CN213477168U - Building node - Google Patents

Abstract

The utility model relates to a building connection technical field, concretely relates to building node. The supporting device comprises a stand column, wherein the upper end of the stand column is detachably connected with a cross beam perpendicular to the stand column, and a supporting piece used for supporting the cross beam is detachably fixed on the stand column below the cross beam. The utility model discloses, simple structure, convenient operation, the equipment is convenient, can improve packaging efficiency, improves the construction speed, and reduce cost, when assembled house dismantles, stand and crossbeam can be by reuse, can reduce building rubbish's production volume.

Description

Building node

Technical Field

The utility model relates to a building connection technical field, concretely relates to building node.

Background

Assembled house need be connected stand and crossbeam in the installation, and current connected mode generally is welded fastening, and after the welded fastening, when needs are dismantled assembled house, crossbeam and stand need mostly abandon, can not reuse, and it is inconvenient with the stand equipment simultaneously in the installation that has now, the packaging efficiency hangs down.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that an equipment is convenient, can improve packaging efficiency, improves construction speed, and reduce cost, when assembled house dismantles, stand and crossbeam can be by reuse, can reduce the building node of building rubbish's production volume.

In order to realize the purpose, the utility model provides a technical scheme is:

a building node comprises an upright post, a cross beam vertical to the upright post is detachably and fixedly connected at the upper end of the upright post, a supporting piece used for supporting the cross beam is detachably and fixedly arranged on the upright post below the cross beam,

the upright post is formed by pouring upright post framework and concrete, two layers of embedded parts which are arranged up and down are fixed at the upper end of the upright post framework, each layer of embedded part comprises four groups of embedded nuts, the four groups of embedded nuts are respectively fixed on the angle bars at the four corners of the upright post framework, the number of each group of embedded nuts is two, the included angle of the axle center of each group of embedded nuts is 90 degrees, the upper ends of the angle bars of the upright post framework are respectively fixed with a vertical protruding screw rod, the lower ends of the angle bars of the upright post framework are respectively fixed with a connector, the upper upright post and the lower upright post are connected with,

the cross beam is formed by pouring a cross beam framework and concrete, connectors are fixed at two ends of corner ribs of the cross beam framework, the connectors at the end part of the cross beam are in threaded connection with embedded nuts on the stand columns on one side of the cross beam through connecting screws,

the connector includes the angle steel, and the angle steel internal fixation has two foraminiferous fixed plates that are the rectangle, and the angle bar lower extreme of stand skeleton and the angle bar both ends of crossbeam skeleton have all processed the external screw thread, and the foraminiferous fixed plate of its one side is run through to the angle bar one end that processing has the external screw thread, and threaded connection is served in the nut to the angle bar one end that runs through foraminiferous fixed plate.

Specifically, the upper end of the beam framework is fixed with a mounting pipe, and the upper end of the mounting pipe is flush with the upper end of the beam.

Specifically, the support piece comprises two inverted L-shaped buckle plates, the buckle plates are buckled on the stand column and connected through fastening bolts, the support plate is fixed at the upper end of each buckle plate, and a plurality of adjusting bolts are in threaded connection with the support plate.

Specifically, the upper end of the protruding screw rod penetrates through a perforated fixing plate at the lower end of the upright post connector above, and the protruding screw rod is in threaded connection with a nut tightly abutting against the perforated fixing plate.

Specifically, connecting screw and embedded nut threaded connection, connecting screw run through the foraminiferous fixed plate that is close to embedded nut on the crossbeam end connection, and threaded connection has the nut on the connecting screw of above-mentioned foraminiferous fixed plate both sides.

Specifically, a top plate is fixed at the upper end of the upright post, and the protruding screw penetrates through the top plate.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses, simple structure, convenient operation, the equipment is convenient, can improve packaging efficiency, improves the construction speed, and reduce cost, when assembled house dismantles, stand and crossbeam can be by reuse, can reduce building rubbish's production volume.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is an explosion structure diagram of the present invention.

Fig. 3 is a schematic structural view of an end portion of the beam skeleton.

Fig. 4 is a schematic view of the structure of the beam end.

Fig. 5 is a bottom view of the tray.

Fig. 6 is a schematic structural view of the upper end of the upright post framework.

Detailed Description

As shown in figures 1-6, a building node, including stand 1, fixedly connected with can be dismantled rather than vertically crossbeam 3 to stand 1 upper end, its characterized in that can dismantle on the stand 1 of crossbeam 3 below and be fixed with the support 2 that is used for supporting crossbeam 3, support 2 includes two buckle 10 that are the shape of falling L, and two buckle 10 locks are on stand 1, and two buckle 10 pass through fastening bolt 9 to be connected, and buckle 10 upper end all is fixed with layer board 11, and equal threaded connection has a plurality of adjusting bolt 12 on layer board 11.

The stand 1 is by stand skeleton 15 and concrete placement shaping, and the 15 upper end of stand skeleton is fixed with the two-layer built-in fitting that sets up from top to bottom, and every layer of built-in fitting includes four groups of embedded nuts 6, and four groups of embedded nuts 6 are fixed respectively on the angle bar of 15 four corners departments of stand skeleton, and the number of every group of embedded nuts 6 is two, and the axle center contained angle of every group of embedded nuts 6 is 90 degrees, and the angle bar upper end of stand skeleton 15 all is fixed with vertical protruding screw rod 7, 1 upper end of stand is fixed with roof 14, and protruding screw rod 7 runs through roof 14, and the angle bar lower extreme of stand skeleton 15 all is fixed with connector 4, and two upper and lower stands 1 are through connector 4 and protruding screw rod 7 plug.

The crossbeam 3 is by crossbeam skeleton 13 and concrete placement shaping, and the both ends of crossbeam skeleton 13 angle muscle all are fixed with connector 4, and the connector 4 of 3 tip of crossbeam passes through connecting screw 8 threaded connection with embedded nut 6 on its one side stand 1.

The connector includes angle steel 4.1, and angle steel 4.1 internal fixation has two foraminiferous fixed plates 4.2 that are the rectangle, and the external screw thread has all been processed at the angle bar lower extreme of stand skeleton 15 and the angle bar both ends of crossbeam skeleton 13, and the foraminiferous fixed plate 4.2 of its one side is run through to the angle bar one end that processing has the external screw thread, and the angle bar that runs through foraminiferous fixed plate 4.2 serves threaded connection in the nut.

The upper end of the protruding screw rod 7 penetrates through a perforated fixing plate 4.2 at the lower end of the upright post 1 connecting head 4 above, and the protruding screw rod 7 is in threaded connection with a nut tightly abutting against the perforated fixing plate 4.2.

Connecting screw 8 and embedded nut 6 threaded connection, connecting screw 8 run through 3 end connection head 4 of crossbeam and go up foraminiferous fixed plate 4.2 that is close to embedded nut 6, and threaded connection has the nut on the connecting screw 8 of above-mentioned foraminiferous fixed plate 4.2 both sides.

Crossbeam skeleton 13 upper end is fixed with installation pipe 5, and installation pipe 5 upper end and 3 upper ends parallel and level of crossbeam are through setting up installation pipe 5 on crossbeam 3 to the convenience is fixed the corrugated sheet between crossbeam 3, and during the corrugated sheet installation between crossbeam 3, can beat self-tapping screw on installation pipe 5, has guaranteed the stability after the corrugated sheet installation, improves the installation effectiveness of corrugated sheet.

When stand 1 and crossbeam 3 assemble, fix on 1 upper portion of stand with holding in the palm piece 2, then with 3 tip seats of crossbeam on the layer board 11 of holding in the palm piece 2, run through connecting screw 8 on the connector 4 near the foraminiferous fixed plate 4.2 of stand 1, then adjust the height of crossbeam 3 through rotating adjusting bolt 12, make connecting screw 8 correspond with embedded nut 6 on the stand 1, rotate connecting screw 8, make connecting screw 8 and embedded nut 6 threaded connection, then twist the nut on connecting screw 8, make connecting screw 8 and the foraminiferous fixed plate 4.2 fixed connection that runs through, 3 tip of crossbeam this moment and the stand 1 fixed connection of its one side, can demolish holding in the palm piece 2 after crossbeam 3 is connected with stand 1.

When the upper and lower two upright columns 1 are connected, the raised screw 7 of the upright column 1 below penetrates through the perforated fixing plate 4.2 at the lower end of the upright column 1 connector 4 above, and then the nut is in threaded connection with the raised screw 7, so that the nut on the raised screw 7 tightly supports the perforated fixing plate 4.2 at the lower end of the upright column 1 connector 4 above, and the upper and lower upright columns 1 are fixedly connected. The utility model discloses, simple structure, convenient operation, the equipment is convenient, can improve packaging efficiency, improves the construction speed, and reduce cost, when assembled house was dismantled, stand 1 and crossbeam 3 can be by reuse, can reduce building rubbish's production volume.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (6)

1. A building node comprises a column (1), the upper end of the column (1) is detachably and fixedly connected with a beam (3) vertical to the column, and is characterized in that a supporting piece (2) used for supporting the beam (3) is detachably and fixedly arranged on the column (1) below the beam (3),

the upright post (1) is formed by pouring an upright post framework (15) and concrete, two layers of embedded parts which are arranged up and down are fixed at the upper end of the upright post framework (15), each layer of embedded part comprises four groups of embedded nuts (6), the four groups of embedded nuts (6) are respectively fixed on angle ribs at four corners of the upright post framework (15), the number of each group of embedded nuts (6) is two, the included angle of the axle center of each group of embedded nuts (6) is 90 degrees, vertical protruding screw rods (7) are fixed at the upper ends of the angle ribs of the upright post framework (15), connectors (4) are fixed at the lower ends of the angle ribs of the upright post framework (15), the upper upright post and the lower upright post (1) are connected with the protruding screw rods (7) in an inserting way through the,

the cross beam (3) is formed by pouring a cross beam framework (13) and concrete, the two ends of the angle ribs of the cross beam framework (13) are respectively fixed with a connector (4), the connectors (4) at the end part of the cross beam (3) are in threaded connection with the embedded nuts (6) on the upright columns (1) at one side of the cross beam through connecting screws (8),

the connector includes angle steel (4.1), and angle steel (4.1) internal fixation has two foraminiferous fixed plates (4.2) that are the rectangle, and the external screw thread has all been processed at the angle bar lower extreme of stand skeleton (15) and the angle bar both ends of crossbeam skeleton (13), and the foraminiferous fixed plate (4.2) of its one side are run through to angle bar one end that processing has the external screw thread, and the angle bar that runs through foraminiferous fixed plate (4.2) serves threaded connection in the nut.

2. A building node according to claim 1, characterized in that the upper end of the beam frame (13) is fixed with a mounting pipe (5), and the upper end of the mounting pipe (5) is flush with the upper end of the beam (3).

3. The building joint according to claim 1, wherein the support member (2) comprises two inverted L-shaped buckle plates (10), the buckle plates (10) are buckled on the upright post (1), the buckle plates (10) are connected through fastening bolts (9), the upper ends of the buckle plates (10) are both fixed with supporting plates (11), and the supporting plates (11) are both in threaded connection with a plurality of adjusting bolts (12).

4. A building joint according to claim 1, wherein the upper end of the protruding screw (7) extends through a perforated fixing plate (4.2) at the lower end of the connector (4) of the upper column (1), and the protruding screw (7) is threadedly connected with a nut which abuts against the perforated fixing plate (4.2).

5. The building joint according to claim 1, wherein the connecting screw (8) is in threaded connection with the embedded nut (6), the connecting screw (8) penetrates through a perforated fixing plate (4.2) on the end connector (4) of the cross beam (3) close to the embedded nut (6), and nuts are in threaded connection with the connecting screw (8) on two sides of the perforated fixing plate (4.2).

6. A building node according to claim 1, characterized in that a top plate (14) is fixed to the upper end of the upright (1), and the protruding screw (7) penetrates the top plate (14).

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