CN218292238U - Steel construction high-rise building frame - Google Patents

Abstract

The utility model relates to a steel construction building frame field, in particular to steel construction high-rise building frame, including stand, crossbeam, plug connector, crossbeam, stand, plug connector are equipped with a plurality of, be equipped with the first through hole that runs through from top to bottom on the plug connector, the third through hole that runs through around, the plug connector, the stand upper end is located through the fixed cover of first through hole lower extreme, the stand is inserted and is located in the first through hole and the lower extreme is connected in adjacent stand upper end, each side of stand lower extreme is equipped with one side square hole all around respectively, and the square hole corresponds the setting with second through hole, third through hole respectively, the crossbeam both ends are equipped with a pair of protrusion board that the protrusion set up outwards, the crossbeam is inserted respectively and is located in each second through hole and the third through hole and protrusion board passes the square hole setting, forms the building frame that has a plurality of layers of being convenient for the installation through a plurality of crossbeams, stand and plug connector concatenation each other.

Description

Steel construction high-rise building frame

Technical Field

The utility model relates to a steel construction building frame field, in particular to steel construction high-rise building frame.

Background

The steel structure is a structure formed by steel materials and is one of main building frame structure types; the structure mainly comprises components such as steel beams, steel columns and steel trusses which are made of section steel, steel plates and the like, bolts or rivets are usually adopted between the components or parts of the existing building frame, the construction is simple and convenient, the construction speed is high, but under the condition that a building needing to be built belongs to a high-rise building frame, the number of the steel components or parts is increased, the difficulty of the construction is increased, and more working hours are consumed to build the frame when the steel plates or the steel components which are connected adjacently are continuously used in a one-to-one bolt or rivet fixing connection mode, so that the construction efficiency is influenced.

SUMMERY OF THE UTILITY MODEL

For overcoming the not enough among the prior art, the utility model provides a steel construction high-rise building frame that installation effectiveness is high.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the utility model provides a steel construction high-rise building frame, includes stand, crossbeam, plug connector, crossbeam, stand, plug connector are equipped with a plurality of, be equipped with the first through hole that runs through from top to bottom on the plug connector, the third through hole that runs through around, the plug connector through the fixed cover of first through hole lower extreme locate the stand upper end, the stand is inserted and is located in the first through hole and the lower extreme is connected in adjacent stand upper end, each side of stand lower extreme is equipped with one pair of side type hole all around respectively, and the square hole corresponds the setting with second through hole, third through hole respectively, the crossbeam both ends are equipped with a pair of protrusion board that the protrusion set up outwards, the crossbeam is inserted respectively and is located in each second through hole and the third through hole and protrusion board passes the square hole setting, splices the building frame that forms a plurality of layers each other through a plurality of crossbeams, stand and plug connector.

The building frame further comprises a support column, the support column is arranged on the bottommost layer of the building frame, and the plug connector is inserted into the upper end of the support column through the first through hole.

Furthermore, still include the backup pad, the backup pad is fixed and is located the upper end of each support column and stand, plug connector lower extreme fixed connection is in the backup pad.

Furthermore, all be equipped with a plurality of strengthening ribs on support column and the stand, and with backup pad fixed connection.

Furthermore, the device also comprises a platform supporting piece, wherein the platform supporting piece comprises two sleeves and a plurality of supporting beams, the supporting beams are respectively arranged between the two sleeves at intervals, and the two sleeves can be sleeved on the two oppositely arranged cross beams.

Further, still include the inserted bar, be equipped with a plurality of first round holes on the plug connector, the crossbeam both ends are equipped with the second round hole, the crossbeam is installed under the plug connector upper state, first round hole sets up with the axle center with the second round hole, the inserted bar passes first round hole and second round hole and the inserted bar lower extreme is connected in the plug connector.

Furthermore, the diameter of the first round hole is larger than that of the second round hole, a limiting block is arranged at the top end of the insertion rod, the insertion rod is inserted into the second round hole, and the limiting block is embedded into the first round hole.

Furthermore, the plug connector is formed by fixedly connecting and splicing a plurality of square pipes.

Furthermore, stand, crossbeam and plug connector are steel construction material.

From the above description of the utility model, compared with the prior art, the steel structure high-rise building frame provided by the utility model has the advantages that the steel members in the transverse and vertical directions are spliced by arranging the plug connectors, and the high-rise building frame with a plurality of layers is formed by the plug connectors, so that the installation is simple, the working time is saved, and the installation efficiency is high; the first through hole is used for installing the upright column in the vertical direction, the second through hole and the third through hole are used for inserting the cross beam, and the protruding plate can pass through the lower end of the upright column to enable the cross beam to limit the upright column to move up and down, so that the cross beam and the upright column are limited on the plug connector together; the supporting plate is arranged to fix the supporting plug connector; the inserted link is arranged to assist the beam to be installed on the plug connector, so as to play a role in temporary fixation.

Drawings

Figure 1 is the utility model relates to a steel construction high-rise building frame construction sketch map.

Fig. 2 is an enlarged schematic view of a structure shown in fig. 1 according to the present invention.

Fig. 3 is a schematic diagram of the structure separation state of the plug connector and the cross beam and the upright post of the present invention.

Fig. 4 is a schematic view of the sectional structure of the connector assembly of the present invention in connection with the cross beam and the column.

Fig. 5 is a schematic diagram of a state of separation between the platform supporting member and the cross beam structure of the present invention.

The labels in the figure correspond to the following: 1. the structure comprises a supporting column, 2 columns, 21 supporting plates, 211 reinforcing ribs, 22 square holes, 3 plug connectors, 31 first through holes, 32 second through holes, 33 third through holes, 34 first round holes, 4 cross beams, 41 protruding plates, 42 second round holes, 5 inserting rods, 51 limiting blocks, 6 platform supporting pieces, 61 sleeves and 62 supporting beams.

Detailed Description

The present invention will be further described with reference to the following detailed description.

Referring to fig. 1 to 5, the steel structure high-rise building frame includes a support column 1, a vertical column 2, a cross beam 4, and a connector 3.

Support column 1 locates the bottom, and 1 lower extreme of support column is fixed to be buried underground in ground, ensures support strength and stability of support column 1, building frame bottom is located to support column 1, plug connector 3 inserts and locates 1 upper end of support column. The building frame is characterized in that a first through hole 31 penetrating up and down, a second through hole 32 penetrating transversely and a third through hole 33 penetrating front and back are formed in the plug connector 3, the upper end of the stand column 2 is fixedly sleeved at the lower end of the first through hole 31 of the plug connector 3, the stand column 2 is inserted into the first through hole 31, the lower end of the stand column 2 is connected to the upper end of the adjacent stand column 2, a pair of square holes 22 are formed in the periphery of each side of the lower end of the stand column 2 respectively, the square holes 22 correspond to the second through hole 32 and the third through hole 33 respectively, a pair of protruding plates 41 protruding outwards are arranged at two ends of the cross beam 4, the cross beam 4 is inserted into the second through holes 32 and the third through holes respectively, the protruding plates 41 penetrate through the square holes 22, the stand column 3 can be limited by the cross beam 4, the cross beam 4 is matched with the stand column 2 jointly with the plug connector 3, and the stand column 2 and the plug connector 3 are spliced together to form a building frame with a plurality of layers sequentially through the cross beam 4 and the stand column 2 and the plug connector 3.

Backup pad 21, backup pad 21 is fixed and is located the upper end of each support column 1 and stand 2, 3 lower extreme fixed connection of plug connector are on backup pad 21, all be equipped with a plurality of strengthening ribs 211 on support column 1 and the stand 2, and with backup pad 21 fixed connection. The upper end of support column 1 is located to the plug connector 3 on first floor to through the lower extreme fixed welding of welded mode with plug connector 3 in backup pad 21, plug connector 3 above the first floor is through the welded mode with the fixed welding of plug connector 3 lower extreme in backup pad 21 of stand 2, and strengthen the holding power through strengthening rib 211.

The platform supporting part 6, the platform supporting part 6 includes two sleeve pipes 61, a plurality of supporting beams 62, the supporting beams 62 are respectively arranged between the two sleeve pipes 61 at intervals, two sleeve pipes 61 can be sleeved on the two oppositely arranged cross beams 4 to further form a plane of the building frame, and the oppositely arranged cross beams 4 are further fixed through the platform supporting part 6.

The inserted bar 5, be equipped with a plurality of first round holes 34 on the plug connector 3, the 4 both ends of crossbeam are equipped with second round hole 42, crossbeam 4 is installed under the plug connector 3 upper conditions, first round hole 34 sets up with the axle center with second round hole 42, inserted bar 5 passes first round hole 34 and second round hole 42 and 5 lower extremes of inserted bar and connects in plug connector 3, the diameter of first round hole 34 is greater than second round hole 42, 5 tops of inserted bar are equipped with a stopper 51, inserted bar 5 inserts and locates under the second round hole 42 inner conditions, stopper 51 inlays and locates in first round hole 34. The purpose of the use of the insertion rod 5 is to temporarily fix the installation of the cross beam 4 by the insertion rod 5 during the installation of the cross beam 4 in the plug 3. The diameter of the insert rod 5 is slightly larger than the second round hole 42, so that the insert rod 5 can be inserted into the second round hole 42 in a knocking manner and clamped and fixed in the second round hole 42 through interference fit.

The plug connector 3 is formed by fixedly connecting and splicing a plurality of square pipes, so that plug positions in different directions are formed.

Stand 2, crossbeam 4 and plug connector 3 are steel construction material, and all for mill's processing finished part, only need transport the place build can, the construction cycle that has significantly reduced.

The installation process of the steel structure high-rise building frame is as follows:

firstly fixing a support column 1, fixedly embedding the lower end of the support column 1 on the ground at intervals, sleeving a first-layer plug connector 3 at the upper end of the support column 1 through a first through hole 31, and fixing the first-layer plug connector on a support plate 21 of the support column 1 in a welding manner; then, installing the upright posts 2 with the increased layer number, inserting the lower ends of the upright posts 2 into the plug connectors 3, and enabling the square holes 22 at the lower ends of the upright posts 2 to respectively correspond to the second through holes 32 and the third through holes 33, and fixedly installing another plug connector 3 at the upper end of the upright post 2 for splicing the previous layer; then, installing the cross beam 4, inserting the cross beam 4 into the second through hole 32 and the third through hole 33, and enabling the protruding plates 41 at the two ends of the cross beam 4 to pass through the square holes 22, so that the stand column 2 is limited by the protruding plates 41 and is connected with the plug connector 3, and enabling the insertion rod 5 to pass through the first round hole 34 and the second round hole 42, so that the vertical movement of the stand column 2 is limited by the cross beam 4, and the cross beam 4 and the stand column 2 are limited and connected with the plug connector 3; the two oppositely arranged cross beams 4 are sleeved through a sleeve 61, so that a platform support member 6 is arranged between the adjacent cross beams 4; according to the installation process, the cross beams 4 and the upright posts 2 are spliced with different plug connectors 3 to form a high-rise building frame; and finally, after the whole frame is installed, performing concrete pouring molding on the frame by arranging a pouring plate.

The above-mentioned only be the utility model discloses a concrete implementation way, nevertheless the utility model discloses a design concept is not limited to this, and all utilize this design right the utility model discloses carry out immaterial change, all should belong to the act of infringement the protection scope of the utility model.

Claims (9)

1. A steel structure high-rise building frame which is characterized in that: including stand, crossbeam, plug connector, crossbeam, stand, plug connector are equipped with a plurality of, be equipped with the first through hole that runs through from top to bottom on the plug connector, the third through hole that runs through around, the second through hole that transversely runs through, the stand upper end is located through the fixed cover of first through hole lower extreme to the plug connector, the stand is inserted and is located in first through hole and the lower extreme is connected in adjacent stand upper end, each side of stand lower extreme is equipped with one side type hole all around respectively, and just the square hole corresponds the setting with second through hole, third through hole respectively, the crossbeam both ends are equipped with a pair of protrusion board that the protrusion set up outwards, the crossbeam is inserted respectively and is located in each second through hole and the third through hole and protrusion board passes the square hole setting, splices each other through a plurality of crossbeams, stand and plug connector and forms the building framework that has a plurality of layers.

2. The steel structural high-rise building frame of claim 1, wherein: the building frame further comprises supporting columns, the supporting columns are arranged on the bottommost layer of the building frame, and the plug connectors on the bottommost layer are inserted into the upper ends of the supporting columns through first through holes.

3. The steel structural high-rise building frame according to claim 2, characterized in that: the support plate is fixedly arranged at the upper end of each support column and the upper end of each stand column, and the lower ends of the plug connectors are fixedly connected to the support plate.

4. The steel structural high-rise building frame of claim 2, wherein: the support column and the upright column are provided with a plurality of reinforcing ribs and are fixedly connected with the support plate.

5. The steel structural high-rise building frame of claim 1, wherein: the platform support piece comprises two sleeves and a plurality of supporting beams, the supporting beams are respectively arranged between the two sleeves at intervals, and the two sleeves can be sleeved on the two oppositely arranged cross beams.

6. The steel structural high-rise building frame of claim 1, wherein: the novel connector is characterized by further comprising an insertion rod, wherein a plurality of first round holes are formed in the connector, second round holes are formed in two ends of the cross beam, the cross beam is installed on the connector in an upper state, the first round holes and the second round holes are arranged coaxially, and the insertion rod penetrates through the first round holes, the second round holes and the lower end of the insertion rod and is connected into the connector.

7. The steel structural high-rise building frame according to claim 6, wherein: the diameter of the first round hole is larger than that of the second round hole, the top end of the insertion rod is provided with a limiting block, the insertion rod is inserted into the second round hole, and the limiting block is embedded into the first round hole.

8. The steel structural high-rise building frame according to claim 1, wherein: the plug connector is formed by fixedly connecting and splicing a plurality of square pipes.

9. The steel structural high-rise building frame of claim 1, wherein: the upright posts, the cross beams and the plug connectors are made of steel structures.

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