CN208363290U - Connecting node for assembled architecture - Google Patents

Abstract

The utility model discloses a kind of connecting node for assembled architecture, including terminal pad, left risers, right risers and beam body, the left risers, right risers are set to terminal pad upper surface, the left risers, right risers are installed with beam body connect respectively, the beam body further comprises top plate and left plate, right side plate positioned at top plate two sides, it installs in left risers, right risers built-in beam body in the terminal pad and with beam body and connects, the left plate, right side plate lower part all have an outside flange item.The utility model is connected by the left and right vertical plate of terminal pad and the beam body of horizontal direction, terminal pad can be connect with the ground pile of vertical direction, it realizes ground pile and the quick of beam body disconnects, also, the setting of beam body flange item, so that the junction of beam body and all parts, contact of the face with face is realized such as between terminal pad, so that terminal pad greatly increases the bearing capacity of beam body, the stability of beam body connection is improved, to guarantee the stability of packed system.

Description

Connecting node for assembled architecture

Technical field

The utility model relates to assembled architecture technical fields, the more particularly, to connecting node of assembled architecture.

Background technique

Precast reinforced concrete structure is one of the important directions of China's building structure development, it is conducive to China's building Industrialized development, raising production efficiency is energy saving, develops Green environmental-protection building, and is conducive to improve and guarantee building work Cheng Zhiliang.Moreover, fabricated construction can continuously complete multiple or whole processes of engineering in order, thus what reduction was marched into the arena Engineering machinery type and quantity eliminate resting the time for procedure connection, realize interchange operation, reduce construction personnel, thus Work efficiency is improved, supplies consumption is reduced, reduces environmental pollution, is provided safeguard for green construction.

Although prefabricated integral frame structure there are many benefits, exist at connecting node in the actual construction process Many technical problems, for prefabricated integral frame structure, where beam-to-column joint is again construction key, beam-to-column joint at present Reinforcing bar connection mostly use mechanical sleeves connection, be welded to connect or wet type connection etc. forms；And these connecting nodes there is Construction is complicated, easy torsional deformation, the problems such as working procedure is more.

Utility model content

The purpose of the utility model is to provide a kind of connecting nodes for assembled architecture, this is used for assembled architecture Connecting node realizes quickly disconnecting for ground pile and beam body, also, the setting of beam body flange item, so that beam body and all parts Junction realizes that contact of the face with face improves so that terminal pad greatly increases the bearing capacity of beam body such as between terminal pad The stability of beam body connection, to guarantee the stability of packed system.

In order to achieve the above objectives, the technical solution adopted in the utility model is: a kind of connection section for assembled architecture Point, including terminal pad, left risers, right risers and beam body, the left risers, right risers are set to terminal pad upper surface, the left side Vertical plate, right risers are installed with beam body connect respectively；

The beam body further comprises top plate and left plate, right side plate positioned at top plate two sides, the left side in the terminal pad It installs in vertical plate, right risers built-in beam body and with beam body and connects, the left plate, right side plate lower part all have an outside flange Item.

Further improved scheme is as follows in above-mentioned technical proposal:

1. in above scheme, the flange item and left plate, the respective junction of right side plate are arc surface.

2. in above scheme, the width of the flange item and the width ratio of top plate are 1:4~9.

3. in above scheme, the flange item and top plate, left plate and right side plate form "Ji" type beam body.

4. in above scheme, the flange item is arranged in parallel with top plate.

5. in above scheme, the flange item is vertically arranged with left plate, right side plate respectively.

6. in above scheme, the left risers are arranged in parallel with right risers.

7. in above scheme, the left plate and right side plate are arranged in parallel.

8. in above scheme, by being welded and fixed between the left risers, right risers and terminal pad.

9. in above scheme, the beam body is integrally formed by steel plate and is obtained.

Due to the application of the above technical scheme, the utility model has the advantage that compared with prior art

The utility model is used for the connecting node of assembled architecture, passes through the left and right vertical plate of terminal pad and horizontal direction Beam body connection, terminal pad can be connect with the ground pile of vertical direction, realize ground pile and the quick of beam body disconnects；Secondly, its beam Body further comprises top plate and left plate, right side plate positioned at top plate two sides, left risers, right risers insertion in the terminal pad It installs in beam body and with beam body and connects, the left plate, right side plate lower part all have an outside flange item, beam body flange item Setting, so that the junction of beam body and all parts, realizes contact of the face with face, so that terminal pad is to beam such as between terminal pad The bearing capacity of body greatly increases, and the stability of beam body connection is improved, to guarantee the stability of packed system.

Detailed description of the invention

Attached drawing 1 is the connecting joint structure decomposition diagram that the utility model is used for assembled architecture；

Attached drawing 2 is the connecting node partial structural diagram that the utility model is used for assembled architecture.

In the figures above: 1, terminal pad；2, left risers；3, right risers；4, beam body；5, top plate；6, left plate；7, right side Plate；10, flange item.

Specific embodiment

Embodiment 1: a kind of connecting node for assembled architecture, including terminal pad 1, left risers 2, right risers 3 and beam Body 4, the left risers 2, right risers 3 are set to 1 upper surface of terminal pad, and the left risers 2, right risers 3 are installed with beam body 4 respectively Connection；

The beam body 4 further comprises top plate 5 and left plate 6, right side plate 7 positioned at 5 two sides of top plate, the terminal pad 1 On left risers 2, right risers 3 be embedded in beam body 4 in and with beam body 4 install connect, the left plate 6,7 lower part of right side plate all have One outside flange item 10.

Above-mentioned flange item 10 and left plate 6, the respective junction of right side plate 7 are arc surface；The width of above-mentioned flange item 10 The width ratio of degree and top plate 5 is 1:5；By being welded and fixed between above-mentioned left risers 2, right risers 3 and terminal pad 1；Above-mentioned beam Body 4 is integrally formed by steel plate and is obtained；Above-mentioned left plate 6 and right side plate 7 are arranged in parallel.

Embodiment 2: a kind of connecting node for assembled architecture, including terminal pad 1, left risers 2, right risers 3 and beam Body 4, the left risers 2, right risers 3 are set to 1 upper surface of terminal pad, and the left risers 2, right risers 3 are installed with beam body 4 respectively Connection；

The beam body 4 further comprises top plate 5 and left plate 6, right side plate 7 positioned at 5 two sides of top plate, the terminal pad 1 On left risers 2, right risers 3 be embedded in beam body 4 in and with beam body 4 install connect, the left plate 6,7 lower part of right side plate all have One outside flange item 10.

The width of above-mentioned flange item 10 and the width ratio of top plate 5 are 1:6；Above-mentioned flange item 10 and top plate 5, left plate 6 "Ji" type beam body 4 is formed with right side plate 7；Above-mentioned flange item 10 is arranged in parallel with top plate 5；Above-mentioned flange item 10 respectively with left side Plate 6, right side plate 7 are vertically arranged；Above-mentioned left risers 2 are arranged in parallel with right risers 3.

When using the above-mentioned connecting node for assembled architecture, pass through the left and right vertical plate of terminal pad and horizontal direction Beam body connection, terminal pad can be connect with the ground pile of vertical direction, realize ground pile and the quick of beam body disconnects；Secondly, beam body The setting of flange item, so that the junction of beam body and all parts, realizes contact of the face with face such as between terminal pad, so that even It connects disk to greatly increase the bearing capacity of beam body, the stability of beam body connection is improved, to guarantee the stability of packed system.

The above embodiments are only for explaining the technical ideas and features of the present invention, and its object is to allow be familiar with technique Personage can understand the content of the utility model and implement accordingly, do not limit the protection scope of the present invention. All equivalent change or modifications according to made by the spirit of the present invention essence, should all cover the protection scope of the utility model it It is interior.

Claims (10)

1. a kind of connecting node for assembled architecture, it is characterised in that: including terminal pad (1), left risers (2), right risers (3) and beam body (4), the left risers (2), right risers (3) are set to terminal pad (1) upper surface, and the left risers (2), the right side are vertical Plate (3) is installed with beam body (4) connect respectively；

The beam body (4) further comprises top plate (5) and left plate (6), the right side plate (7) for being located at top plate (5) two sides, the company It connects the left risers (2) on disk (1), connected in right risers (3) insertion beam body (4) and with beam body (4) installation, the left plate (6), Right side plate (7) lower part all has an outside flange item (10).

2. the connecting node according to claim 1 for assembled architecture, it is characterised in that: the flange item (10) with Left plate (6), right side plate (7) respective junction are arc surface.

3. the connecting node according to claim 1 for assembled architecture, it is characterised in that: the flange item (10) The width ratio of width and top plate (5) is 1:(4~9).

4. the connecting node according to claim 1 for assembled architecture, it is characterised in that: the flange item (10) with Top plate (5), left plate (6) and right side plate (7) form "Ji" type beam body (4).

5. the connecting node according to claim 1 for assembled architecture, it is characterised in that: the flange item (10) with Top plate (5) is arranged in parallel.

6. the connecting node according to claim 1 for assembled architecture, it is characterised in that: the flange item (10) point It is not vertically arranged with left plate (6), right side plate (7).

7. the connecting node according to claim 1 for assembled architecture, it is characterised in that: the left risers (2) with Right risers (3) are arranged in parallel.

8. the connecting node according to claim 1 for assembled architecture, it is characterised in that: the left plate (6) and Right side plate (7) is arranged in parallel.

9. the connecting node according to claim 1 for assembled architecture, it is characterised in that: the left risers (2), the right side By being welded and fixed between vertical plate (3) and terminal pad (1).

10. the connecting node according to claim 1 for assembled architecture, it is characterised in that: the beam body (4) is by steel Plate, which is integrally formed, to be obtained.