CN218176277U - High-precision curtain wall full-assembly type keel - Google Patents

Abstract

The utility model discloses a full assembled fossil fragments of high accuracy curtain, concretely relates to curtain engineering field, including pre-buried subassembly, switching subassembly, first coupling assembling and second coupling assembling, the switching subassembly has been linked up to pre-buried subassembly both sides, be connected by first coupling assembling between pre-buried subassembly and the switching subassembly, it is two sets of the joint has the keel board between the switching subassembly, connect by second coupling assembling between the switching subassembly of keel board and both sides. The utility model has the advantages of can intervene the curtain construction in the major structure construction stage, under the normal construction condition, on-the-spot weldment work has been avoided completely, on-the-spot risk factor has been reduced, whole bolted connection improves the construction speed on the spot greatly, it is little influenced by environmental factor, the spacing connection of flute improves the installation accuracy of fossil fragments greatly, and then guarantees leveling of panel and the holistic pleasing to the eye degree of engineering, simultaneously, reduced the increase probability that the rearmounted piece that buries, reduced engineering cost.

Description

High-precision curtain wall full-assembly type keel

Technical Field

The utility model relates to a curtain engineering technical field, more specifically say, the utility model relates to a full assembled fossil fragments of high accuracy curtain.

Background

In the curtain wall engineering, the construction cost is reduced, the construction progress is accelerated, and the construction of the embedded part can be involved in the main structure stage. At present, two types of embedded parts which are widely used mainly comprise a plate type embedded part and a groove type embedded part.

The plate-type embedded part and the adapter part need to be welded and connected, assembly cannot be achieved, installation accuracy of the keel cannot be guaranteed in the welding process, and the keel is greatly affected by human factors.

Although the groove type embedded part can realize bolt connection, a narrow through long groove is difficult to keep flat with the structure surface, the size of the adapter cannot be accurately ensured, and the installation precision of the keel is further reduced. When the deviation is large, a rear embedded part is needed to be adopted for making up, and further material and labor waste is caused.

The two keel connecting methods can not realize the full assembly of the installation of the curtain wall keel and are difficult to ensure the installation precision.

Therefore, a high-precision curtain wall fully-assembled keel is provided.

SUMMERY OF THE UTILITY MODEL

In order to overcome the above-mentioned defect of prior art, the embodiment of the utility model provides a full assembled fossil fragments of high accuracy curtain is connected through built-in fitting and adaptor and can be adjusted fixedly to the fossil fragments of installation, improves the installation accuracy of fossil fragments to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a full assembled fossil fragments of high accuracy curtain, includes pre-buried subassembly, switching subassembly, first connecting element and second coupling assembling, the switching subassembly has been linked up to pre-buried subassembly both sides, be connected by first connecting element between pre-buried subassembly and the switching subassembly, it is two sets of the joint has the keel board between the switching subassembly, connect by second coupling assembling between the switching subassembly of keel board and both sides.

In a preferred embodiment, the embedded assembly comprises embedded plates, and the embedded plates are attached to the wall surface by means of concrete pouring;

the two long strip holes are formed in the middle of the embedded plate and are symmetrical;

four reinforcing steel bars, wherein each reinforcing steel bar is welded at four corners of the embedded plate through a through hole;

and the process groove is formed in the middle of the embedded plate and is positioned at the same side as the reinforcing steel bars, and the long strip holes are positioned in the process groove.

In a preferred embodiment, the adapter assembly includes a first steel plate that fits against one side of the keel plate;

the second steel plate is attached to one side of the embedded plate, and the second steel plate and the first steel plate are formed by bending a 6mm thick grooved steel plate;

the vertical bar holes are formed in the second steel plate;

the steel plate comprises two transverse bar holes, and the transverse bar holes are uniformly formed in the first steel plate.

In a preferred embodiment, the first connecting assembly comprises a T-shaped bolt inserted into a mounting hole formed by connecting the elongated bar hole and the vertical bar hole;

and the first gasket is attached to the outer side of the second steel plate, sleeved on the T-shaped bolt and fixed by a nut.

In a preferred embodiment, the second connecting assembly comprises two second gaskets, and each second gasket is attached to the outer side of the first steel plate;

and each standard bolt is respectively inserted into the corresponding transverse strip hole, and the distance between the two second gaskets is adjusted through the nut, so that the keel plate in the middle is clamped.

In a preferred embodiment, the joint of the first gasket and the T-shaped bolt and the joint of the second gasket and the standard bolt are respectively provided with a cushion ring in a cushioning mode.

In a preferred embodiment, the T-shaped bolt and the standard bolt are made of stainless steel.

The utility model discloses a technological effect and advantage:

1. through the arrangement of the pre-buried assembly, the switching assembly, the first connecting assembly and the second connecting assembly, compared with the prior art, the keel plate is fixed after the whole body is connected through the bolts, so that the welding work required on site is avoided, the site risk factors are reduced, the installation is safer, the installation speed is improved, and the influence of the site environment is less;

2. the embedded plate, the first steel plate, the second steel plate, the first gasket and the second gasket are provided with the grooves, compared with the prior art, when the embedded plate is installed, groove surfaces on all structures can be combined, groove limiting connection is carried out, the installation precision of the keel is improved, and the flatness of a panel and the attractiveness of the whole engineering are further ensured;

3. through the setting at built-in panel one side welding reinforcing bar, compare with prior art, will fix at corresponding position at the built-in fitting through the ligature before installing, carry out concrete placement again, the installation of the follow-up keel board of being convenient for has reduced the probability that increases rearmounted built-in fitting, has reduced engineering cost.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic side view of the three-dimensional structure of the present invention.

Fig. 3 is a schematic structural diagram of the embedded assembly of the present invention.

Fig. 4 is the side-view three-dimensional structure schematic diagram of the pre-buried assembly of the utility model.

Fig. 5 is a schematic structural diagram of the adapter assembly of the present invention.

Fig. 6 is a schematic structural diagram of the first connection assembly of the present invention.

Fig. 7 is a schematic structural diagram of the second connection assembly of the present invention.

The reference signs are: 1. pre-burying the assembly; 101. pre-burying a plate; 102. an elongate strip aperture; 103. reinforcing steel bars; 104. a process tank; 2. a switching component; 201. a first steel plate; 202. a second steel plate; 203. vertical bar holes; 204. transverse bar holes; 3. a first connection assembly; 301. a T-bolt; 302. a first gasket; 4. a second connection assembly; 401. a second gasket; 402. a standard bolt; 5. dragon bone plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The fully-assembled keel for the high-precision curtain wall as shown in the attached figures 1-7 comprises a pre-embedded component 1, switching components 2, first connecting components 3 and second connecting components 4, the switching components 2 are connected to two sides of the pre-embedded component 1, the pre-embedded component 1 and the switching components 2 are connected through the first connecting components 3, two sets of keel plates 5 are connected between the switching components 2 in a clamped mode, and the keel plates 5 are connected with the switching components 2 on two sides through the second connecting components 4.

As shown in fig. 1, 3 and 4, the embedded assembly 1 includes an embedded plate 101, and the embedded plate 101 is attached to a wall surface by means of concrete pouring;

the two elongated holes 102 are formed in the middle of the embedded plate 101, and are symmetrical;

the reinforcing steel bars 103 are welded at four corners of the embedded plate 101 through holes;

the process groove 104 is formed in the middle of the embedded plate 101 and is located on the same side as the reinforcing steel bars 103, and the elongated holes 102 are located inside the process groove 104.

As shown in fig. 1 and 5, the adapter assembly 2 comprises a first steel plate 201, wherein the first steel plate 201 is attached to one side of the keel plate 5;

the second steel plate 202 is attached to one side of the embedded plate 101, and the second steel plate 202 and the first steel plate 201 are formed by bending a 6mm thick grooved steel plate;

the vertical bar holes 203 are formed in the second steel plate 202;

two transverse bar holes 204, and each transverse bar hole 204 is uniformly arranged on the first steel plate 201.

As shown in fig. 1 and 6, the first connecting assembly 3 includes a T-shaped bolt 301, and the T-shaped bolt 301 is inserted into a mounting hole formed by connecting the elongated hole 102 and the vertical hole 203;

and the first gasket 302 is attached to the outer side of the second steel plate 202, sleeved on the T-shaped bolt 301 and fixed by a nut.

As shown in fig. 1 and 7, the second connecting assembly 4 includes two second spacers 401, and each second spacer 401 is attached to the outer side of the first steel plate 201;

two standard bolts 402, each of the standard bolts 402 is inserted into a corresponding transverse bar hole 204, and the distance between the two second spacers 401 is adjusted by a nut, so as to clamp the keel plate 5 in the middle.

As shown in fig. 1, 6 and 7, backing rings are padded at the joint of the first gasket 302 and the T-shaped bolt 301, and at the joint of the second gasket 401 and the standard bolt 402.

As shown in fig. 1, the T-shaped bolt 301 and the standard bolt 402 are made of stainless steel.

The utility model discloses the theory of operation: when the device is used, the embedded component 1 is fixed at a corresponding position through binding, then concrete pouring is carried out, after concrete form removal is finished, the embedded component 1 at the corresponding position is cleaned, polyethylene foam materials in a shell of a process groove 104 of the embedded component 1 are removed, finally, the two adapter components 2 are respectively installed on the embedded component 1 through the first connecting component 3, and after the keel plate 5 is adjusted in position, the two adapter components 2 are bolted between the second connecting component 4 to finish installation;

specifically, when two adapter assemblies 2 are pre-installed on the embedded assembly 1, two T-shaped bolts 301 are respectively inserted into the elongated strip holes 102, the vertical strip holes 203 formed in the two adapter assemblies 2 are sleeved on the T-shaped bolts 301 on the corresponding side on the other side, and then the first gasket 302 is sleeved on the T-shaped bolts 301 and is approximately fixed through nuts;

then, inserting the keel plate 5 between the two switching components 2, respectively sleeving the two standard bolts 402 on the second connecting component 4 with second gaskets 401, inserting the second gaskets 401 into the corresponding transverse strip holes 204, inserting the standard bolts to the other end through mounting holes formed in the keel plate 5, sleeving the second gaskets 401 on the standard bolts 402 at the other end, and pre-fixing the standard bolts through nuts;

finally, the position of the keel plate 5 is adjusted, the grooves formed in the first gasket 302 and the second gasket 401 respectively correspond to the grooves formed in the second steel plate 202 and the first steel plate 201 to be clamped, and then the nuts installed respectively are fixed, so that the keel plate 5 is fixed to a required position.

Claims (6)

1. The utility model provides a full assembled fossil fragments of high accuracy curtain, includes pre-buried subassembly (1), switching subassembly (2), first coupling assembling (3) and second coupling assembling (4), its characterized in that: the two sides of the embedded component (1) are connected with the switching components (2), the embedded component (1) and the switching components (2) are connected through a first connecting component (3), a keel plate (5) is clamped between the two groups of switching components (2), and the keel plate (5) is connected with the switching components (2) on the two sides through a second connecting component (4);

the embedded assembly (1) comprises an embedded plate (101), and the embedded plate (101) is attached to the wall surface by means of concrete pouring;

the embedded plate structure comprises two elongated holes (102), wherein each elongated hole (102) is formed in the middle of the embedded plate (101) to form symmetry;

the four steel bars (103), each steel bar (103) is welded at four corners of the embedded plate (101) through a perforation;

the process groove (104) is formed in the middle of the embedded plate (101) and on the same side as the reinforcing steel bars (103), and the long strip holes (102) are located inside the process groove (104).

2. The full-assembled keel for the high-precision curtain wall as claimed in claim 1, wherein: the adapter assembly (2) comprises a first steel plate (201), and the first steel plate (201) is attached to one side of the keel plate (5);

the second steel plate (202) is attached to one side of the embedded plate (101), and the second steel plate (202) and the first steel plate (201) are formed by bending a grooved steel plate with the thickness of 6 mm;

the vertical bar hole (203), the vertical bar hole (203) is arranged on the second steel plate (202);

the two transverse bar holes (204) are uniformly formed in the first steel plate (201).

3. The high-precision curtain wall fully-assembled keel according to claim 1, is characterized in that: the first connecting assembly (3) comprises a T-shaped bolt (301), and the T-shaped bolt (301) is inserted into a mounting hole formed by connecting the elongated strip hole (102) and the vertical strip hole (203);

and the first gasket (302) is attached to the outer side of the second steel plate (202), sleeved on the T-shaped bolt (301) and fixed by a nut.

4. The high-precision curtain wall fully-assembled keel according to claim 1, is characterized in that: the second connecting assembly (4) comprises two second gaskets (401), and each second gasket (401) is attached to the outer side of the first steel plate (201);

and the two standard bolts (402) are respectively inserted into the corresponding transverse strip holes (204), and the distance between the two second gaskets (401) is adjusted through nuts, so that the keel plate (5) in the middle is clamped.

5. The full-fabricated keel for high-precision curtain walls according to claim 3, is characterized in that: the joint of the first gasket (302) and the T-shaped bolt (301) and the joint of the second gasket (401) and the standard bolt (402) are respectively provided with a backing ring.

6. The full-fabricated keel for high-precision curtain walls according to claim 3, is characterized in that: the T-shaped bolt (301) and the standard bolt (402) are both made of stainless steel.

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