CN111502003A

CN111502003A - Steel structure beam column

Info

Publication number: CN111502003A
Application number: CN202010420102.4A
Authority: CN
Inventors: 张晓曦; 倪波涛; 蔡信团; 赵令锋; 林尊浩
Original assignee: Fujian Yongfu Construction Group Co ltd
Current assignee: Fujian Yongfu Construction Group Co ltd
Priority date: 2020-05-18
Filing date: 2020-05-18
Publication date: 2020-08-07

Abstract

The invention relates to a steel structure beam column, which comprises a supporting steel column, a clamping component arranged at the bottom of the supporting steel column, a fixing component used for connecting the clamping component, a supporting component arranged at the top of the supporting steel column, a steel beam component spliced with the supporting steel column and the supporting component, and a plurality of climbing components arranged on the side wall of the supporting steel column, wherein the steel beam component is arranged at the top of the supporting steel column; the clamping assembly consists of a connecting plate, clamping rods and sleeve rods, the connecting plate is fixed at the bottom of the supporting steel column, the bottom of the connecting plate is provided with a plurality of clamping rods, and the sleeve rods are movably arranged outside the clamping rods; the fixing assembly consists of a base and inserting blocks, the base is fixed at the bottom of the loop bar, and a plurality of inserting blocks are fixed at the lower part of the base; the supporting component comprises supporting blocks fixed on two sides of the supporting steel column, supporting plates fixed on the lower portions of the supporting blocks and limiting blocks arranged on the supporting plates.

Description

Steel structure beam column

Technical Field

The invention relates to a steel structure beam column, which is applied to the technical field of steel structure beam columns.

Background

It is known that the external force supported and born by the support is mainly transverse force and shearing force, the member mainly deformed by bending is called beam, the beam supports the whole weight of the member in the upper frame of the building and the roof, and is the most important part in the upper frame of the building, and the direction of most beams is consistent with the cross section of the building according to the different names of the specific position, detailed shape, specific action and the like of the beam, the early house construction uses wooden beam columns, and the beam columns are not only wooden materials but also metal beam columns and cement beam columns along with the development of society; current steel construction beam column, the mounting means between roof beam and the post needs many bolts to install, and it is very inconvenient to install, and current steel construction post need bury deeply in the concrete ground, when dismantling the post, the post glues glutinous fastening with the concrete, is difficult to separate, and the height of present beam column is generally all higher, when installing and maintaining, often needs equipment of ascending a height, and the equipment of ascending a height is bulky, indoor use of being not convenient for.

Disclosure of Invention

In order to solve the technical problems, the invention provides a steel structure beam column, which can effectively solve the problems of inconvenient beam and column installation, difficult separation of the steel structure column and concrete and ascending during installation and maintenance of an indoor beam column.

The technical scheme of the invention is as follows:

a steel structure beam column comprises a supporting steel column, a clamping assembly arranged at the bottom of the supporting steel column, a fixing assembly used for connecting the clamping assembly, a supporting assembly arranged at the top of the supporting steel column, a steel beam assembly spliced with the supporting steel column and the supporting assembly, and a plurality of climbing assemblies arranged on the side wall of the supporting steel column; the clamping assembly consists of a connecting plate, clamping rods and sleeve rods, the connecting plate is fixed at the bottom of the supporting steel column, the bottom of the connecting plate is provided with a plurality of clamping rods, and the sleeve rods are movably arranged outside the clamping rods; the fixing assembly consists of a base and inserting blocks, the base is fixed at the bottom of the loop bar, and a plurality of inserting blocks are fixed at the lower part of the base; the supporting component comprises supporting blocks fixed on two sides of the supporting steel column, a supporting plate fixed on the lower portion of each supporting block and a limiting block arranged on each supporting plate; the steel beam assembly comprises an I-shaped steel, a spring groove, a spring and a clamping block, the I-shaped steel is spliced with the supporting steel column and the supporting block, the spring groove is formed in the top of the I-shaped steel, the spring is fixed in the spring groove, and the clamping block is arranged on the upper portion of the spring; the climbing assembly comprises a plurality of climbing grooves formed in the side walls of the supporting steel columns and extension plates arranged inside the climbing grooves.

The supporting steel column is of a rectangular structure, the bottom face of the supporting steel column is welded with the top face of the connecting plate, a plurality of strip-shaped clamping rods are uniformly distributed on the bottom face of the connecting plate, and sleeve rods are sleeved outside the clamping rods.

The loop bar is of a circular tube type structure, the bottom face of the loop bar is undetachably connected with the top face of the base, a plurality of insertion blocks are uniformly distributed on the bottom face of the base, and the bottoms of the insertion blocks are of conical structures.

The supporting blocks are of a rectangular structure, the supporting blocks are symmetrically fixed on two side walls of the top face of the supporting steel column, a supporting plate is fixed on the bottom face of each supporting block, the length of each supporting plate is larger than that of each supporting block, the supporting plates extend outwards from the bottom faces of the supporting blocks, and two limiting blocks are fixed on the top face of the extending portion of each supporting plate.

The stopper is "L" type plate structure, and two stoppers are symmetrical structure and set up on the face of the top of backup pad, and a curb plate of stopper and the perpendicular fixed connection of the face of the top of backup pad, another curb plate of stopper and the face parallel of the top of backup pad, set up a plurality of on the curb plate that stopper and backup pad top face are parallel and be used for passing the through-hole of bolt.

The end face of the supporting block is provided with an I-shaped clamping groove used for penetrating through I-shaped steel, the clamping groove penetrates through two side walls of the top of the supporting steel column from the supporting block, and the top face of the supporting block is provided with at least two square clamping holes communicated with the clamping groove.

The bottom of the I-steel penetrates through the two limiting blocks on the supporting plate, the top surface of the I-steel is provided with a plurality of spring grooves matched with the clamping holes, springs are fixed on the inner bottom surfaces of the spring grooves, triangular clamping blocks are fixed on the top surfaces of the springs, and the inclined planes of the clamping blocks face towards the same direction.

The climbing grooves are distributed on the outer side wall of the supporting steel column at equal intervals, the bottom ends of the climbing grooves are fixedly provided with extension plates, the climbing grooves are connected with storage assemblies in the inner cavity of the supporting steel column, and the climbing grooves are provided with protection assemblies outside the supporting steel column.

The accommodating assembly is composed of a moving plate matched with the end face of the climbing groove, a telescopic rod fixed on the inner side wall of the moving plate and rebounders respectively arranged on the upper portion and the lower portion of the telescopic rod, one end face of the telescopic rod is fixed in an inner cavity of the supporting steel column, and the other end face of the telescopic rod is fixedly connected with the middle portion of the side wall face of the moving plate.

The protective assembly is composed of a protective cover covering the outer portion of the climbing groove and a sliding groove formed in the supporting steel column, the protective cover is of a U-shaped structure, a panel of the protective cover is larger than the end face of the climbing groove, and two side plates of the protective cover are movably arranged in the sliding groove formed in the front wall face and the rear wall face of the supporting steel column.

The invention has the following beneficial effects:

1. according to the invention, the clamping groove on the supporting block, the spring on the I-steel, the clamping block and the limiting block on the supporting plate are matched for use, when the I-steel is inserted into the clamping groove, the clamping block is contacted with the top surface of the clamping groove, the clamping block moves downwards into the spring groove through the spring under the extrusion of the supporting block, the I-steel is inserted into the clamping groove, after the I-steel moves to a specified position, the clamping block is upwards clamped with the clamping hole on the supporting block under the resilience force of the spring, the bottom of the I-steel is clamped with the limiting blocks on the supporting plate, and then the bolt is inserted into the through hole on the limiting block and is screwed tightly, so that the I-steel is fixed by the limiting block, and.

2. According to the invention, the base, the insertion blocks, the clamping rods, the fixing rods and the connecting plates are arranged, the base is fixed in a foundation in advance through the insertion blocks at the bottom of the base, then concrete is poured on the outer side of the loop bars fixed at the top of the base, so that the base is fixed, then the clamping rods and the loop bars are in one-to-one correspondence and inserted, the connecting plates and the supporting steel columns welded at the tops of the connecting plates can be fixed on the base, and the fixing of the supporting steel columns is realized; when supporting steel column and base separation, only need break up near the concrete of connecting plate, with the block pole take out from the loop bar can, effectively solved the problem of steel construction post and concrete separation difficulty.

3. According to the invention, through the arrangement of the protective cover, the sliding groove, the movable plate, the telescopic rod, the rebounders and the climbing groove, when the supporting steel column needs to be installed and maintained, the protective cover is pulled to slide upwards in the sliding groove, the movable plate covered on the inner side of the protective cover is exposed, the movable plate is pressed, the movable plate moves towards the inner cavity of the supporting steel column through the shortening of the telescopic rod under the action of external force, the climbing groove is exposed through the operation of the two rebounders, the movable plate and the magnetic suction block on the rebounders are adsorbed and fixed, a worker can climb on the supporting steel column by stepping on the extension plate in the climbing groove without climbing equipment, and the climbing problem of the indoor beam column is effectively solved.

Drawings

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

FIG. 2 is a schematic structural view of a fastening assembly and a fixing assembly according to the present invention;

FIG. 3 is a side view structural diagram of the connection of the support block and the I-beam in the present invention;

FIG. 4 is a schematic end view of a connection structure of an I-steel and a limiting block in the invention;

FIG. 5 is a sectional end view of the I-steel and support block connection structure of the present invention;

FIG. 6 is a side view of the receiving assembly of the present invention;

the reference numbers in the figures denote:

1. supporting a steel column; 2. clamping the assembly; 201. a connecting plate; 202. a clamping rod; 203. a loop bar; 3. a fixing assembly; 301. a base; 302. inserting a block; 4. a support assembly; 401. a support block; 402. a support plate; 403. a limiting block; 404. a bolt; 405. a clamping groove; 406. a clamping hole; 5. a steel beam assembly; 501. i-shaped steel; 502. a spring slot; 503. a spring; 504. a clamping block; 6. a guard assembly; 601. a protective cover; 602. a chute; 7. a receiving assembly; 701. moving the plate; 702. a telescopic rod; 703. a rebounder; 8. a climbing assembly; 801. climbing a groove; 802. an extension board.

Detailed Description

The invention is described in detail below with reference to the figures and the specific embodiments.

Referring to fig. 1 to 6, the steel structure beam column includes a supporting steel column 1, a clamping component 2 disposed at the bottom of the supporting steel column 1, a fixing component 3 for connecting the clamping component 2, a supporting component 4 disposed at the top of the supporting steel column 1, a steel beam component 5 inserted into the supporting steel column 1 and the supporting component 4, and a plurality of climbing components 8 disposed on the side wall of the supporting steel column 1; the clamping assembly 2 is composed of a connecting plate 201, clamping rods 202 and sleeve rods 203, the connecting plate 201 is fixed at the bottom of the supporting steel column 1, the bottom of the connecting plate 1 is provided with a plurality of clamping rods 202, and the sleeve rods 203 are movably arranged outside the clamping rods 202; the fixing component 3 is composed of a base 301 and inserting blocks 302, the base 301 is fixed at the bottom of the loop bar 203, and the inserting blocks 302 are fixed at the lower part of the base 301; the supporting component 4 comprises supporting blocks 401 fixed on two sides of the supporting steel column 1, a supporting plate 402 fixed on the lower part of the supporting blocks 401, and a limiting block 403 arranged on the supporting plate 402; the steel beam assembly 5 comprises an I-shaped steel 501, a spring groove 502, a spring 503 and a fixture block 504, wherein the I-shaped steel 501 is spliced with the supporting steel column 1 and the supporting block 401; the climbing assembly 8 is composed of a plurality of climbing grooves 801 arranged on the side walls of the supporting steel columns 1 and extension plates 802 arranged inside the climbing grooves 801.

The supporting steel column 1 is of a rectangular structure, the bottom surface of the supporting steel column 1 is welded with the top surface of the connecting plate 201, a plurality of strip-shaped clamping rods 202 are uniformly distributed on the bottom surface of the connecting plate 201, and sleeve rods 203 are sleeved outside the clamping rods 202.

The loop bar 203 is of a circular tube type structure, the bottom surface of the loop bar 203 is undetachably connected with the top surface of the base 301, a plurality of inserting blocks 302 are uniformly distributed on the bottom surface of the base 301, and the bottoms of the inserting blocks 302 are of a conical structure.

The supporting block 401 is of a rectangular structure, the supporting blocks 401 are symmetrically fixed on two side walls of the top surface of the supporting steel column 1, a supporting plate 402 is fixed on the bottom surface of the supporting block 401, the length of the supporting plate 402 is greater than that of the supporting block 401, the supporting plate 402 extends outwards from the bottom surface of the supporting block 401, and two limiting blocks 403 are fixed on the top surface of the extending portion of the supporting plate 402.

The limiting blocks 403 are in an "L" type plate-shaped structure, the two limiting blocks 403 are symmetrically arranged on the top surface of the supporting plate 402, one side plate of the limiting blocks 403 is vertically and fixedly connected with the top surface of the supporting plate 402, the other side plate of the limiting blocks 403 is parallel to the top surface of the supporting plate 402, and a plurality of through holes for passing through the bolts 404 are formed in the side plates of the limiting blocks 403 parallel to the top surface of the supporting plate 402.

The end face of the supporting block 401 is provided with an I-shaped clamping groove 405 for penetrating through the I-shaped steel 501, the clamping groove 405 penetrates through two side walls of the top of the supporting steel column 1 from the supporting block 401, and the top face of the supporting block 401 is provided with at least two square clamping holes 406 communicated with the clamping groove 405.

The bottom of the I-shaped steel 501 penetrates through the two limiting blocks 403 on the supporting plate 402, a plurality of spring grooves 502 matched with the clamping holes 406 are formed in the top surface of the I-shaped steel 501, springs 503 are fixed on the inner bottom surfaces of the spring grooves 502, triangular clamping blocks 504 are fixed on the top surfaces of the springs 503, and the inclined surfaces of the clamping blocks 504 face towards the same direction.

The climbing grooves 801 are distributed on the outer side wall of the supporting steel column 1 at equal intervals, the bottom ends of the climbing grooves 801 are fixedly provided with extension plates 802, the climbing grooves 801 are connected with the containing assemblies 7 in the inner cavity of the supporting steel column 1, and the climbing grooves 801 are provided with the protection assemblies 6 outside the supporting steel column 1.

The containing assembly 7 is composed of a moving plate 701 matched with the end face of the climbing groove 801, an expansion link 702 fixed on the inner side wall of the moving plate 701 and rebounders 703 respectively arranged on the upper portion and the lower portion of the expansion link 702, one end face of the expansion link 702 is fixed in the inner cavity of the support steel column 1, and the other end face of the expansion link 702 is fixedly connected with the middle portion of the side wall face of the moving plate 701.

The protection assembly 6 is composed of a protection cover 601 covering the exterior of the climbing groove 801 and a sliding groove 602 arranged on the support steel column 1, the protection cover 601 is in a U-shaped structure, the panel of the protection cover 601 is larger than the end face of the climbing groove 801, and two side plates of the protection cover 601 are movably arranged in the sliding groove 602 arranged on the front wall face and the rear wall face of the support steel column 1.

The working principle of the invention is as follows:

when the invention is used, firstly, a base 301 is fixed in a foundation through an inserting block 302 arranged at the bottom end of the base 301, a loop bar 203 is fixed on the top surface of the base 301, concrete is poured on the outer side of the loop bar 203, the base 301 is fixed, a plurality of clamping rods 202 fixed at the bottom of a connecting plate 201 are inserted into corresponding loop bars 203, the connecting plate 201 and a supporting steel column 1 welded at the top end of the connecting plate are fixed on the base 301, so that the supporting steel column 1 is fixed in the concrete, when an I-steel 501 is inserted into a clamping groove 405 formed in a supporting block 401, the clamping groove 405 is contacted with the clamping block 504, so that the supporting block 401 extrudes the clamping block 504, the clamping block 504 moves downwards through the contraction of a spring 503 under extrusion, the clamping block 504 is retracted into the spring groove 502, the I-steel 501 is inserted into the clamping groove 405 and sequentially passes through the supporting block 401, the supporting steel 1 and the supporting block 401, and after the, the spring groove 502 on the I-shaped steel 501 corresponds to the position of the clamping hole 406 on the top surface of the supporting block 401, the clamping block 504 moves upwards under the resilience force of the spring 503, the clamping block 504 further moves into the clamping hole 406 to be clamped with the supporting block 401, the bottom end of the I-shaped steel 501 is clamped with the limiting block 403 arranged on the supporting plate 402, then the bolt 404 is inserted into the through hole on the limiting block 403 and the bolt 404 is screwed, so that the I-shaped steel 501 is fixed by the limiting block 403; when the supporting steel column 1 needs to be climbed, the protective cover 601 is pulled to enable the protective cover 601 to upwards slide in the sliding groove 602, so that the movable plate 701 covered by the protective cover 601 is exposed, the movable plate 701 is pressed, the movable plate 701 moves into the inner cavity of the supporting steel column 1 through the contraction of the telescopic rod 702 under the action of external force, the movable plate 701 and the magnetic attraction blocks on the rebounders 703 are adsorbed and fixed through the operation of the two rebounders 703, the climbing groove 801 is exposed at the moment, and a worker can climb on the climbing groove 801 and the extension plate 802 on the supporting steel column 1 by stepping on the feet without climbing equipment; when the supporting steel column 1 needs to be separated from the base 301, the concrete near the connecting plate 201 needs to be broken up, and the clamping rod 202 needs to be pulled out from the loop bar 203.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes performed by the present specification and drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. The utility model provides a steel structure beam column which characterized in that: the climbing device comprises a supporting steel column (1), a clamping component (2) arranged at the bottom of the supporting steel column (1), a fixing component (3) used for connecting the clamping component (2), a supporting component (4) arranged at the top of the supporting steel column (1), a steel beam component (5) spliced with the supporting steel column (1) and the supporting component (4), and a plurality of climbing components (8) arranged on the side wall of the supporting steel column (1); the clamping assembly (2) is composed of a connecting plate (201), clamping rods (202) and sleeve rods (203), the connecting plate (201) is fixed at the bottom of the supporting steel column (1), the bottom of the connecting plate (1) is provided with a plurality of clamping rods (202), and the sleeve rods (203) are movably arranged outside the clamping rods (202); the fixing component (3) is composed of a base (301) and inserting blocks (302), the base (301) is fixed at the bottom of the loop bar (203), and the inserting blocks (302) are fixed at the lower part of the base (301); the supporting component (4) comprises supporting blocks (401) fixed on two sides of the supporting steel column (1), supporting plates (402) fixed on the lower portions of the supporting blocks (401), and limiting blocks (403) arranged on the supporting plates (402); the steel beam assembly (5) comprises an I-shaped steel (501) spliced with the supporting steel column (1) and the supporting block (401), a spring groove (502) formed in the top of the I-shaped steel (501), a spring (503) fixed in the spring groove (502) and a clamping block (504) arranged on the upper portion of the spring (503); the climbing assembly (8) comprises a plurality of climbing grooves (801) arranged on the side walls of the supporting steel columns (1) and extension plates (802) arranged inside the climbing grooves (801).

2. A steel structural beam column as claimed in claim 1, wherein: the supporting steel column (1) is of a rectangular structure, the bottom surface of the supporting steel column (1) is welded with the top surface of the connecting plate (201), a plurality of strip-shaped clamping rods (202) are uniformly distributed on the bottom surface of the connecting plate (201), and sleeve rods (203) are sleeved outside the clamping rods (202).

3. A steel structural beam column as claimed in claim 2, wherein: the loop bar (203) is of a circular tube type structure, the bottom surface of the loop bar (203) is undetachably connected with the top surface of the base (301), a plurality of inserting blocks (302) are uniformly distributed on the bottom surface of the base (301), and the bottoms of the inserting blocks (302) are of conical structures.

4. A steel structural beam column as claimed in claim 1, wherein: the supporting blocks (401) are of a rectangular structure, the supporting blocks (401) are symmetrically fixed on two side walls of the top face of the supporting steel column (1), supporting plates (402) are fixed on the bottom face of the supporting blocks (401), the length of each supporting plate (402) is larger than that of each supporting block (401), the supporting plates (402) extend outwards from the bottom face of the supporting blocks (401), and two limiting blocks (403) are fixed on the top face of the extending portion of each supporting plate (402).

5. The steel structure beam column as claimed in claim 4, wherein the limiting blocks (403) are in L-shaped plate structures, the two limiting blocks (403) are symmetrically arranged on the top surface of the support plate (402), one side plate of each limiting block (403) is vertically and fixedly connected with the top surface of the support plate (402), the other side plate of each limiting block (403) is parallel to the top surface of the support plate (402), and a plurality of through holes for passing through the bolts (404) are formed in the side plate of each limiting block (403) parallel to the top surface of the support plate (402).

6. A steel structural beam column as claimed in claim 4, wherein: the end face of the supporting block (401) is provided with an I-shaped clamping groove (405) used for penetrating through the I-shaped steel (501), the clamping groove (405) penetrates through two side walls of the top of the supporting steel column (1) from the supporting block (401), and the top face of the supporting block (401) is provided with at least two square clamping holes (406) communicated with the clamping groove (405).

7. A steel structural beam column as claimed in claim 6, wherein: the bottom of the I-shaped steel (501) penetrates through the two limiting blocks (403) on the supporting plate (402), the top surface of the I-shaped steel (501) is provided with a plurality of spring grooves (502) matched with the clamping holes (406), the inner bottom surface of each spring groove (502) is fixed with a spring (503), the top surface of each spring (503) is fixed with a triangular clamping block (504), and the inclined surfaces of the clamping blocks (504) face towards the same direction.

8. A steel structural beam column as claimed in claim 1, wherein: the climbing grooves (801) are distributed on the outer side wall of the supporting steel column (1) at equal intervals, the bottom ends of the climbing grooves (801) are fixedly provided with extension plates (802), the climbing grooves (801) are connected with storage assemblies (7) in the inner cavity of the supporting steel column (1), and the climbing grooves (801) are provided with protection assemblies (6) outside the supporting steel column (1).

9. A steel structural beam column as claimed in claim 8, wherein: the accommodating assembly (7) is composed of a moving plate (701) matched with the end face of the climbing groove (801), an expansion link (702) fixed on the inner side wall of the moving plate (701) and rebounders (703) respectively arranged on the upper portion and the lower portion of the expansion link (702), one end face of the expansion link (702) is fixed in an inner cavity of the supporting steel column (1), and the other end face of the expansion link (702) is fixedly connected with the middle portion of the side wall face of the moving plate (701).

10. A steel structural beam column as claimed in claim 8, wherein: the protective assembly (6) is composed of a protective cover (601) covering the outside of the climbing groove (801) and a sliding groove (602) formed in the supporting steel column (1), the protective cover (601) is of a U-shaped structure, the panel of the protective cover (601) is larger than the end face of the climbing groove (801), and two side plates of the protective cover (601) are movably arranged in the sliding groove (602) formed in the front wall face and the rear wall face of the supporting steel column (1).