CN210013323U - Node connection structure and assembled roof beam structure - Google Patents

Abstract

The utility model provides a node connecting structure and an assembled beam frame, wherein the node connecting structure comprises a stand column, a first main beam and a second main beam, and the second main beam and the first main beam are in the same plane; the first main beam inserting structure is matched with the first main beam end inserting sleeve and is fixedly connected with the first main beam end; the first main beam inserting structure is matched with the first main beam end inserting sleeve, and the first main beam inserting structure is fixedly connected with the first main beam end. The assembling of the node connecting structure can be realized by inserting and fixing each main beam and the corresponding main beam inserting sleeve, so that the assembling process of the node connecting structure is simpler; and each main beam is fixed on the upright post through the corresponding main beam inserting sleeve, so that mutual support is formed between each main beam and the upright post, and the node connection structure is ensured to have higher structural strength.

Description

Node connection structure and assembled roof beam structure

Technical Field

The utility model relates to a framework structure design field especially relates to a node connection structure and assembled roof beam structure.

Background

The existing beam frame is formed by connecting a plurality of horizontal frames arranged at intervals in the height direction through an upright post, a flange structure is usually arranged on the end face of a beam frame node connecting structure, the beam and the upright post are fixed together through bolts, or the end face of the beam and the upright post are directly welded together, however, the connecting process is complicated when the beam and the upright post are fixedly connected through the bolts, and when the beam and the upright post are fixed together through welding, welding stress is easily generated at the welding position to influence the strength of the node connecting structure.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a connection process is comparatively simple, the higher node connection structure of structural strength and assembled roof beam structure.

In order to achieve the above object, the utility model discloses a nodal connection structure's technical scheme does:

a node connection structure comprising:

the upright post extends along the vertical direction;

the first main beam is horizontally arranged along the left-right direction;

the second main beam is horizontally arranged along the front-back direction and is positioned in the same plane with the first main beam;

the first main beam inserting structure is fixed on the stand column, the first main beam inserting structure is horizontally arranged along the left-right direction, the first main beam inserting structure is matched with the first main beam end inserting sleeve, and the first main beam inserting structure is fixedly connected with the first main beam end;

the second main beam inserting structure is fixed on the stand column, the second main beam inserting structure is horizontally arranged along the front-back direction, the second main beam inserting structure is matched with the second main beam end inserting sleeve, and the second main beam inserting structure is fixedly connected with the second main beam end.

Has the advantages that: when the node connection structure is formed, the first main beam and the first main beam insertion sleeve are inserted and fixed, and the second main beam insertion sleeve are inserted and fixed, so that the node connection structure can be assembled, and the assembling process of the node connection structure is simple; and, first girder passes through first girder grafting sleeve to be fixed on the stand, and the second girder passes through second girder grafting sleeve to be fixed on the stand, makes to form mutual support between each girder and the stand, guarantees that node connection structure has higher structural strength.

Further, the node connection structure further comprises an inclined strut and an inclined strut inserting structure corresponding to the inclined strut, wherein the inclined strut inserting structure is fixed at the intersection of the upright column and the main beam, and is matched with the inclined strut end part inserting sleeve, and the inclined strut inserting structure is fixedly connected with the inclined strut end part.

Has the advantages that: the bracing and the corresponding bracing plug-in structure that sets up are increased in node connection structure, and bracing, girder and stand can support each other to node connection structure's intensity has been increased, make node connection structure more stable.

Furthermore, the inclined struts are arranged in two numbers, and the two inclined struts are symmetrically arranged relative to a plane formed by the first main beam and the second main beam.

Has the advantages that: two bracing except can supporting each other with each girder, stand, also can play the mutual supporting role between two bracing to further strengthen joint connection structure's intensity, make joint connection structure more stable.

The main beam inserting structure and the inclined strut inserting structure are inserting sleeves, the end part of the main beam is inserted into the corresponding main beam inserting sleeve, and the end part of the inclined strut is inserted into the corresponding inclined strut inserting sleeve.

Has the advantages that: during the design, select certain circumstances at the size of girder and bracing, adopt in inserting the girder grafting sleeve that corresponds with the girder tip, insert the bracing grafting sleeve that corresponds with the tip of bracing, can guarantee that girder and girder grafting sleeve have higher structural strength in the junction, bracing and bracing grafting sleeve also have higher structural strength in the junction, moreover, can also guarantee the girder, the bracing, the girder grafting sleeve, the telescopic plug bush structure of bracing grafting sets up simply.

The end surface of the main beam and/or the inclined strut is matched and abutted with the side surface of the upright post.

Has the advantages that: the acting force on the main beam and the inclined strut can be directly transmitted to the upright post, so that the acting force on the main beam can be transmitted to the upright post through the main beam inserting structure and can also be directly transmitted to the upright post through the main beam; the acting force on the inclined strut can be directly transmitted to the stand column through the inclined strut except that the stand column is transmitted through the inclined strut inserting structure, so that the stability of the node connecting structure is increased, and the node connecting structure can bear larger acting force.

The main beam is fixedly connected with the corresponding main beam inserting sleeve through a bolt, and the inclined strut is fixedly connected with the corresponding inclined strut inserting sleeve through a bolt.

Has the advantages that: the main beam can be conveniently and fixedly connected with the corresponding main beam inserting sleeves, and the main beam inserting sleeves can be connected more stably and reliably; the fixed connection between the diagonal brace and the corresponding diagonal brace inserting sleeve can be conveniently realized, and the connection between the diagonal brace and the diagonal brace inserting sleeve can be more stable and reliable.

Furthermore, the bolt through hole on the main beam completely corresponds to the bolt through hole on the main beam plug-in sleeve, and the bolt through hole on the inclined strut completely corresponds to the bolt through hole on the inclined strut plug-in sleeve.

Has the advantages that: the main beam can be more reliably fixedly connected with the corresponding main beam inserting sleeve, and the structural strength of the connection part of the end part of the main beam and the main beam inserting sleeve is further improved; the fixed connection between the inclined strut and the inclined strut inserting sleeve is more reliable, and the structural strength of the end part of the inclined strut and the inclined strut inserting sleeve at the joint is further improved.

The upright post, the main beam inserting structure, the inclined strut and the inclined strut inserting structure are all square steel structures.

Has the advantages that: the connection and fixation among all components of the node connection structure are conveniently realized.

In order to achieve the above object, the utility model discloses a technical scheme of assembled roof beam structure is:

assembled roof beam structure, by the more than two node connection structure that mutually assemble and link together form, include:

the upright post extends along the vertical direction;

the first main beam is horizontally arranged along the left-right direction;

the second main beam is horizontally arranged along the front-back direction and is positioned in the same plane with the first main beam;

the first main beam inserting structure is fixed on the stand column, the first main beam inserting structure is horizontally arranged along the left-right direction, the first main beam inserting structure is matched with the first main beam end inserting sleeve, and the first main beam inserting structure is fixedly connected with the first main beam end;

the second main beam inserting structure is fixed on the stand column, the second main beam inserting structure is horizontally arranged along the front-back direction, the second main beam inserting structure is matched with the second main beam end inserting sleeve, and the second main beam inserting structure is fixedly connected with the second main beam end.

Has the advantages that: when the node connecting structure is formed, the first main beam and the first main beam inserting sleeve are inserted and fixed, and the second main beam inserting sleeve are inserted and fixed, so that the node connecting structure can be assembled, the assembling process of the node connecting structure is simpler, and the assembling process of the assembling type beam frame is simpler; and, first girder passes through first girder grafting sleeve to be fixed on the stand, and the second girder passes through second girder grafting sleeve to be fixed on the stand, makes to form mutual support between each girder and the stand, guarantees that the nodal connection structure has higher structural strength, can also guarantee that assembled roof beam structure frame has higher structural strength.

Further, the node connection structure further comprises an inclined strut and an inclined strut inserting structure corresponding to the inclined strut, wherein the inclined strut inserting structure is fixed at the intersection of the upright column and the main beam, and is matched with the inclined strut end part inserting sleeve, and the inclined strut inserting structure is fixedly connected with the inclined strut end part.

Has the advantages that: the bracing and the corresponding bracing plug-in structure that sets up are increased in node connection structure, and bracing, girder and stand can support each other to node connection structure's intensity has been increased, make node connection structure more stable.

Furthermore, the inclined struts are arranged in two numbers, and the two inclined struts are symmetrically arranged relative to a plane formed by the first main beam and the second main beam.

Has the advantages that: two bracing except can supporting each other with each girder, stand, also can play the mutual supporting role between two bracing to further strengthen joint connection structure's intensity, make joint connection structure more stable.

The main beam inserting structure and the inclined strut inserting structure are inserting sleeves, the end part of the main beam is inserted into the corresponding main beam inserting sleeve, and the end part of the inclined strut is inserted into the corresponding inclined strut inserting sleeve.

Has the advantages that: in the design, select under certain circumstances at the size of girder and bracing, adopt with the girder tip insert the girder grafting sleeve that corresponds, insert the tip of bracing in the bracing grafting sleeve that corresponds, can guarantee that girder and girder grafting sleeve have higher structural strength in the junction, bracing and bracing grafting sleeve also have higher structural strength in the junction, moreover, can also guarantee the girder, the bracing, the girder grafting sleeve, the telescopic plug bush structure of bracing grafting sets up simply.

The end surface of the main beam and/or the inclined strut is matched and abutted with the side surface of the upright post.

Has the advantages that: the acting force on the main beam and the inclined strut can be directly transmitted to the upright post, so that the acting force on the main beam can be transmitted to the upright post through the main beam inserting structure and can also be directly transmitted to the upright post through the main beam; the acting force on the inclined strut can be directly transmitted to the stand column through the inclined strut except that the stand column is transmitted through the inclined strut inserting structure, so that the stability of the node connecting structure is increased, and the node connecting structure can bear larger acting force.

The main beam is fixedly connected with the corresponding main beam inserting sleeve through a bolt, and the inclined strut is fixedly connected with the corresponding inclined strut inserting sleeve through a bolt.

Has the advantages that: the main beam can be conveniently and fixedly connected with the corresponding main beam inserting sleeves, and the main beam inserting sleeves can be connected more stably and reliably; the fixed connection between the diagonal brace and the corresponding diagonal brace inserting sleeve can be conveniently realized, and the connection between the diagonal brace and the diagonal brace inserting sleeve can be more stable and reliable.

Furthermore, the bolt through hole on the main beam completely corresponds to the bolt through hole on the main beam plug-in sleeve, and the bolt through hole on the inclined strut completely corresponds to the bolt through hole on the inclined strut plug-in sleeve.

Has the advantages that: the main beam can be more reliably fixedly connected with the corresponding main beam inserting sleeve, and the structural strength of the connection part of the end part of the main beam and the main beam inserting sleeve is further improved; the fixed connection between the inclined strut and the inclined strut inserting sleeve is more reliable, and the structural strength of the end part of the inclined strut and the inclined strut inserting sleeve at the joint is further improved.

The upright post, the main beam inserting structure, the inclined strut and the inclined strut inserting structure are all square steel structures.

Has the advantages that: the connection and fixation among all components of the node connection structure are conveniently realized.

Drawings

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

FIG. 2 is a schematic view of a nodal connection in the fabricated beam mount of FIG. 1;

FIG. 3 is a top view of the node connection structure of FIG. 2;

FIG. 4 is a front view of the node connection structure of FIG. 2;

fig. 5 is a left side view of the node connection structure of fig. 2.

In the figure: 1-a fabricated beam frame; 2-node connection structure; 3-upright column; 4-a second main beam; 5-a first main beam; 6-a first diagonal brace; 7-a second diagonal brace; 8-a second main beam splicing sleeve; 9-a first main beam splicing sleeve; 10-a first diagonal brace splicing sleeve; 11-second diagonal brace inserting sleeve.

Detailed Description

The following will further describe a specific embodiment of the assembled beam frame of the present invention with reference to fig. 1 to 5.

As shown in fig. 1, the fabricated beam frame 1 is formed by assembling a plurality of node connecting structures 2 to each other, and as will be described later with reference to one of the node connecting structures 2, as shown in fig. 2, 3, and 5, the node connecting structure 2 includes a pillar 3 extending in the up-down direction, a first main beam 5 horizontally disposed in the left-right direction, and a second main beam 4 horizontally disposed in the front-rear direction. A first main beam inserting sleeve 9 and a second main beam inserting sleeve 8 are respectively welded and fixed on the upright post 3, wherein the first main beam inserting sleeve 9 is horizontally arranged along the left-right direction, the end part of the first main beam 5 is correspondingly inserted into the first main beam inserting sleeve 9, a bolt through hole with an axis arranged along the front-back direction is formed in the first main beam inserting sleeve 9, a bolt through hole with an axis arranged along the front-back direction is also formed in the end part of the first main beam 5, and the first main beam 5 is fixedly connected with the first main beam inserting sleeve 9 through a bolt; second girder grafting sleeve 8 sets up along the fore-and-aft direction level, and the tip of second girder 4 corresponds inserts in second girder grafting sleeve 8 to, set up the bolt perforation that the axis set up along left right direction on the second girder grafting sleeve 8, the bolt perforation that the axis set up along left right direction is also seted up to the tip of second girder 4, and second girder 4 passes through bolt and second girder grafting sleeve 8 fixed connection. After the first main beam 5 and the first main beam plugging sleeve 9 are plugged and the second main beam 4 and the second main beam plugging sleeve 8 are plugged, the first main beam 5 and the second main beam 4 are in the same plane. In this embodiment, the first main beam insertion structure is a first main beam insertion sleeve 9, and the second main beam insertion structure is a second main beam insertion sleeve 8.

The first main beam 5 and the first main beam inserting sleeve 9 are inserted and fixed, and the second main beam 4 and the second main beam inserting sleeve 8 are inserted and fixed, so that the assembling process between each main beam and the upright post is simpler; moreover, the first main beam 5 is fixed on the upright post 3 through the first main beam inserting sleeve 9, and the second main beam 4 is fixed on the upright post 3 through the second main beam inserting sleeve 8, so that mutual support is formed between each main beam and the upright post 3, and the node connection structure 2 is guaranteed to have higher structural strength.

As shown in fig. 4, the node connection structure 2 further includes a diagonal brace and a diagonal brace insertion sleeve corresponding to the diagonal brace insertion sleeve, the diagonal brace insertion sleeve is welded and fixed at the intersection of the upright post 3 and the main beam, the end portion of the diagonal brace is inserted into the corresponding diagonal brace insertion sleeve, furthermore, a bolt hole extending along the front-back direction is formed in the end portion of the diagonal brace, a bolt hole extending along the front-back direction is formed in the diagonal brace insertion sleeve, and the end portion of the diagonal brace is fixedly connected with the diagonal brace insertion sleeve through a bolt. In this embodiment, the inclined struts are provided with two, which are respectively a first inclined strut 6 and a second inclined strut 7, the two inclined struts are symmetrically arranged about a plane formed by the first main beam 5 and the second main beam 4, and the first inclined strut 6 and the second inclined strut 7 are both located in a plane formed by the first main beam 5 and the column 3, at this time, the inclined strut plug-in sleeve is also provided with two, which are respectively a first inclined strut plug-in sleeve 10 and a second inclined strut plug-in sleeve 11, the two inclined strut plug-in sleeves are symmetrically arranged about a plane formed by the first main beam 5 and the second main beam 4, and the first inclined strut plug-in sleeve 10 and the second inclined strut plug-in sleeve 11 are both located in a plane formed by the first main beam 5 and the column 3. Two bracing except can mutually supporting with first girder 5, stand 3 like this, also can play the effect of mutual support between two bracing to further strengthened nodal connection structure 2's intensity, made nodal connection structure 2 more stable. In this embodiment, the diagonal brace inserting structure is a diagonal brace inserting sleeve.

Stand 3, each girder grafting sleeve, each bracing grafting sleeve all adopts the square steel structure, for the convenience of each girder corresponds inserts in each girder grafting sleeve and again be unlikely to have great gap, each girder grafting telescopic length of side is 1mm to 2mm bigger than each girder's length of side, and each girder grafting telescopic length of side is 1 doubly to 1.5 times of its length of side, and the same reason, each bracing grafting telescopic length of side is 1mm to 2mm bigger than each bracing's length of side, and each bracing grafting telescopic length of side is 1 doubly to 1.5 times of its length of side. In order to improve the structural strength of each main beam insertion sleeve and each diagonal brace insertion sleeve at the bolt perforation, a metal sheet is welded at the bolt perforation to locally increase the thickness of the sleeve at the bolt perforation, so that the main beam insertion sleeves and the diagonal brace insertion sleeves are guaranteed to have higher structural strength at the bolt perforation.

After each main beam is correspondingly inserted into each main beam inserting sleeve, the end surface of the inserting end of each main beam can be matched and abutted with the side surface of the upright post 3, at the moment, the end surface of the inserting end of each main beam is a plane, and when the end surface of the inserting end of each main beam is matched and abutted with the side surface of the upright post 3, the bolt through hole on each main beam is completely corresponding to the bolt through hole on each main beam inserting sleeve; after each inclined strut is correspondingly inserted into each inclined strut inserting sleeve, the end surface of the inserting end of each inclined strut can be matched and abutted with the side surface of the upright post 3, at the moment, the end surface of the inserting end of each inclined strut is an inclined surface, when the end surface of the inserting end of each inclined strut is matched and abutted with the side surface of the upright post 3, the bolt through hole on each inclined strut is completely corresponding to the bolt through hole on each inclined strut inserting sleeve, so that the acting force on each main beam is not only transmitted to the upright post 3 through each main beam inserting structure, but also can be directly transmitted to the upright post 3 through each main; acting force on each bracing can also directly transmit for stand 3 through each bracing except transmitting for stand 3 through bracing grafting structure to increased node connection structure 2's stability, made node connection structure 2 can bear bigger acting force.

When assembling, firstly, welding each main beam inserting sleeve and each inclined strut inserting sleeve on the side surface of the upright post 3, then inserting the end part of each main beam into each corresponding main beam inserting sleeve, enabling the end surface of each main beam to be matched and abutted with the side surface of the upright post 3, at the moment, the bolt hole at the end part of each main beam is exactly completely corresponding to the bolt perforation on each main beam inserting sleeve, then fixedly connecting each main beam and each main beam inserting sleeve by using bolts, realizing the inserting and fixing of each inclined strut according to the same method, at the moment, completing the assembling of one node connecting structure 2, then assembling a plurality of assembled node connecting structures 2 together, wherein each main beam forms a rectangular frame structure, each rectangular frame structure is supported by each upright post at intervals in the up-down direction, and completing the assembling of the assembled beam frame 1.

In the present embodiment, when a plurality of assembled node connecting structures are assembled together, each main beam forms a rectangular frame structure, and each rectangular frame structure is supported by each upright at intervals in the vertical direction.

In this embodiment, the node connection structure further includes a diagonal brace and a diagonal brace insertion structure correspondingly disposed, in other embodiments, the diagonal brace and the diagonal brace insertion structure may not be disposed, and at this time, the node connection structure is only composed of the columns, the main beams, and the main beam insertion structures.

In the embodiment, two inclined struts are arranged symmetrically about a plane formed by the first main beam and the second main beam, and are both located in the plane formed by the first main beam and the upright post; or four diagonal braces are arranged, every two of the four diagonal braces are symmetrically arranged relative to a plane formed by the first main beam and the second main beam, two symmetrically arranged diagonal braces are positioned in the plane formed by the first main beam and the upright post, and the other two symmetrically arranged diagonal braces are positioned in the plane formed by the second main beam and the upright post; or the two inclined struts are symmetrically arranged relative to the plane formed by the first main beam and the second main beam, but the two inclined struts are not positioned in the plane formed by the first main beam and the upright post or the plane formed by the second main beam and the upright post.

In this embodiment, each main beam insertion structure and each diagonal brace insertion structure are insertion sleeves, the end of each main beam is correspondingly inserted into each main beam insertion sleeve, the end of each diagonal brace is correspondingly inserted into each diagonal brace insertion sleeve, in other embodiments, each main beam insertion structure and each diagonal brace insertion structure are insertion columns, each main beam and each diagonal brace are square steel structures, each main beam insertion column is inserted into each main beam, and each diagonal brace insertion column is inserted into each diagonal brace.

In the embodiment, the end surfaces of the main beams and the inclined struts are matched and abutted with the side surface of the upright post, and in other embodiments, the end surfaces of the main beams are matched and abutted with the side surface of the upright post, but the end surfaces of the inclined struts are not contacted with the side surface of the upright post; or the end surface of each main beam is not contacted with the side surface of the upright post, and the end surface of each inclined strut is matched and abutted with the side surface of the upright post; or the end surface of each main beam is not contacted with the side surface of the upright post, and the end surface of each inclined strut is not contacted with the side surface of the upright post.

In this embodiment, each main beam is fixedly connected with each corresponding main beam insertion sleeve through a bolt, and when the end surface of each main beam is matched and abutted with the side surface of the upright post, the bolt through hole on each main beam completely corresponds to the bolt through hole on each main beam insertion sleeve; each inclined strut is fixedly connected with each corresponding inclined strut inserting sleeve through a bolt, when the end surface of each inclined strut is matched and abutted with the side surface of the upright post, the bolt through hole on each inclined strut is completely corresponding to the bolt through hole on each inclined strut inserting sleeve, in other embodiments, the bolt through holes at the end part of each main beam and the end part of each inclined strut are both long holes, the bolt through holes on each main beam inserting sleeve and each inclined strut inserting sleeve are round holes, when the end surface of each main beam is matched and abutted with the side surface of the upright post, the round hole on each main beam inserting sleeve corresponds to the long hole part on each main beam, and when the end surface of each inclined strut is matched and abutted with the side surface of the upright post, the round hole on each inclined strut inserting sleeve corresponds to the long hole part on each; or the bolt through holes on the main beam plug-in sleeves and the inclined strut plug-in sleeves are long holes, the bolt through holes at the end parts of the main beams and the inclined struts are round holes, when the end surfaces of the main beams are matched and abutted with the side surfaces of the upright posts, the long holes on the main beam plug-in sleeves correspond to the round hole parts on the main beams, and when the end surfaces of the inclined struts are matched and abutted with the side surfaces of the upright posts, the long holes on the inclined strut plug-in sleeves correspond to the round hole parts on the inclined struts.

In this embodiment, stand, each girder grafting sleeve, each bracing grafting sleeve all adopt square steel structure, and in other embodiments, stand, each girder grafting sleeve, each bracing grafting sleeve can also be steel tube structure.

In the embodiment, the upright columns, the main beams, the main beam inserting sleeves, the inclined struts and the inclined strut inserting sleeves are all made of steel; in other embodiments, when the load of the upright column, each main beam plugging sleeve, each diagonal brace and each diagonal brace plugging sleeve is small, the upright column, each main beam plugging sleeve, each diagonal brace and each diagonal brace plugging sleeve can also be wood or bamboo, or when the upright column, each main beam plugging sleeve, each diagonal brace and each diagonal brace plugging sleeve are rectangular tubes, the upright column, each main beam plugging sleeve, each diagonal brace and each diagonal brace plugging sleeve are formed by bonding bamboo skins.

The utility model discloses a node connection structure's concrete embodiment, node connection structure is the same with the node connection structure in the assembled roof beam structure, no longer gives unnecessary details.

Claims (9)

1. A node connecting structure, comprising:

the upright post extends along the vertical direction;

the first main beam is horizontally arranged along the left-right direction;

the second main beam is horizontally arranged along the front-back direction and is positioned in the same plane with the first main beam;

the first main beam inserting structure is fixed on the stand column, the first main beam inserting structure is horizontally arranged along the left-right direction, the first main beam inserting structure is matched with the first main beam end inserting sleeve, and the first main beam inserting structure is fixedly connected with the first main beam end;

the second main beam inserting structure is fixed on the stand column, the second main beam inserting structure is horizontally arranged along the front-back direction, the second main beam inserting structure is matched with the second main beam end inserting sleeve, and the second main beam inserting structure is fixedly connected with the second main beam end.

2. The node connecting structure according to claim 1, further comprising a brace and a corresponding brace plug structure, wherein the brace plug structure is fixed at the intersection of the upright column and the main beam, the brace plug structure is fitted with the brace end plug bush, and the brace plug structure is fixedly connected with the brace end.

3. The node connecting structure according to claim 2, wherein there are two of the braces, and the two braces are symmetrically disposed about a plane formed by the first main beam and the second main beam.

4. The node connection structure according to claim 3, wherein the main beam insertion structure and the diagonal brace insertion structure are insertion sleeves, the end of the main beam is inserted into the corresponding main beam insertion sleeve, and the end of the diagonal brace is inserted into the corresponding diagonal brace insertion sleeve.

5. A nodal connection according to any one of claims 2 to 4, in which the end faces of the main beams and/or the bracing are in abutting engagement with the sides of the uprights.

6. The node connecting structure according to claim 5, wherein the main beam is fixedly connected to the corresponding main beam insertion sleeve by a bolt passing through the main beam and the diagonal brace is fixedly connected to the corresponding diagonal brace insertion sleeve by a bolt passing through the diagonal brace and the corresponding diagonal brace insertion sleeve.

7. The node connecting structure according to claim 6, wherein the bolt penetration holes of the main beam completely correspond to the bolt penetration holes of the main beam insertion sleeve, and the bolt penetration holes of the diagonal brace completely correspond to the bolt penetration holes of the diagonal brace insertion sleeve.

8. The node connection structure according to any one of claims 2 to 4, wherein the columns, the main beams, the main beam splicing structures, the diagonal braces and the diagonal brace splicing structures are all square steel structures.

9. A fabricated beam comprising two or more node connecting structures as claimed in any one of claims 1 to 8 fabricated and connected to each other.

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