CN218643609U - BIM-based fabricated component for building construction - Google Patents

Abstract

The utility model discloses an assembly component for construction based on BIM relates to BIM's construction component field, including spliced pole, dovetail, wall body, mount and right angle frame, four groups of dovetails have been seted up to the outer wall of spliced pole, and are two sets of the inside cover of dovetail is equipped with the dovetail, one side of dovetail is provided with the wall body, and is two sets of in addition the inside of dovetail is provided with the mount, the spliced pole is provided with the right angle frame with the outside of wall body, the fourth screw hole has been seted up to the inside of mount, one side of mount is provided with the sealing post. The utility model discloses a set up mount, fourth screw hole, sealed post, second bolt and nut, make and not assemble in the dovetail of dovetail piece and wall body can not leak fluid cement, make BIM in the unified process of coordinating to the construction management, can be nimble make up the assembly to the spliced pole, make the assembled component be convenient for assemble different right angles or cross composite wall.

Description

BIM-based fabricated component for building construction

Technical Field

The utility model relates to a BIM's construction component technical field specifically is an assembly type component for construction based on BIM.

Background

BIM is short for building information modeling, is a unified and coordinated process from planning, designing, constructing to managing each stage, converts the concept of using standard into operation software of corresponding data, and in the current infrastructure construction, the application of BIM is more and more extensive.

When the existing assembly type component for building construction of BIM is used, connecting columns are fixedly arranged at fixed intervals according to data given by the BIM, different styles are selected according to the connection mode of an actual wall body, a tower crane lifts the wall body which is placed near the construction fixing and is placed in a standard specification to a specified position, after adjustment, dovetail blocks of the wall body are aligned to dovetail grooves of the connecting columns and slowly put down, a fixing frame is aligned to a first thread groove and a second thread groove and placed at the upper end of the joint of the connecting columns and the wall body, bolts are inserted and screwed, the wall body is stably connected with the connecting columns, a high-pressure fluid grouting machine is used for grouting the grouting ports on the connecting columns, fluid cement fills the space between the dovetail blocks through holes, the cement is solidified and hardened, the bolts are unscrewed, the fixing frame is dismounted, and the next position is fixed.

According to open No. CN 2155635U assembled component for construction based on BIM, including connection structure, modular structure and fixed knot structure, the connection structure both sides slip joint has modular structure, and passes through fixed knot constructs fixedly, connection structure includes spliced pole, dovetail and grout mouth, the dovetail has all been seted up to the side of spliced pole, the grout mouth is seted up to the top intermediate position of spliced pole, modular structure includes wall body and forked tail piece, the equal fixedly connected with equidistance's in both sides forked tail piece of wall body, just forked tail piece and dovetail are mutually supported, fixed knot structure includes mount and screw hole, two pairs of screw holes have been seted up to the equal symmetry in two sides around the mount. The utility model discloses in, the forked tail piece of wall body both sides is equidistance fixed connection, mutually supports with the dovetail of spliced pole, and the space between the forked tail piece can be filled up with cement under the grout construction, and grout with the grout mouth on the spliced pole is aimed at to high-pressure fluid grouting machine during its use, and fluid cement fills up through the space of through-hole between with the forked tail piece.

The patent mentions that the fluid cement fills the space between the dovetail blocks through the through holes, and the through holes are limited, so that the assembled component can only be combined in a cross shape, and when different right-angle combinations or other combination modes are carried out, the through holes in the dovetail grooves of unassembled walls and dovetail blocks can generate cement leakage, and the leakage is not protected in the patent, so that the existing assembled component for building construction of the BIM is single in use range.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an assembly component for construction based on BIM to it can produce the problem that cement leaked not to assemble the inside through-hole of dovetail of wall body and dovetail piece with assembly component for construction of BIM on the present market that the solution above-mentioned background art provided.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides an assembly type component for construction based on BIM, includes spliced pole, dovetail, wall body, mount and right angle frame, four sets of dovetails have been seted up to the outer wall of spliced pole, and is two sets of the inside cover of dovetail is equipped with the dovetail, one side of dovetail is provided with the wall body, and is two sets of in addition the inside of dovetail is provided with the mount, the spliced pole is provided with the right angle frame with the outside of wall body, the fourth screw hole has been seted up to the inside of mount, one side of mount is provided with sealed post.

Preferably, the inner wall of the fourth threaded hole is sleeved with a second bolt, and the outer wall of one end of the second bolt is sleeved with a nut.

Preferably, a grouting groove penetrating through the connecting column is formed in the connecting column, a through hole extending into the dovetail groove is formed in the inner wall of the grouting groove, a first threaded hole extending into the dovetail groove is formed in the outer side of the connecting column, a first bolt extending to the outer side of the first threaded hole is sleeved in the first threaded hole, and a sealing gasket is sleeved on the outer wall of the first bolt.

Preferably, a third threaded hole is formed in the wall body.

Preferably, a second threaded hole is formed in the dovetail block.

Preferably, the number of the right-angle frames is eight, and fifth threaded holes are formed in the eight right-angle frames.

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

1. this assembled component for construction based on BIM, when this device need pack the clearance between dovetail and the forked tail piece, through setting up mount, fourth screw hole, sealed post, second bolt and nut, can not leak fluid cement in the dovetail of messenger's unassembled forked tail piece and wall body, make BIM in the process of unifying the coordination to the construction management, can be nimble carry out the combination assembly to the spliced pole, make assembled component be convenient for assemble different right angles or cross combination wall.

2. This assembled component for construction based on BIM, this device need be to and between be connected when fixed, through setting up first bolt, seal gasket, second bolt and nut dock with the inside fifth screw hole of right angle frame, make the right angle frame fix the hookup location at spliced pole and wall body, through eight groups of right angle frames, make between spliced pole and the wall body remain stable, quantity and clamping position's area of contact through increase right angle frame, it is more stable between messenger's spliced pole and the wall body, make the clearance between dovetail and the forked tail piece keep stable at the in-process of going on filling, be convenient for BIM's construction can dismantle used repeatedly with right angle frame after having used assembled component.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a front sectional view of the present invention;

fig. 3 is a top view of the present invention;

FIG. 4 is a front view of the connecting column of the present invention;

fig. 5 is a right side view of the fixing frame of the present invention;

fig. 6 is a perspective view of the right-angle stand of the present invention.

In the figure: 1. connecting columns; 101. grouting grooves; 102. a through hole; 103. a first threaded hole; 104. a first bolt; 105. sealing gaskets; 2. a dovetail groove; 3. a dovetail block; 301. a second threaded hole; 4. a wall body; 401. a third threaded hole; 5. a fixed mount; 501. a fourth threaded hole; 502. sealing the column; 503. a second bolt; 504. a nut; 6. a right-angle frame; 601. and a fifth threaded hole.

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.

Referring to fig. 1-6, the present invention provides a technical solution: the utility model provides an assembled component for construction based on BIM, including spliced pole 1, dovetail 2, dovetail block 3, wall body 4, mount 5 and right angle frame 6, four sets of dovetail 2 have been seted up to spliced pole 1's outer wall, the inside cover of two sets of dovetail 2 is equipped with dovetail block 3, one side of dovetail block 3 is provided with wall body 4, the inside of two sets of dovetail 2 is provided with mount 5 in addition, spliced pole 1 is provided with right angle frame 6 with the outside of wall body 4, fourth screw hole 501 has been seted up to the inside of mount 5, one side of mount 5 is provided with sealing post 502.

As can be seen from fig. 1, 2, 3 and 5, the inner wall of the fourth threaded hole 501 is sleeved with a second bolt 503, the outer wall of one end of the second bolt 503 is sleeved with a nut 504, the second bolt 503 is in threaded connection with the nut 504, and the dovetail groove 2 is in sliding and clamping connection with the dovetail block 3.

In specific implementation, when grouting needs to be performed on the grouting groove 101 after the wall 4 is connected with the connecting column 1 through the dovetail groove 2 and the dovetail block 3 in a clamping manner, an operator pushes the sealing column 502 on one side of the fixing frame 5 into the through hole 102 on the inner side of the dovetail groove 2 in the dovetail groove 2 where the dovetail block 3 and the wall 4 are not assembled, the sealing column 502 clamps the through hole 102, the operator enables the second bolt 503 to pass through the fourth threaded hole 501 and the first threaded hole 103, and the fixing frame 5 is fixed on the inner side of the dovetail groove 2 through the threaded connection of the nut 504 and the second bolt 503;

when grouting is performed in the grouting groove 101, fluid cement is injected into the grouting groove 101, the fluid cement can only flow into the dovetail groove 2 assembled with the dovetail block 3 and the wall 4 through the through hole 102, and a gap between the dovetail groove 2 and the dovetail block 3 is filled, so that the fluid cement cannot flow out from the through hole 102 connected with the dovetail groove 2 unassembled with the dovetail block 3 and the wall 4.

As can be known from fig. 1, fig. 2, fig. 3 and fig. 4, a grouting groove 101 penetrating through the connecting column 1 is formed in the connecting column 1, a through hole 102 extending into the dovetail groove 2 is formed in the inner wall of the grouting groove 101, a first threaded hole 103 extending into the dovetail groove 2 is formed in the outer side of the connecting column 1, a first bolt 104 extending to the outer side of the first threaded hole 103 is sleeved in the first threaded hole 103, a sealing gasket 105 is sleeved on the outer wall of the first bolt 104, and the sealing column 502 is connected with the through hole 102 in a clamping manner.

In specific implementation, the gap between the dovetail groove 2 and the dovetail block 3 can be filled with cement through the grouting groove 101 and the through hole 102.

Referring to fig. 2, a third threaded hole 401 is formed in the wall 4, and the first bolt 104 is in threaded connection with the third threaded hole 401.

Referring to fig. 2, a second threaded hole 301 is formed in the dovetail block 3, and the first bolt 104 is threadedly connected to the second threaded hole 301.

Referring to fig. 6, eight sets of right-angle frames 6 are provided, a fifth threaded hole 601 is formed inside each of the eight sets of right-angle frames 6, and the fifth threaded hole 601 is slidably connected with the second bolt 503.

During the concrete implementation, when needs are fixed between the connecting column 1 and the wall body 4, an operator attaches the right-angle frame 6 to the connecting position of the connecting column 1 and the wall body 4, the operator enables the second bolt 503 to penetrate through the first threaded hole 103 and the fourth threaded hole 501 to be in threaded connection with the nut 504, the right-angle frame 6 is connected and fixed with the outer wall of the connecting column 1, the first bolt 104 penetrates through the first threaded hole 103 to be in threaded connection with the second threaded hole 301 inside the dovetail block 3, the right-angle frame 6, the connecting column 1 and the dovetail block 3 are connected, the first bolt 104 penetrates through the fifth threaded hole 601 and the third threaded hole 401, the first bolt 104 is in threaded connection with the third threaded hole 401, the right-angle frame 6 clamps the connecting column 1 and the wall body 4, the space between the connecting column 1 and the wall body 4 is kept stable, and the building construction operation of the BIM is facilitated.

In summary, the following steps: the method comprises the steps of fixedly arranging connecting columns 1 at fixed intervals according to data given by BIM, selecting different styles according to the connecting mode of a wall body 4, hanging the wall body 4 which is placed near a construction fixture and is in a standard specification to a specified position by a tower crane, after adjustment, slowly putting down a dovetail block 3 on one side of the wall body 4 by aiming at a dovetail groove 2 of the connecting column 1, butting with a fifth threaded hole 601 in a right-angle frame 6 by arranging a first bolt 104, a sealing gasket 105, a second bolt 503 and a nut 504, fixing the right-angle frame 6 at the connecting position of the connecting column 1 and the wall body 4, stably connecting the wall body 4 and the connecting column 1, grouting by aiming at the inside of a grouting groove 101 through a high-pressure fluid grouting machine, filling the space between the dovetail block 3 and the dovetail groove 2 through a through hole 102 with fluid cement, waiting for solidification and hardening of the cement, unscrewing the first bolt 104 and the second bolt 503, detaching the right-angle frame 6, improving the efficiency of construction by using the assembled components, setting the processes of planning, designing and managing unified stages through BIM, and improving the efficiency of building use.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (6)

1. The utility model provides an assembled component for construction based on BIM, includes spliced pole (1), dovetail (2), forked tail piece (3), wall body (4), mount (5) and right angle frame (6), its characterized in that: four sets of dovetail (2) of group have been seted up to the outer wall of spliced pole (1), and are two sets of the inside cover of dovetail (2) is equipped with dovetail (3), one side of dovetail (3) is provided with wall body (4), and another is two sets of the inside of dovetail (2) is provided with mount (5), spliced pole (1) is provided with right angle frame (6) with the outside of wall body (4), fourth screw hole (501) have been seted up to the inside of mount (5), one side of mount (5) is provided with sealing post (502).

2. The BIM-based fabricated construction member for building construction according to claim 1, wherein: the inner wall of the fourth threaded hole (501) is sleeved with a second bolt (503), and the outer wall of one end of the second bolt (503) is sleeved with a nut (504).

3. The BIM-based fabricated construction member for building construction according to claim 2, wherein: grout groove (101) that runs through spliced pole (1) are seted up to the inside of spliced pole (1), through-hole (102) that extend to dovetail (2) inside are seted up to the inner wall of grout groove (101), first screw hole (103) that extend to dovetail (2) inside are seted up in the outside of spliced pole (1), the inside cover of first screw hole (103) is equipped with first bolt (104) that extend to first screw hole (103) outside, the outer wall cover of first bolt (104) is equipped with seal gasket (105).

4. The BIM-based fabricated construction member for building construction according to claim 1, wherein: and a third threaded hole (401) is formed in the wall body (4).

5. The BIM-based fabricated construction member for building construction according to claim 1, wherein: and a second threaded hole (301) is formed in the dovetail block (3).

6. The BIM-based fabricated construction member for building construction according to claim 1, wherein: eight groups of right-angle frames (6) are arranged, and fifth threaded holes (601) are formed in the eight groups of right-angle frames (6).

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