiting the claim concerned.

Claims (9)

1. The utility model provides a high profiled structure that is suitable for convenient to multi-angle is assembled, includes girder body (1), removes slider (2), first auxiliary girder body (5) and the auxiliary girder body of second (8), its characterized in that: the movable sliding grooves (9) are mounted on two sides of the outer wall of the main beam body (1), the movable sliding blocks (2) are mounted inside the movable sliding grooves (9), the fixed block (3) is mounted at the middle position of the outer surface of the main beam body (1), adjusting structures (6) penetrate through two ends of the fixed block (3), mounting structures (7) are mounted on two sides of the inside of the fixed block (3), each mounting structure (7) comprises a connecting plate (701), a mounting block (702), a mounting groove (703), a shock absorption block (704) and a spring (705), the mounting grooves (703) are mounted on two sides of the inside of the fixed block (3), the mounting blocks (702) are mounted inside the mounting grooves (703), the connecting plate (701) is mounted on one side of the mounting blocks (702), and the springs (705) are fixedly connected to the top ends of the connecting plates (701, the equal fixedly connected with snubber block (704) in both ends of spring (705) inside, first auxiliary beam body (5) are installed to one side of fixed block (3), the vice roof beam body of second (8) is installed to the opposite side of fixed block (3), the surface winding of the vice roof beam body of second (8) has anticorrosion structure (4).

2. The high-applicability building steel structure convenient for multi-angle assembly according to claim 1, is characterized in that: anticorrosive structure (4) include polyurethane layer (401), basic unit (402), fixing bolt (403) and epoxy layer (404), the surface of the vice roof beam body of second (8) is twined in basic unit (402), the surface of basic unit (402) twines epoxy layer (404), the surface of epoxy layer (404) twines polyurethane layer (401), fixing bolt (403) have been run through to the one end of polyurethane layer (401).

3. The high-applicability type building steel structure convenient for multi-angle assembling of claim 2 is characterized in that: the polyurethane layer (401) is wound on the outer surfaces of the first auxiliary beam body (5) and the second auxiliary beam body (8), and the polyurethane layer (401) is in adhesive connection with the base layer (402) through the epoxy resin layer (404).

4. The high-applicability building steel structure convenient for multi-angle assembly according to claim 1, is characterized in that: adjust structure (6) including adjusting plug (601), regulation jack (602) and preformed hole (603), preformed hole (603) all run through the intermediate position department at fixed block (3) outer wall both ends, the inside of preformed hole (603) is run through and is had regulation plug (601), the one end of adjusting plug (601) is all installed and is adjusted jack (602).

5. The high-applicability type building steel structure convenient for multi-angle assembling of claim 4 is characterized in that: the adjusting jacks (602) are arranged in a plurality of equal-interval distribution.

6. The high-applicability type building steel structure convenient for multi-angle assembling of claim 4 is characterized in that: the adjusting plug (601) is matched with the adjusting insertion hole (602), and a mortise and tenon structure is formed between the adjusting insertion hole (602) and the adjusting plug (601).

7. The high-applicability building steel structure convenient for multi-angle assembly according to claim 1, is characterized in that: the inner diameter of the mounting groove (703) is larger than the outer diameter of the mounting block (702), and a clamping structure is formed between the mounting block (702) and the mounting groove (703).

8. The high-applicability building steel structure convenient for multi-angle assembly according to claim 1, is characterized in that: the connecting plate (701) is fixedly connected to the surface of the mounting block (702), and the mounting block (702) and the connecting plate (701) are in a welding integrated structure.

9. The high-applicability building steel structure convenient for multi-angle assembly according to claim 1, is characterized in that: the cross section of the movable sliding chute (9) is larger than that of the movable sliding block (2), and the movable sliding block (2) forms a sliding structure between the movable sliding chutes (9).

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