CN116716972A - A steel structure prefabricated building component and a steel structure prefabricated building - Google Patents

Abstract

The invention relates to the technical field of assembled steel structures, and discloses a steel structure assembled building assembly and a steel structure assembled building. This steel construction assembly type building subassembly and steel construction assembly type building, through being provided with the cooperation of transverse connection mechanism and vertical coupling mechanism, transverse connection mechanism makes a plurality of first connecting plates and second connecting plate transverse connection get up, transversely extends this steel construction assembly type building subassembly, and utilizes vertical coupling mechanism, makes a plurality of first connecting plates and second connecting plate vertical connection, makes the vertical extension to this steel construction assembly type building subassembly convenient and firmly, makes the assembly area extension of this steel construction assembly type building subassembly, plays the effect that improves this building subassembly suitability.

Description

A steel structure prefabricated building component and a steel structure prefabricated building

Technical field

The present invention relates to the technical field of prefabricated steel structures, specifically a steel structure prefabricated building component and a steel structure prefabricated building.

Background technique

The steel structure is a natural prefabricated structure. It has the advantages of fast installation, easier construction quality assurance, good seismic performance, low cost, good economy, recyclable steel structure and green environmental protection. Prefabricated buildings refer to prefabricated buildings. A building formed by assembling components on a construction site. The advantages of this kind of building are that it is fast to construct, less subject to climate conditions, saves labor and improves construction quality.

According to the announcement number CN107254913A, a steel structure prefabricated building component and a steel structure prefabricated building are disclosed, including a prefabricated plate and an I-beam connecting plate that is snap-connected to one side of the prefabricated plate. The prefabricated plate is snap-connected to the I-beam connecting plate. One side is provided with at least one first slot and at least one first protrusion extending along its length direction, and the other side is provided with a second protrusion that can be engaged with the first protrusion and a second protrusion that can be engaged with the first protrusion. In the second snap-in slot, the I-beam connecting plate is provided with snap-in holes corresponding to the first bump and the second bump.

The above technical solution has the advantages of simple structure, convenient assembly and fast assembly speed. At the same time, the assembled building structure has high strength and good stability. However, the above technical solution only connects multiple I-beam connecting plates horizontally and transversely. The steel structure prefabricated building component can only be extended horizontally and transversely, but cannot extend the width of the building component, which greatly reduces the applicability of the building component and requires secondary processing of the building component, thereby affecting the steel structure. Assembly of structural prefabricated buildings.

Contents of the invention

The object of the present invention is to provide a steel structure prefabricated building component and a steel structure prefabricated building to solve the problems raised in the above background technology.

In order to solve the above technical problems, the present invention provides the following technical solution: a steel structure prefabricated building component and a steel structure prefabricated building, including a first connecting plate, and a second connecting plate is provided on the front of the first connecting plate. A transverse connecting mechanism is provided on the outside of the first connecting plate, and a vertical connecting mechanism is provided on the outside of the second connecting plate;

The transverse connection mechanism includes a first connecting I-beam, and the front side of the first connecting plate and the back side of the second connecting plate are respectively in contact with the back side of the first connecting I-beam and the front side of the first connecting I-beam, The back side of the first connecting plate and the front side of the second connecting plate are both provided with second connecting I-beams. The front side of the first connecting plate, the back side of the first connecting plate, the front side of the second connecting plate and the second The back sides of the connecting plates are fixedly connected with connecting horizontal plates. The two sets of connecting horizontal plates are respectively clamped to the inside of the first connecting I-beam and the inside of the two second connecting I-beams. Each of the second connecting plates Two sets of baffles are fixedly connected to the inner wall of the I-beam and the inner wall of the first connecting I-beam, and one side of one set of baffles that are close to each other is in contact with both sides of the connecting horizontal plate respectively;

The vertical connection mechanism includes two sets of connecting blocks. One side of the two groups of connecting blocks that are close to each other is in contact with both sides of the first connecting plate and both sides of the second connecting plate. The first connecting plate has Both sides and both sides of the second connecting plate are provided with snap-in slots. Both sides of each group of connecting blocks are fixedly connected with connecting vertical blocks, and one group of the connecting vertical blocks is clamped inside the snap-in slot. , the front of each group of connecting blocks and the back of each group of connecting blocks are fixedly connected with fastening blocks, and the side of the two groups of fastening blocks that are far away from each other is in contact with the side of the two groups of baffles that are close to each other. Both sides of the first connecting I-beam and both sides of each second connecting I-beam are fixedly connected with extended I-beams, and each group of fastening blocks is clamped inside the extended I-beam.

Preferably, two holes are provided on the upper surface of the first connecting I-beam, the bottom surface of the first connecting I-beam, the upper surface of each second connecting I-beam and the bottom surface of each second connecting I-beam. A set of first threaded holes, each set of second threaded holes arranged equidistantly on the upper surface of the connecting transverse plate, wherein one set of the second threaded holes is connected to the first threaded hole.

Preferably, a first fixing bolt is threadedly connected to the inside of each set of second threaded holes, and the bottom end of each set of first fixing bolts passes through the two first threaded holes and the second threaded hole in sequence and extends to below the first connecting plate.

Preferably, two groups of first connection holes are provided on the upper surface of the first connecting plate, the bottom surface of the first connecting plate, the upper surface of the second connecting plate and the bottom surface of the second connecting plate, and each group of the connecting holes is vertically connected. The upper surface of the block is provided with second connection holes arranged equidistantly, wherein a group of the second connection holes are connected with the first connection holes.

Preferably, the interior of each set of second connection holes is threadedly connected with a second fixing bolt, and the bottom end of each set of second fixing bolts sequentially penetrates the two first connection holes and the second connection hole and extends to the first Below the connection plate.

Preferably, the upper surface of each group of extended I-beams and the bottom surface of each group of extended I-beams are provided with two first mounting holes, and the upper surface of each group of said fastening blocks is provided with two second mounting holes. Mounting holes, wherein a group of the second mounting holes are connected with the first mounting holes.

Preferably, a third fixing bolt is threadedly connected to the inside of each set of second mounting holes, and the bottom end of each set of third fixing bolts passes through the two first mounting holes and the second mounting hole in sequence and extends to the first Below the connection plate.

Preferably, the outer surface of each set of first fixing bolts is threadedly connected with a tightening nut, and the upper surfaces of the two sets of tightening nuts are respectively connected to the bottom surface of the first connecting I-beam and the two second connecting I-beams. The bottom surfaces of the steel are in contact.

Preferably, the outer surface of each group of first fixing bolts is fixedly connected with a connecting ring, the bottom surface of each group of said connecting rings is fixedly connected with a buffer spring, and the inner wall of each group of said buffer springs is connected to the first fixing bolt. The outer surfaces are in contact.

Preferably, the bottom end of each group of buffer springs is fixedly connected with a sliding ring, the inner wall of each group of said sliding rings is in contact with the outer surface of the first fixing bolt, and the bottom surfaces of the two groups of said sliding rings are respectively in contact with the first fixing bolt. The upper surface of the connecting I-beam is in contact with the upper surfaces of the two second connecting I-beams.

Compared with the prior art, the beneficial effects achieved by the present invention are:

The present invention is provided with a horizontal connecting mechanism and a vertical connecting mechanism to connect a plurality of first connecting plates and second connecting plates laterally through the horizontal connecting mechanisms, thereby enabling the steel structure assembled building components to be connected. Laterally extending, the steel structure prefabricated building components can be easily assembled into a steel structure prefabricated building, and the vertical connection mechanism can be used to vertically connect multiple first connecting plates and second connecting plates to facilitate stability. The steel structure prefabricated building components can be vertically extended, so that the assembly area of the steel structure prefabricated building components can be extended and adapted to the construction dimensions of the steel structure prefabricated buildings, thereby improving the applicability of the building components. role.

Description of the drawings

Figure 1 is a schematic three-dimensional structural diagram of the second connecting plate of the present invention;

Figure 2 is a schematic structural diagram of the connecting vertical block of the present invention;

Figure 3 is a schematic structural diagram of the first connecting plate of the present invention;

Figure 4 is a schematic structural diagram of the first connecting I-beam of the present invention;

Figure 5 is a schematic structural diagram of the connection block of the present invention;

Figure 6 is a schematic structural diagram of the first fixing bolt of the present invention.

Among them: 1. First connecting plate; 2. Horizontal connecting mechanism; 201. First connecting I-beam; 202. Second connecting I-beam; 203. Baffle; 204. Connecting horizontal plate; 3. Vertical connecting mechanism ; 301. Connecting block; 302. Connecting vertical block; 303. Snap slot; 304. Extended I-beam; 305. Fastening block; 4. Second connecting plate; 5. First fixing bolt; 6. Second fixing Bolt; 7. Third fixing bolt; 8. First connecting hole; 9. First threaded hole; 10. Second threaded hole; 11. First mounting hole; 12. Second mounting hole; 13. Second connecting hole ; 14. Connecting ring; 15. Buffer spring; 16. Sliding ring; 17. Tightening nut.

Detailed ways

The technical solutions 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. Obviously, the described embodiments are only some of the embodiments of the present invention, rather than all the embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those of ordinary skill in the art without creative efforts fall within the scope of protection of the present invention.

Embodiment 1

Please refer to Figures 1-6. A steel structure prefabricated building component and a steel structure prefabricated building include a first connecting plate 1. A second connecting plate 4 is provided on the front of the first connecting plate 1. A transverse connecting mechanism 2 is provided on the outside, and a vertical connecting mechanism 3 is provided on the outside of the second connecting plate 4;

The transverse connection mechanism 2 includes a first connecting I-beam 201. The front side of the first connecting plate 1 and the back side of the second connecting plate 4 are respectively opposite to the back side of the first connecting I-beam 201 and the front side of the first connecting I-beam 201. In contact, the back side of the first connecting plate 1 and the front side of the second connecting plate 4 are both provided with second connecting I-beams 202. The front side of the first connecting plate 1, the back side of the first connecting plate 1, and the front side of the second connecting plate 4 The front side and the back side of the second connecting plate 4 are both fixedly connected with connecting horizontal plates 204. The two sets of connecting horizontal plates 204 are respectively clamped to the inside of the first connecting I-beam 201 and the inside of the two second connecting I-beams 202. The inner wall of each second connecting I-beam 202 and the inner wall of the first connecting I-beam 201 are fixedly connected with two sets of baffles 203. One side of a set of baffles 203 that are close to each other is respectively connected with two sides of the connecting horizontal plate 204. The sides are in contact, by setting a first connecting I-beam 201 between the first connecting plate 1 and the second connecting plate 4, and setting a second connecting I-beam on both sides of the first connecting plate 1 and the second connecting plate 4. steel 202, and the connecting horizontal plates 204 are fixed on both sides of the first connecting plate 1 and the second connecting plate 4. The connecting horizontal plates 204 can be installed on the first connecting I-beam 201 and the second connecting I-beam 202 using bolts. Inside, it is convenient to connect multiple first connecting plates 1 and second connecting plates 4 laterally in sequence, which plays the role of conveniently extending the lateral dimensions of the steel structure assembled building components;

Two groups are provided on the upper surface of the first connecting I-beam 201, the bottom surface of the first connecting I-beam 201, the upper surface of each second connecting I-beam 202, and the bottom surface of each second connecting I-beam 202. The first threaded hole 9 is provided with equidistantly arranged second threaded holes 10 on the upper surface of each set of connecting horizontal plates 204. One set of the second threaded holes 10 is connected with the first threaded hole 9. During the first connection process, Two sets of first threaded holes 9 are opened on the surface and bottom of the beam 201 and the second connecting I-beam 202, and the connecting transverse plate 204 stuck inside the first connecting I-beam 201 and the second connecting I-beam 202 is opened The second threaded hole 10 is used to facilitate the fixation of the connecting horizontal plate 204 inside the first connecting I-beam 201 and the second connecting I-beam 202;

The interior of each set of second threaded holes 10 is threadedly connected with a first fixing bolt 5 , and the bottom end of each set of first fixing bolts 5 passes through the two first threaded holes 9 and the second threaded hole 10 in sequence and extends to the first Below the connecting plate 1, use the first fixing bolt 5 to pass through the two first threaded holes 9 and the second threaded hole 10, so that the connecting horizontal plate 204 is firmly stuck on the first connecting I-beam 201 and the second connecting tool. The interior of the word steel 202 facilitates the assembly of building components;

The outer surface of each set of first fixing bolts 5 is threadedly connected with a tightening nut 17. The upper surfaces of the two sets of tightening nuts 17 are respectively connected to the bottom surface of the first connecting I-beam 201 and the two second connecting I-beams 202. The bottom surfaces are in contact, and the tightening nut 17 is used to firmly thread the first fixing bolt 5 inside the two first threaded holes 9 and the second threaded hole 10 to improve the connection stability of the first fixing bolt 5;

The outer surface of each set of first fixing bolts 5 is fixedly connected with a connecting ring 14 , the bottom surface of each set of connecting rings 14 is fixedly connected with a buffer spring 15 , and the inner wall of each set of buffer springs 15 is in contact with the outer surface of the first fixing bolt 5 Contact, through the connecting ring 14, the buffer spring 15 is fixed on the outer surface of the first fixing bolt 5, so that the buffer spring 15 can be conveniently used to buffer the impact force of the first fixing bolt 5;

The bottom end of each group of buffer springs 15 is fixedly connected with a sliding ring 16. The inner wall of each group of sliding rings 16 is in contact with the outer surface of the first fixing bolt 5. The bottom surfaces of the two groups of sliding rings 16 are respectively connected with the first connecting I-beam. The upper surface of 201 is in contact with the upper surfaces of the two second connecting I-beams 202, and the sliding ring 16 is used to increase the buffer spring 15 applied to the first connecting I-beam 201 and the two second connecting I-beams. 202 force-bearing area, thereby extending the service life of the buffer spring 15.

The specific implementation method of this embodiment is: when it is necessary to assemble and extend the lateral dimensions of the steel structure prefabricated building components to suit the assembly of the steel structure prefabricated building, first manually place the first connecting I-beam 201 on the horizontal ground. on the first connecting plate 1 and the second connecting plate 4, and use the connecting horizontal plates 204 on both sides of the first connecting plate 1 and the second connecting plate 4 to be stuck inside the first connecting I-beam 201, and use the baffle 203 to make the connecting horizontal plates 204 firmly stuck in the Inside the first connecting I-beam 201, a second connecting I-beam 202 is provided on both sides of the first connecting plate 1 and the second connecting plate 4. In the same way, the connecting transverse plate 204 is firmly stuck on the second connecting I-beam. 202 inside, and use the first fixing bolt 5 to pass through the two first threaded holes 9 and the second threaded hole 10 to make the connecting cross plate 204 firmly stuck on the first connecting I-beam 201 and the second connecting I-beam. 202 inside, so as to facilitate the assembly of building components, continue to twist the first fixing bolt 5, and use the connecting ring 14 and the sliding ring 16 to squeeze the buffer spring 15, so as to use the elastic force accumulated in the buffer spring 15 to tighten the first fixing bolt 5. The impact force received by the bolt 5 is buffered, so that the lateral dimension of the steel structure prefabricated building component can be further stably assembled to be suitable for assembling the steel structure prefabricated building.

Embodiment 2

Please refer to Figures 1-6. The vertical connection mechanism 3 includes two sets of connection blocks 301. One side of the two sets of connection blocks 301 that are close to each other is in contact with both sides of the first connection plate 1 and the two sides of the second connection plate 4 respectively. , both sides of the first connecting plate 1 and both sides of the second connecting plate 4 are provided with snap-in slots 303, and both sides of each group of connecting blocks 301 are fixedly connected with connecting vertical blocks 302, of which one group of connecting vertical blocks 302 Snapped inside the clamping groove 303, the front of each group of connecting blocks 301 and the back of each group of connecting blocks 301 are fixedly connected with fastening blocks 305. The side surfaces of the two groups of fastening blocks 305 that are far away from each other are respectively connected with the two groups of blocks. The sides of the plates 203 that are close to each other are in contact with each other. Both sides of the first connecting I-beam 201 and both sides of each second connecting I-beam 202 are fixedly connected with extended I-beams 304. Each group of fastening blocks 305 is Snapped into the interior of the extended I-beam 304, by providing two sets of connecting blocks 301, the connecting vertical blocks 302 on both sides of the two sets of connecting blocks 301 can be stuck in the snapping grooves 303, and the two sets of connecting blocks 301 can be easily connected. The connection with the first connecting plate 1 and the second connecting plate 4 uses the fastening block 305 to be stuck in the extended I-beam 304 fixed on both sides of the first connecting I-beam 201 and the second connecting I-beam 202. It further facilitates the vertical assembly and extension of the steel structure prefabricated building components, so that multiple first connecting plates 1 and the second connecting plates 4 can be connected vertically in sequence to facilitate the vertical extension of the steel structure prefabricated building components. Effect on size;

Two groups of first connection holes 8 are formed on the upper surface of the first connecting plate 1 , the bottom surface of the first connecting plate 1 , the upper surface of the second connecting plate 4 and the bottom surface of the second connecting plate 4 , and each group connects the vertical blocks 302 There are second connection holes 13 arranged equidistantly on the upper surface, and a group of second connection holes 13 are connected with the first connection holes 8. They are opened by using the surfaces and bottom surfaces of the first connection plate 1 and the second connection plate 4. The first connection hole 8 is provided, and the second connection hole 13 is opened for the vertical connection block 302 stuck in the snap-in groove 303 to facilitate the fixation of the vertical connection block 302 in the snap-in slot 303;

The interior of each set of second connection holes 13 is threadedly connected with a second fixing bolt 6 , and the bottom end of each set of second fixing bolts 6 passes through the two first connection holes 8 and the second connection hole 13 in sequence and extends to the first Below the connecting plate 1, the second fixing bolt 6 is used to pass through the two first connecting holes 8 and the second connecting hole 13 to fix the connecting vertical block 302 in the snap slot 303, thereby facilitating the steel structure. Prefabricated building components are assembled and extended vertically;

The upper surface of each group of extended I-beams 304 and the bottom surface of each group of extended I-beams 304 are provided with two first mounting holes 11 , and the upper surface of each group of fastening blocks 305 is provided with two second mounting holes 12 , wherein a set of second mounting holes 12 are connected with the first mounting holes 11, and then the surface and bottom surface of the extended I-beam 304 are used to open the first mounting holes 11, and the fastening blocks are clamped in the extended I-beam 304. Two second mounting holes 12 are provided on the surface of 305 to facilitate the fixation of the fastening block 305 clamped in the extended I-beam 304;

The interior of each set of second mounting holes 12 is threadedly connected with a third fixing bolt 7 , and the bottom end of each set of third fixing bolts 7 passes through the two first mounting holes 11 and the second mounting holes 12 in sequence and extends to the first Below the connecting plate 1, a third fixing bolt 7 is used to pass through the two first mounting holes 11 and the second mounting hole 12 to facilitate the fixation of the fastening block 305 clamped in the extended I-beam 304, thereby further facilitating The steel structure prefabricated building components are assembled and extended vertically.

The specific implementation method of this embodiment is: when it is necessary to assemble and extend the vertical dimensions of the steel structure prefabricated building components to suit the assembly of the steel structure prefabricated building, first manually place the two sets of connecting blocks 301 on the first On both sides of the connecting plate 1 and the second connecting plate 4, the connecting vertical blocks 302 on both sides of the two sets of connecting blocks 301 are stuck in the snap-in grooves 303, which can facilitate the connection between the two sets of connecting blocks 301 and the first connecting plate 1 and the second connecting plate 4. The second connecting plate 4 is connected, and the second fixing bolt 6 is used to pass through the two first connecting holes 8 and the second connecting hole 13 to fix the connecting vertical block 302 in the snap groove 303, thereby facilitating the The steel structure prefabricated building components are assembled and extended vertically, and the fastening blocks 305 fixed on both sides of the connecting block 301 are used to clamp the extensions fixed on both sides of the first connecting I-beam 201 and the second connecting I-beam 202. inside the I-beam 304, and use the third fixing bolt 7 to pass through the two first mounting holes 11 and the second mounting holes 12 to facilitate the fixation of the fastening block 305 clamped in the extended I-beam 304, thereby further It facilitates the vertical assembly and extension of the steel structure prefabricated building components, and plays the role of properly utilizing the steel structure prefabricated building components to assemble the steel structure prefabricated building.

Embodiment 3

Please refer to Figures 1-6. The specific implementation mode of this embodiment is: when it is necessary to assemble and extend the lateral dimensions of the steel structure prefabricated building components to suit the assembly of the steel structure prefabricated building, first manually connect the first connection work The I-beam 201 is placed on the horizontal ground, and the connecting transverse plates 204 on both sides of the first connecting plate 1 and the second connecting plate 4 are stuck inside the first connecting I-beam 201, and the baffles 203 are used to make the connection The horizontal plate 204 is firmly stuck inside the first connecting I-beam 201, and the second connecting I-beam 202 is provided on both sides of the first connecting plate 1 and the second connecting plate 4. In the same way, the connecting horizontal plate 204 is firmly stuck. Inside the second connecting I-beam 202, and using the first fixing bolt 5 to pass through the two first threaded holes 9 and the second threaded hole 10, the connecting transverse plate 204 is firmly stuck in the first connecting I-beam 201 and the inside of the second connecting I-beam 202 to facilitate the assembly of building components. Continue to twist the first fixing bolt 5, and the connecting ring 14 and the sliding ring 16 can be used to squeeze the buffer spring 15, so as to utilize the inner part of the buffer spring 15. The accumulated elastic force buffers the impact force of the first fixing bolt 5, so that the lateral dimensions of the steel structure prefabricated building components can be further stably assembled and extended to suit the assembly of the steel structure prefabricated building. When it is necessary to assemble and extend the steel structure prefabricated building components, When the vertical dimensions of the structural prefabricated building components are suitable for assembling the steel structure prefabricated building, first manually place the two sets of connecting blocks 301 on both sides of the first connecting plate 1 and the second connecting plate 4 to utilize The connecting vertical blocks 302 on both sides of the two sets of connecting blocks 301 are stuck in the clamping grooves 303, which can facilitate the connection of the two groups of connecting blocks 301 with the first connecting plate 1 and the second connecting plate 4, and use the second fixing bolts 6 Pass through the two first connection holes 8 and the second connection hole 13 to fix the connecting vertical block 302 in the snap slot 303, thereby facilitating the vertical assembly and extension of the steel structure assembled building component, and then using the connection The fastening blocks 305 fixed on both sides of the block 301 can be stuck in the extended I-beam 304 fixed on both sides of the first connecting I-beam 201 and the second connecting I-beam 202, and the third fixing bolt 7 can be used to pass through The two first mounting holes 11 and the second mounting holes 12 are used to facilitate the fixation of the fastening block 305 clamped in the extended I-beam 304, thereby further facilitating the vertical assembly and extension of the steel structure prefabricated building component. It plays the role of being able to properly use steel structure prefabricated building components to assemble the steel structure prefabricated building.

It should be noted that in this article, relational terms such as first and second are only used to distinguish one entity or operation from another entity or operation, and do not necessarily require or imply that these entities or operations are mutually exclusive. any such actual relationship or sequence exists between them. Furthermore, the terms "comprises," "comprises," or any other variations thereof are intended to cover a non-exclusive inclusion such that a process, method, article, or apparatus that includes a list of elements includes not only those elements, but also those not expressly listed other elements, or elements inherent to the process, method, article or equipment.

Finally, it should be noted that the above are only preferred embodiments of the present invention and are not intended to limit the present invention. Although the present invention has been described in detail with reference to the foregoing embodiments, for those skilled in the art, it is still The technical solutions described in the foregoing embodiments may be modified, or some of the technical features may be equivalently replaced. Any modifications, equivalent substitutions, improvements, etc. made within the spirit and principles of the present invention shall be included in the protection scope of the present invention.

Claims (10)

1. A steel structure prefabricated building component and a steel structure prefabricated building, including a first connecting plate (1), and a second connecting plate (4) is provided on the front of the first connecting plate (1), characterized by: : The first connecting plate (1) is provided with a transverse connecting mechanism (2) on the outside, and the second connecting plate (4) is provided with a vertical connecting mechanism (3) on the outside; The transverse connecting mechanism (2) includes a first connecting I-beam (201). The front side of the first connecting plate (1) and the back side of the second connecting plate (4) are respectively connected with the first connecting I-beam (201). ) is in contact with the front side of the first connecting I-beam (201). The back side of the first connecting plate (1) and the front side of the second connecting plate (4) are both provided with second connecting I-beams (202). ), the front side of the first connecting plate (1), the back side of the first connecting plate (1), the front side of the second connecting plate (4) and the back side of the second connecting plate (4) are all fixedly connected with connecting horizontal plates (204), the two sets of connecting horizontal plates (204) are respectively clamped to the inside of the first connecting I-beam (201) and the inside of the two second connecting I-beams (202), and each of the second Two sets of baffles (203) are fixedly connected to the inner wall of the connecting I-beam (202) and the inner wall of the first connecting I-beam (201). The side surfaces of one set of baffles (203) that are close to each other are respectively connected with the inner wall of the connecting I-beam (202). The two sides of the connecting horizontal plate (204) are in contact; The vertical connection mechanism (3) includes two groups of connecting blocks (301). One side of the two groups of connecting blocks (301) that are close to each other is respectively connected with both sides of the first connecting plate (1) and the second connecting plate ( 4) are in contact with each other, and both sides of the first connecting plate (1) and the second connecting plate (4) are provided with snap-in slots (303). Each group of the connecting blocks (301) Connecting vertical blocks (302) are fixedly connected to both sides of the Fastening blocks (305) are fixedly connected to the backs of the set of connecting blocks (301), and the sides of the two sets of fastening blocks (305) that are far away from each other are in contact with the sides of the two sets of baffles (203) that are close to each other. , both sides of the first connecting I-beam (201) and both sides of each second connecting I-beam (202) are fixedly connected with extended I-beams (304), and each set of fastening blocks ( 305) are all snapped into the interior of the extended I-beam (304). 2. A steel structure prefabricated building component and a steel structure prefabricated building according to claim 1, characterized in that: the upper surface of the first connecting I-beam (201), the first connecting I-beam (201) 201), the upper surface of each second connecting I-beam (202) and the bottom surface of each second connecting I-beam (202) are provided with two groups of first threaded holes (9), each group of The upper surfaces of the connecting horizontal plates (204) are provided with second threaded holes (10) arranged equidistantly, and one group of the second threaded holes (10) is connected with the first threaded holes (9). 3. A steel structure prefabricated building component and a steel structure prefabricated building according to claim 2, characterized in that: the interior of each group of second threaded holes (10) is threadedly connected with first fixing bolts ( 5), the bottom ends of each set of first fixing bolts (5) pass through the two first threaded holes (9) and the second threaded holes (10) in sequence and extend to the bottom of the first connecting plate (1). 4. A steel structure prefabricated building component and a steel structure prefabricated building according to claim 1, characterized in that: the upper surface of the first connecting plate (1) and the bottom surface of the first connecting plate (1) , the upper surface of the second connecting plate (4) and the bottom surface of the second connecting plate (4) are provided with two sets of first connecting holes (8), and the upper surface of each group of the connecting vertical blocks (302) is provided with The second connection holes (13) are arranged equidistantly, and a group of the second connection holes (13) is connected with the first connection hole (8). 5. A steel structure prefabricated building component and a steel structure prefabricated building according to claim 4, characterized in that: the interior of each group of second connection holes (13) is threadedly connected with second fixing bolts ( 6), the bottom ends of each set of second fixing bolts (6) pass through the two first connecting holes (8) and the second connecting holes (13) in sequence and extend to the bottom of the first connecting plate (1). 6. A steel structure prefabricated building component and a steel structure prefabricated building according to claim 1, characterized in that: the upper surface of each group of extended I-beams (304) and each group of extended I-beams (304) Two first mounting holes (11) are provided on the bottom surface of the fastening blocks (304), and two second mounting holes (12) are provided on the upper surface of each group of fastening blocks (305). One group of the second mounting holes (12) The mounting hole (12) is connected with the first mounting hole (11). 7. A steel structure prefabricated building component and a steel structure prefabricated building according to claim 6, characterized in that: the interior of each set of second mounting holes (12) is threadedly connected with third fixing bolts ( 7), the bottom ends of each set of third fixing bolts (7) pass through the two first mounting holes (11) and the second mounting holes (12) in sequence and extend to the bottom of the first connecting plate (1). 8. A steel structure prefabricated building component and a steel structure prefabricated building according to claim 3, characterized in that: the outer surface of each set of first fixing bolts (5) is threadedly connected with a tightening nut ( 17), the upper surfaces of the two sets of tightening nuts (17) are respectively in contact with the bottom surface of the first connecting I-beam (201) and the bottom surfaces of the two second connecting I-beams (202). 9. A steel structure prefabricated building component and a steel structure prefabricated building according to claim 3, characterized in that: the outer surface of each group of first fixing bolts (5) is fixedly connected with a connecting ring (14) ), the bottom surface of each group of the connecting rings (14) is fixedly connected with a buffer spring (15), and the inner wall of each group of the buffer springs (15) is in contact with the outer surface of the first fixing bolt (5). 10. A steel structure prefabricated building component and a steel structure prefabricated building according to claim 9, characterized in that: the bottom end of each group of buffer springs (15) is fixedly connected with a sliding ring (16), The inner wall of each group of sliding rings (16) is in contact with the outer surface of the first fixing bolt (5), and the bottom surfaces of the two groups of sliding rings (16) are respectively in contact with the upper surface of the first connecting I-beam (201). Contact with the upper surfaces of the two second connecting I-beams (202).