CN215828151U - Hanging bracket structure capable of being freely disassembled and assembled - Google Patents

Abstract

The utility model discloses a hanging bracket structure capable of being freely disassembled and assembled, which comprises a hanging bracket device consisting of a plurality of groups of structural units, and I-beams and angle steels forming the structural units, wherein the I-beams comprise a first transverse I-beam, a first vertical I-beam, a second transverse I-beam, a third transverse I-beam and a first vertical I-beam, the angle steels comprise a first angle steel, a second angle steel and a third angle steel, the first transverse I-beam is provided with stiffening ribs and is equidistantly arranged on the first transverse I-beam, the first transverse I-beam is at least provided with two transverse I-beams, the first vertical I-beam is at least provided with 2 vertical I-beams, one end of the first vertical I-beam is connected with one first transverse I-beam, the other end of the first transverse I-beam is connected with the other first transverse I-beam, and the first vertical I-beam is fixed at two ends of the first transverse I-beams, and the first vertical I-beam is at least provided with 2 vertical I-beams. The utility model provides a hanging bracket with a structure unit capable of being freely assembled into a proper size according to engineering requirements, the structure unit can be repeatedly used, and the assembly process is simple.

Description

Hanging bracket structure capable of being freely disassembled and assembled

Technical Field

The utility model belongs to the technical field of hanger structures, and particularly relates to a hanger structure capable of being freely disassembled and assembled.

Background

In order to ensure that the components can be stably and safely lifted in the lifting process in engineering, auxiliary tools are required to be used for lifting. The use of gallows structure is common auxiliary assembly in the engineering field, has work efficiency height, laborsaving characteristics. The conventional hanger structure is generally designed according to the size required by a project, and some members in the hanger cannot be applied to the next project after the project is finished, so that resource waste is generated. Therefore, a hanger structure and an assembling method capable of being disassembled and assembled freely are provided to solve the above mentioned problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides a hanging bracket structure capable of being freely disassembled and assembled, which provides a hanging bracket with a structural unit capable of being freely assembled into a proper size according to engineering requirements, the structural unit can be repeatedly utilized, and the assembling process is simple.

The technical scheme of the utility model is realized as follows:

a hanging bracket structure capable of being freely disassembled and assembled comprises a hanging bracket device consisting of a plurality of groups of structural units, I-shaped steels and angle steels, wherein the I-shaped steels comprise a first transverse I-shaped steel, a first vertical I-shaped steel, a second transverse I-shaped steel, a third transverse I-shaped steel and a first vertical I-shaped steel, the angle steels comprise a first angle steel, a second angle steel and a third angle steel, the first transverse I-shaped steel is provided with stiffening ribs and is equidistantly arranged on the first transverse I-shaped steel, at least two transverse I-shaped steels are arranged, the first vertical I-shaped steel is provided with at least 2 vertical I-shaped steels, one end of the first vertical I-shaped steel is connected with one first transverse I-shaped steel, the other end of the first vertical I-shaped steel is connected with the other first transverse I-shaped steel and is fixed at two ends of the first transverse I-shaped steels, at least 2 vertical I-shaped steels are arranged, and one end of the first vertical I-shaped steel is connected with the third transverse I-shaped steel, the other end is connected with the stiffening rib at middle part, two be equipped with coupling assembling between the vertical I-steel one, coupling assembling includes lead screw, steel sheet and nut, the steel sheet is equipped with 2 at least, and one of them is fixed on horizontal I-steel three, and another piece is fixed on horizontal I-steel two, the one end of lead screw is passed through nut and the steel sheet fixed connection on horizontal I-steel three, and the other end passes through the nut and is connected with the steel sheet on horizontal I-steel two.

In the hanging bracket structure capable of being freely disassembled and assembled, at least 12 first angle steels are arranged, at least 2 second angle steels are arranged, each first vertical I-steel is provided with six first angle steels, one end of each first angle steel is welded on the first transverse I-steel, the other end of each first angle steel is welded on the third transverse I-steel, and the first angle steels are obliquely arranged.

In the hanging bracket structure capable of being freely disassembled and assembled, one end of the second angle steel is welded at the bottom of the first transverse I-shaped steel, the other end of the second angle steel is fixed at the top of the first transverse I-shaped steel, the second angle steel is obliquely arranged, and the third angle steel is used for connecting the intersection point of the two I-shaped steels.

In the hanging bracket structure capable of being freely disassembled and assembled, the transverse I-beam is located at the upper parts of the transverse I-beam I, the vertical I-beam I and the vertical I-beam I to form a triangular cone expanding structure, and the length of the transverse I-beam I is smaller than that of the transverse I-beam I.

In the hanging bracket structure capable of being freely disassembled and assembled, the length of the first vertical I-beam is smaller than that of the first transverse I-beam, the sections of the first angle steel and the second angle steel are both V-shaped, and the stiffening ribs on the side face of the first web plate of the vertical I-beam and the first web plate of the transverse I-beam are aligned to form a plurality of continuous rectangular frames.

In the hanging bracket structure capable of being freely disassembled and assembled, the first vertical I-steel is vertically welded in the middle of the stiffening rib, and the second transverse I-steel is placed below the bottom frame and vertically crossed with the first vertical I-steel.

In the freely detachable and assembled hanger structure, the hanger device is at least provided with 2 structural units, a first transverse I-shaped steel between the two structural units is inserted into a hollow rectangular steel pipe and is fixedly spliced by high-strength bolts, the transverse I-shaped steels on the long sides of the two sides are connected by an I-steel connecting plate, and the transverse I-steel on the bottoms of the two structural units is fixed by a double-purpose I-steel connecting plate.

In the hanging bracket structure capable of being freely disassembled and assembled, after the two structural units are spliced, two adjacent vertexes are connected in the horizontal and vertical directions by I-shaped steel.

The splicing mode of the hanging bracket structure capable of being freely disassembled and assembled comprises the following steps:

1) firstly, selecting two transverse I-beams I with the same length, two vertical I-beams I with the same length and stiffening ribs with the same length as the vertical I-beams I;

2) then welding two ends of the first two vertical I-beams to two ends of the first transverse I-beam, and welding the three stiffening ribs on the first transverse I-beam at equal intervals;

3) after the process is finished, welding one end of the first vertical I-steel on the stiffening rib, and welding the bottom of the third transverse I-steel on the end part of the first vertical I-steel;

4) after the transverse I-shaped steel III is welded, fixing steel plates on the upper part of the transverse I-shaped steel III and the transverse I-shaped steel II in sequence, and fixedly connecting the steel plates by using a screw rod and a nut;

5) after the process is finished, sequentially splicing the first angle steel, the second angle steel and the third angle steel;

6) the process is repeated, so that two same structural units are produced, and the structural units are connected and fixed by the I-shaped steel connecting plates to form the hanger device.

The hanging bracket structure which can be freely disassembled and assembled has the following beneficial effects:

1) the arrangement of the stiffening ribs ensures that the bottom of the structural unit body is a rectangular frame, thereby greatly improving the stability of the hoisting body.

2) The connection of the transverse I-shaped steel III and the vertical I-shaped steel I forms a triangular cone expanding structure, and the load bearing capacity of the structural unit is improved.

3) Due to the arrangement of the connecting assembly, the stability of the transverse I-shaped steel III is improved, and the integral stability of the hanging bracket is ensured.

4) The phenomenon that one hanger is used in one project can be avoided, and the requirements of different projects are met.

5) The hanging bracket can be freely combined into a proper hanging bracket according to the sizes of the hanging brackets required by different projects.

6) The structural unit can be repeatedly utilized, so that resources are saved, the cost is reduced, and the assembly process is simple.

Drawings

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

FIG. 2 is a schematic front view of a structural unit according to the present invention;

FIG. 3 is a schematic side view of a structural unit of the present invention;

FIG. 4 is a schematic top view of a structural unit of the present invention;

fig. 5 a is a schematic structural view of the connecting member of the present invention, and b is a top view of the connecting member;

in FIG. 6, a and b are both schematic diagrams of I-steel connecting plates in the utility model;

FIG. 7 is a schematic structural view of a high-strength bolt according to the present invention;

FIG. 8 is a schematic view of the horizontal connection of vertices in the present invention;

FIG. 9 is a schematic view of the vertical connection of the vertices of the present invention;

FIG. 10 is a schematic diagram of the splicing of the long sides of two structural units according to the present invention;

FIG. 11 is a schematic diagram showing the splicing of the short sides of two structural units according to the present invention;

fig. 12 is an assembly view of the hanger device of the present invention.

In the figure: the steel plate comprises a first transverse I-steel, a first vertical I-steel, a first angle steel 3, a second transverse I-steel, a second steel plate 5, a second angle steel 6, a lead screw 7, a third transverse I-steel, a first vertical I-steel 9, a connecting assembly 10, a 12I-steel connecting plate, a third angle steel 13 and a hollow rectangular steel pipe 14.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

The hanging bracket structure capable of being freely disassembled and assembled, which is disclosed by the utility model and is shown in the figures 1-12, comprises a hanging bracket device formed by a plurality of groups of structural units, and I-shaped steel and angle steel forming the structural units, wherein the I-shaped steel comprises a first transverse I-shaped steel 1, a first vertical I-shaped steel 2, a second transverse I-shaped steel 4, a third transverse I-shaped steel 8 and a first vertical I-shaped steel 9, the angle steel comprises a first angle steel 3, a second angle steel 6 and a third angle steel 13, the first transverse I-shaped steel 1 is provided with stiffening ribs, the stiffening ribs are arranged to ensure the integral stability and are arranged on the first transverse I-shaped steel 1 at equal intervals, at least two transverse I-shaped steels 1 are arranged, the first vertical I-shaped steel 2 is at least provided with 2, one end of the first vertical I-shaped steel 2 is connected with the first transverse I-shaped steel 1, the other end of the first transverse I-shaped steel is connected with the other transverse I-shaped steel 1 and is fixed at the two ends of the first transverse I-shaped steel 1, the first vertical I-beam 9 is provided with at least 2 pieces, one end of the first vertical I-beam 9 is connected with the third transverse I-beam 8, the other end of the first vertical I-beam 9 is connected with the stiffening rib at the middle part, a connecting assembly 10 is arranged between the first vertical I-beam 9, the arrangement of the connecting assembly 10 enables the whole device to be partially disassembled and installed, the applicability is improved, the connecting assembly 10 comprises a screw rod 7, a steel plate 5 and a nut, the steel plate 5 is provided with at least 2 pieces, one piece is fixed on the third transverse I-beam 8, the other piece is fixed on the second transverse I-beam 4, one end of the screw rod 7 is fixedly connected with the steel plate 5 on the third transverse I-beam 8 through the nut, the other end of the screw rod is connected with the steel plate on the second transverse I-beam 4 through the nut, the first angle steel 3 is provided with at least 12 pieces, the second angle steel 6 is provided with at least 2 pieces, each first vertical I-beam 2 is provided with six first angle steels 3, one end of each first angle steel 3 is welded on the first transverse I-beam 1, the other end of the first angle steel 3 is welded on a third transverse H-beam 8, the first angle steel 3 is obliquely arranged, the hoisting stability is guaranteed, one end of the second angle steel 6 is welded at the bottom of the third transverse H-beam 8, the other end of the second angle steel 6 is fixed at the top of the first transverse H-beam 1, the second angle steel 6 is obliquely arranged, the third angle steel 13 is used for connecting the intersection point of the two H-beams, the third transverse H-beam 8 is positioned at the upper parts of the first transverse H-beam 1, the first vertical H-beam 2 and the first vertical H-beam 9 and is constructed into a triangular cone expanding structure, the arrangement of the triangular cone expanding structure enables the local stability to be improved, the length of the third transverse H-beam 8 is smaller than that of the first transverse H-beam 1, the length of the first vertical H-beam 2 is smaller than that of the first transverse H-beam 1, the sections of the first angle steel 3 and the second angle steel 6 are V-shaped, the V-shaped arrangement guarantees the support stability, stiffening ribs on the side surfaces of the first vertical H-beam 2 and the first transverse H-beam web plates are aligned to form a plurality of continuous I-beams The lifting frame device comprises a rectangular frame, a first vertical I-steel is vertically welded in the middle of a stiffening rib, a second transverse I-steel is placed below the bottom frame and vertically crossed with the first vertical I-steel, the lifting frame device is at least provided with 2 structural units, a first transverse I-steel 1 between the two structural units is inserted into a hollow rectangular steel pipe 14 and fixedly spliced by high-strength bolts, a first transverse I-steel 1 on the long edges of two sides is connected by an I-steel connecting plate 12, a second transverse I-steel 4 on the bottoms of the two structural units is fixed by an I-steel connecting plate 12, two adjacent vertexes are horizontal after the two structural units are spliced, and the I-steel is connected in the vertical direction.

The splicing method comprises the following steps:

1) firstly, selecting two transverse I-beams 1 with the same length, two vertical I-beams 2 with the same length and stiffening ribs with the same length as the vertical I-beams 2;

2) then welding two ends of the first vertical I-beam 2 on two ends of the first transverse I-beam 1, and welding the three stiffening ribs on the first transverse I-beam 1 at equal intervals;

3) after the process is finished, welding one end of the vertical I-steel I2 on the stiffening rib, and welding the bottom of the transverse I-steel I8 on the end part of the vertical I-steel I2;

4) after the third transverse I-beam 8 is welded, fixing a steel plate 5 on the upper part of the third transverse I-beam 8 and the second transverse I-beam 4 in sequence, and fixedly connecting the steel plates by a screw rod 7 and a nut;

5) after the process is finished, sequentially splicing the first angle steel 3, the second angle steel 6 and the third angle steel 13;

6) the process is repeated, so that two identical structural units are produced, and are connected and fixed by the I-steel connecting plate 12, and the hanger device is formed.

The working principle of the utility model is as follows: splice through the I-shaped steel of different length to set the bottom to a plurality of continuous rectangular frame, and set to the triangular pyramid extending structure, and weld the concatenation with angle steel and No. two angle steel, guaranteed holistic stability, and connect through hollow rectangle steel pipe between the constitutional unit, guaranteed the holistic stability of structure. Thus, the object of the present invention has been accomplished.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (9)

1. A hanging bracket structure capable of being freely disassembled and assembled comprises a hanging bracket device consisting of a plurality of groups of structural units, and I-beams and angle steels forming the structural units, and is characterized in that the I-beams comprise a first transverse I-beam, a first vertical I-beam, a second transverse I-beam, a third transverse I-beam and a first vertical I-beam, the angle steels comprise a first angle steel, a second angle steel and a third angle steel, the first transverse I-beam is provided with stiffening ribs and is equidistantly arranged on the first transverse I-beam, at least two transverse I-beams are arranged, the first vertical I-beam is provided with at least 2 vertical I-beams, one end of the first vertical I-beam is connected with one first transverse I-beam, the other end of the first vertical I-beam is connected with the other first transverse I-beam and is fixed at two ends of the first transverse I-beams, at least 2 vertical I-beams are arranged at least, and one end of the first vertical I-beam is connected with the third transverse I-beam, the other end is connected with the stiffening rib at middle part, two be equipped with coupling assembling between the vertical I-steel one, coupling assembling includes lead screw, steel sheet and nut, the steel sheet is equipped with 2 at least, and one of them is fixed on horizontal I-steel three, and another piece is fixed on horizontal I-steel two, the one end of lead screw is passed through nut and the steel sheet fixed connection on horizontal I-steel three, and the other end passes through the nut and is connected with the steel sheet on horizontal I-steel two.

2. The hanging bracket structure capable of being freely disassembled and assembled according to claim 1, wherein at least 12 first angle steels are provided, at least 2 second angle steels are provided, each first vertical I-steel is provided with six first angle steels, one end of each first angle steel is welded on the first transverse I-steel, the other end of each first angle steel is welded on the third transverse I-steel, and the first angle steels are obliquely arranged.

3. The hanging bracket structure capable of being freely disassembled and assembled as claimed in claim 2, wherein one end of the second angle steel is welded at the bottom of the first transverse I-shaped steel, the other end of the second angle steel is fixed at the top of the first transverse I-shaped steel, the second angle steel is arranged in an inclined mode, and the third angle steel is used for connecting the intersection point of the two I-shaped steels.

4. The freely detachable and assemblable hanger structure according to claim 1, wherein the third transverse i-beam is located at an upper portion of the first transverse i-beam, the first vertical i-beam and the first vertical i-beam, and is configured as a triangular cone expanding structure, and the length of the third transverse i-beam is smaller than that of the first transverse i-beam.

5. The freely detachable and assemblable hanger structure according to claim 1, wherein the joint between the first vertical h-beam and the second horizontal h-beam is fixed by high-strength bolts, and the stiffening rib is provided with at least 3 stiffening ribs and is arranged between the first two vertical h-beams.

6. The freely detachable and assemblable hanger structure according to claim 1, wherein the length of the first vertical i-beam is smaller than that of the first transverse i-beam, the first angle steel and the second angle steel are both V-shaped in cross section, and the stiffening ribs on the side of the first web of the vertical i-beam are aligned with the first web of the transverse i-beam to form a plurality of continuous rectangular frames.

7. The freely detachable and assemblable hanger structure according to claim 1, wherein the first vertical i-beam is vertically welded to the middle of the stiffener, and the second horizontal i-beam is placed below the bottom frame and vertically crosses the first vertical i-beam.

8. The freely detachable and assemblable hanger structure as set forth in claim 1, wherein said hanger device has at least 2 structural units, and a first transverse i-beam between two structural units is inserted into the hollow rectangular steel pipe and fixedly spliced by high-strength bolts, the transverse i-beams on the long sides of both sides are connected by i-beam connecting plates, and the transverse i-beams on the bottoms of two structural units are fixed by dual i-beam connecting plates.

9. The freely detachable and assemblable hanger structure according to claim 8, wherein two adjacent apexes of two of said structural units are connected by I-steel in horizontal and vertical directions after splicing.

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