CN113323137A - BIM-based assembly type component connecting structure and construction method thereof - Google Patents

Abstract

The utility model relates to the field of building element technique, especially, relate to an assembled component connection structure based on BIM and construction method thereof, link firmly the steel crossbeam on the stand including stand and one end, still be equipped with the bracket that is used for supporting the steel crossbeam on the stand, the bracket includes the backup pad of two horizontal intervals arrangements, be equipped with the apron with the equal butt of two backup pads between two backup pads, the steel crossbeam includes the web and connects the pterygoid lamina in web both sides, be provided with the cavity that is used for saving grout in the web, the apron rotates to be connected on a pterygoid lamina of steel crossbeam, be equipped with one end and apron connection circular arc spare on the apron, the free end of circular arc spare stretches into in the cavity of web, still set up the through-hole that supplies circular arc spare free end to wear out the cavity on the pterygoid lamina that supplies circular arc spare to pass. The scheme can save the operation of erecting the template for constructing the bracket and the cast-in-place bracket at the high-altitude position, thereby facilitating the operation of constructors for constructing the bracket.

Description

BIM-based assembly type component connecting structure and construction method thereof

Technical Field

The application relates to the technical field of building components, in particular to an assembly type component connecting structure based on BIM and a construction method thereof.

Background

With the progress of science and technology and the development of the construction industry, fabricated buildings are being widely popularized. BIM is a digital expression mode for the entity and functional characteristics of a facility, and is used as an advanced information model technology and is more and more widely applied in the field of building construction by being matched with an assembly type.

In an assembly type component connecting structure in the related art, in order to install a beam made of profile steel on a concrete upright post, on the basis that the end part of the steel beam is connected with the upright post through a high-strength bolt, a bracket is arranged on the upright post and used for supporting the steel beam, the bracket and the upright post are poured together, the application range of a template is limited, therefore, more construction sites select to adopt a cast-in-place mode to construct the bracket, and in the process of constructing the bracket in a cast-in-place mode, the operation of erecting the template and casting in a high altitude by constructors is very inconvenient, and improvement is needed.

Disclosure of Invention

In order to facilitate the operation of constructors for constructing the corbels, the application provides an assembly type component connecting structure based on BIM and a construction method thereof.

In a first aspect, the present application provides an assembled component connection structure based on BIM, which adopts the following technical scheme:

the utility model provides an assembled component connection structure based on BIM, link firmly the steel crossbeam on the stand including stand and one end, still be equipped with the bracket that is used for supporting the steel crossbeam on the stand, the bracket includes the backup pad that two horizontal intervals were arranged, be equipped with the apron with the equal butt of two backup pads between two backup pads, the steel crossbeam includes the web and connects the pterygoid lamina in the web both sides, be provided with the cavity that is used for saving grout in the web, the apron rotates to be connected on a pterygoid lamina of steel crossbeam, be equipped with one end and apron connection circular arc spare on the apron, the axis that the circular arc spare corresponds coincides with the rotation axis of apron, the free end of circular arc spare stretches into in the cavity of web, still set up the through-hole that supplies circular arc spare free end to wear out the cavity on the pterygoid lamina that supplies the circular arc spare to pass through-hole to spaced position between two backup pads.

Through adopting above-mentioned technical scheme, constructor pre-buries the backup pad of bracket on the stand, and when can installing the steel crossbeam, constructor lifts by crane the steel crossbeam to make the tip of steel crossbeam take in the backup pad, constructor then with the tip and the stand fixed connection of steel crossbeam. Constructor rotates the apron and drives the circular arc piece and rotate, when the apron supports two backup pads, in the free end screw in cavity of circular arc piece, the through-hole is opened, pour into the grout in the cavity in advance and flow into by the stand, in the space that two backup pads and apron enclose, the side form that the preparation bracket was used is acted as to apron and two backup pads, after the grout solidifies, the common support steel crossbeam of bracket is constituteed with apron and backup pad to the grout, strengthens the joint strength between steel crossbeam and the stand. The scheme saves the operation of erecting a template for constructing the bracket at a high altitude position and casting the bracket in situ, thereby facilitating the operation of constructors for constructing the bracket.

Preferably, the web plate comprises two side plates arranged at intervals, and two side edges of each side plate are respectively connected with the adjacent wing plates.

By adopting the technical scheme, the web plate is surrounded by the two side plates and the two wing plates, so that the steel beam can be conveniently processed and manufactured.

Preferably, a flow guide block is arranged between the two side plates, the flow guide block is arranged on a wing plate connected with the cover plate, and the side wall of the flow guide block, which is far away from the wing plate, is inclined downwards towards the through hole.

By adopting the technical scheme, the arrangement of the flow guide block increases the inclination degree of the bottom of the cavity, so that cement slurry can flow to the through hole more easily, and the residue of the cement slurry in the cavity can be reduced.

Preferably, the two sides of the cover plate are respectively provided with an ear plate, a fixing bolt penetrates through the ear plates, and the fixing bolt is threaded through a wing plate connected with the cover plate.

Through adopting above-mentioned technical scheme, when the apron supported the pterygoid lamina, the free end closure of circular arc piece was worn out the cavity and is closed with the through-hole, and constructor passes through the position of otic placode and the fixed bolt fixed cover board this moment, and at the in-process of installation steel crossbeam, grout will be difficult to take place to leak through the through-hole.

Preferably, two one side that the backup pad was carried on the back mutually is equipped with the fixed block respectively, and when the apron was in the position between two backup pads, the otic placode was connected with the fixed block of homonymy through fixing bolt.

Through adopting above-mentioned technical scheme, through fixed bolt connection otic placode and fixed block, the position of apron between two backup pads just is fixed, waits afterwards that grout solidifies can.

Preferably, two the caulking grooves for the side edge of the corresponding cover plate to be embedded are formed in the support plates.

Through adopting above-mentioned technical scheme, the caulking groove can increase the area of contact of apron and backup pad to reduce grout and be used for the probability that takes place to leak between the backup pad from the apron.

Preferably, a bearing plate which is abutted against the free end of the cover plate is connected between the two support plates, and the vertical projection of the through hole falls on the bearing plate.

Through adopting above-mentioned technical scheme, the free end of circular arc spare withdraws into the cavity and will support the backup pad earlier than the apron, so when the apron still not encircled with two backup pads, the through-hole has had partial grout to flow out, and accepts the effect that the board played and accepted the grout in advance to can reduce the waste of grout.

On the other hand, the application also provides a construction method of the assembling type component connecting structure based on the BIM, which adopts the following technical scheme:

s1, arranging a support plate when constructing the upright post;

s2, processing the steel beam to complete the connection of the cover plate and the arc piece with the steel beam;

s3, injecting cement slurry into the cavity of the web plate, and enabling the free end of the arc piece to penetrate out of the closed through hole;

s4, hoisting the steel beam on the upright post, and fixing the end part of the steel beam on the upright post;

s5, rotating the cover plate to the position where the cover plate abuts against the two support plates, screwing the arc piece into the cavity, opening the through hole, and allowing cement slurry to flow into a space defined by the upright column, the two support plates and the cover plate through the through hole to wait for the cement slurry to solidify.

By adopting the technical scheme, the cover plate and the two support plates are used as side molds for pouring the bracket, cement paste is pre-stored in the steel cross beam, the steel cross beam is connected with the stand column, the cement paste can be poured between the support plates, and after the cement paste is solidified, the cement paste, the support plates and the cover plate form the bracket to jointly support the steel cross beam. The operation of erecting the template and the cast-in-place bracket at high altitude is omitted, so that the operation of constructing the bracket by constructors can be facilitated.

In summary, the present application includes at least one of the following beneficial technical effects:

1. through the arrangement of the supporting plate, the cover plate, the cavity and the arc piece, the operation of erecting a template at high altitude and casting in place by constructors can be omitted, so that the operation of constructing the bracket by the constructors is facilitated;

2. through the arrangement of the two side plates and the two wing plates, the steel cross beam has the function of storing cement paste and is convenient to process and manufacture;

3. the residue of cement slurry in the cavity can be reduced by arranging the flow guide block;

4. through the arrangement of the bearing plate, cement paste flowing out of the cavity in advance can be borne, so that the waste of the cement paste can be reduced.

Drawings

FIG. 1 is a schematic structural view showing the overall structure of a BIM-based prefabricated component connection structure in an embodiment of the present application;

FIG. 2 is a schematic view for illustrating a coupling structure of the assemblable members when the arc member opens the through-hole;

fig. 3 is a schematic view for illustrating the coupling structure of the assemblable members when the circular arc pieces close the through-holes.

Description of reference numerals: 1. a column; 11. a connecting plate; 111. an anchor bolt; 12. pre-embedding ribs; 2. a steel beam; 21. a web; 211. a side plate; 22. a wing plate; 221. a through hole; 23. a cavity; 24. a plugging block; 25. a circular arc member; 26. a flow guide block; 3. a bracket; 31. a support plate; 311. a fixed block; 312. caulking grooves; 32. a cover plate; 321. an ear plate; 33. fixing the bolt; 34. a bearing plate.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses assembled component connection structure based on BIM. Referring to fig. 1, the connection structure includes a vertical column 1 and a steel beam 2, two connection plates 11 arranged at horizontal intervals are pre-embedded on the vertical column 1, the end of the steel beam 2 is located between the two connection plates 11, an anchor bolt 111 is arranged between the two connection plates 11 in a penetrating manner, and the steel beam 2 is connected with the vertical column 1 by the anchor bolt 111 penetrating through the end of the steel beam 2. Still be provided with on the stand 1 and be used for supporting steel crossbeam 2's bracket 3, the top of bracket 3 and the bottom butt of steel crossbeam 2.

Referring to fig. 2, the bracket 3 includes two support plates 31 disposed at an interval, and the arrangement direction of the two support plates 31 is the same as the arrangement direction of the two connection plates 11. Backup pad 31 is pre-buried in stand 1, a side that stand 1 was kept away from to backup pad 31 sets up downwards towards stand 1 slope, top-down has set gradually apron 32 and has accepted board 34 between the side that stand 1 was kept away from to two backup pads 31, apron 32 and the mutual butt of the relative one end of accepting board 34, the both sides of apron 32 respectively with two backup pad 31 butts, the top of apron 32 is the same with the top position height of backup pad 31, the both sides of accepting board 34 link firmly with two backup pads 31 respectively, the bottom of accepting board 34 is the same with the bottom position height of backup pad 31. The space enclosed by the upright post 1, the two support plates 31, the cover plate 32 and the bearing plate 34 is used for filling pouring cement paste, and after the cement paste is solidified, the cement paste and the bracket 3 consisting of the support plates 31, the cover plate 32 and the bearing plate 34 support the steel beam 2 together. A plurality of embedded ribs 12 extending into the position between the two supporting plates 31 are embedded in the upright post 1, and cement slurry is wrapped on the embedded ribs 12 after being solidified, so that the connection degree of the cement slurry and the upright post 1 can be enhanced.

Referring to fig. 2, the steel beam 2 includes a web 21 and two wing plates 22 respectively fixed on two sides of the web 21, when the end of the steel beam 2 is fixed on the upright post 1, the width direction of the web 21 is vertically arranged, and the width directions of the two wing plates 22 are horizontally arranged. The web 21 comprises two side plates 211 which are horizontally arranged at intervals, the two side plates 211 and the two wing plates 22 jointly enclose a cavity 23, and cement paste used for forming a part of the bracket 3 is stored in the cavity 23. Compared with the method of slotting on the web plate 21, the method has the advantages that the cavity 23 is formed by the side plates 211 and the wing plates 22, and the processing and manufacturing of the steel beam 2 are more convenient. The opening of the cavity 23 at the end of the steel beam 2 is embedded with a block 24, and the anchor bolt 111 passes through the side plate 211 of the steel beam 2 and the block 24 simultaneously. The wing plate 22 at the bottom of the web plate 21 is provided with a through hole 221, the through hole 221 is opposite to the position between the two support plates 31, and the through hole 221 is used for injecting cement slurry into the cavity 23 and simultaneously allowing cement in the cavity 23 to flow out between the two support plates 31.

Referring to fig. 2, the wing plate 22 having the through hole 221 is further provided with a circular arc member 25 for closing the through hole 221, and the circular arc member 25 is mounted on the cover plate 32. First, the top end of the cover plate 32 is rotatably connected to the bottom of the wing plate 22 having the through hole 221, and the rotation axis of the cover plate 32 is horizontally arranged and perpendicular to the longitudinal direction of the steel beam 2. One end of the circular arc member 25 is fixedly connected to the side wall of the cover plate 32 far away from the support plate 31, the end is a fixed end of the circular arc member 25, the other end of the circular arc member 25 is a free end, and the central axis corresponding to the circular arc member 25 coincides with the rotation axis of the cover plate 32. The free end of the circular arc member 25 slides through the adjacent wing plate 22 and penetrates into the cavity 23, and the free end of the circular arc member 25 passes through the through hole 221 again, so that the free end of the circular arc member 25 penetrates out of the cavity 23 again. The cross section of the arc piece 25 is rectangular, the side wall of the arc piece 25 is attached to the inner wall of the through hole 221, and after the arc piece 25 penetrates through the through hole 221, the through hole 221 is closed by the arc piece 25.

Initially, the cover plate 32 of the bracket 3 is firstly connected to the steel beam 2 in a rotating mode, and when the cover plate 32 provides an installation position for the arc piece 25, the constructor can conveniently control the rotation of the arc piece 25. The position of the cover plate 32 is controlled by a constructor, so that the free end of the arc piece 25 is temporarily retracted into the cavity 23, the through hole 221 is opened at the moment, the constructor injects cement slurry into the cavity 23 through the through hole 221, then the cover plate 32 is rotated to enable the cover plate 32 to be attached to the adjacent wing plate 22, and at the moment, the free end of the arc piece 25 penetrates out of the closed through hole 221 of the cavity 23 to prevent the cement slurry from leaking through the through hole 221. Then constructor hoists the steel beam 2 to the installation position on the stand 1, after the tip of steel beam 2 is fixed on the stand 1, constructor rotates the apron 32 again, make the apron 32 rotate to the position of butt joint with backup pad 31, circular arc 25 follows the apron 32 and rotates, the free end of circular arc 25 retracts into cavity 23 again and breaks away from with through-hole 221, through-hole 221 opens this moment, refer to fig. 3, the grout in the cavity 23 begins to discharge through-hole 221, the grout then gathers in the space that is enclosed by apron 32, two backup pads 31, accept board 34 and stand 1 under through-hole 221, it can to wait for the grout to solidify afterwards. In this a scheme for constructing bracket 3, backup pad 31, accept board 34 and apron 32 solidify the fashioned template as grout, have saved constructor and have set up the template on stand 1, and the grout that is used for pouring bracket 3 simultaneously is stored in steel crossbeam 2, when realizing that the installation of steel crossbeam 2 is fixed, still can accomplish the construction of the cast-in-place part of bracket 3, has avoided the inconvenience of cast-in-place in high altitude, and then has made things convenient for the operation of construction bracket 3.

Referring to fig. 2, a flow guiding block 26 is further disposed in the cavity 23, the flow guiding block 26 is fixed on the wing plate 22 with the through hole 221, two sides of the flow guiding block 26 are respectively abutted to the adjacent side plates 211, and the arc piece 25 simultaneously rotates to pass through the flow guiding block 26. The side wall of the flow guide block 26, which is not connected with the wing plate 22, is inclined downwards towards the through hole 221, so that the inclination degree of the bottom of the cavity 23 is increased by the flow guide block 26 when the steel beam 2 is in the installation position, cement slurry can flow to the through hole 221 more easily, and the residue of the cement slurry in the cavity 23 can be reduced.

Referring to fig. 3, two sides of the cover plate 32 are fixedly connected with an ear plate 321, and each ear plate 321 is provided with a fixing bolt 33 in a penetrating manner. When circular arc piece 25 is in the position of closed through-hole 221, apron 32 and adjacent pterygoid lamina 22 laminating, at this moment, adjacent pterygoid lamina 22 can be worn to establish by the screw thread to fixing bolt 33, and constructor can fix the position of apron 32 through screwing fixing bolt 33 on pterygoid lamina 22, and circular arc piece 25 alright continue closed through-hole 221, and at the in-process of installation steel crossbeam 2, grout will be difficult to take place to leak through-hole 221.

Referring to fig. 3, a fixing block 311 is fixedly connected to a side wall of the two support plates 31 opposite to each other, when the cover plate 32 rotates to a position where the cover plate abuts against the support plates 31, the two ear plates 321 on two sides of the cover plate 32 respectively face the fixing block 311 on the same side, and the fixing bolt 33 can penetrate through the fixing block 311. The constructor will follow the fixing bolt 33 that pterygoid lamina 22 went down, wear to establish again the otic placode 321 and the fixed block 311 of the homonymy, so can fix the position when apron 32 and backup pad 31 butt, alright later on the solidification of the grout takes shape. Caulking grooves 312 are formed in the side edges, abutted to each supporting plate 31 and the cover plate 32, of the cover plate 32, the side edges of the cover plate 32 are embedded into the caulking grooves 312 in the supporting plate 31 on the same side through the rotation of the cover plate 32, the abutting of the cover plate 32 and the supporting plate 31 is achieved, the contact area of the cover plate 32 and the supporting plate 31 can be increased through the caulking grooves 312, and therefore the probability of leakage of cement slurry between the cover plate 32 and the supporting plate 31 is reduced.

It should be noted that, when the cover plate 32 is rotated to the position of abutting against the support plate 31, in order to ensure that the cement can be smoothly discharged from the through hole 221, the arc length of the arc member 25 needs to be such that the free end of the arc member 25 is retracted into the cavity 23 before the cover plate 32 abuts against the support plate 31, and accordingly, when the cover plate 32 does not fully abut against the support plate 31, the cement is retained through the through hole 221, the vertical projection of the through hole 221 falls on the receiving plate 34, and the receiving plate 34 is used for receiving the part of the cement paste flowing out in advance, thereby reducing the waste of the cement paste.

The implementation principle of the embodiment of the application is as follows: the support plate 31 of the bracket 3 is pre-embedded on the upright post 1 when the upright post 1 is constructed, and cement paste for pouring the bracket 3 is pre-stored in the steel beam 2. After the end of the steel beam 2 is fixed on the column 1, the constructor only needs to rotate the cover plate 32 to make the cover plate 32, the two support plates 31 and the bearing plate 34 enclose a space for pouring cement paste, at this time, the circular arc piece 25 opens the through hole 221, the cement paste in the cavity 23 of the steel beam 2 flows into the space between the two support plates 31, the bearing plate 34 and the cover plate 32, and after the cement paste is solidified and formed, the cement paste, the support plates 31, the cover plate 32 and the bearing plate 34 together form the bracket 3 and support the steel beam 2. The supporting plate 31, the bearing plate 34 and the cover plate 32 are used as a formwork for cement slurry solidification forming, a formwork arranged on the stand column 1 by constructors is omitted, cement slurry for pouring the bracket 3 is stored in the steel beam 2, inconvenience of high-altitude cast-in-place is avoided, and then operation of constructing the bracket 3 by the constructors is facilitated.

A construction method of an assembly type component connecting structure based on BIM is used in the assembly type component connecting structure, and comprises the following construction steps:

s1, when the upright post 1 is constructed, embedding the support plate 31 and the embedded rib 12 for constructing the bracket 3 at the position corresponding to the fixed steel beam 2 on the upright post 1;

s2, processing the steel beam 2 on a construction site, completing splicing of the side plate 211, the wing plate 22, the flow guide block 26 and the blocking block 24, enabling the steel beam 2 to have the function of storing cement paste, and installing the cover plate 32 of the bracket 3 and the arc piece 25 on the steel beam 2;

s3, after the steel beam 2 is processed, cement slurry is injected into the cavity 23 of the steel beam 2, firstly, a wing plate 22 provided with a through hole 221 faces upwards, constructors inject the cement slurry into the steel beam 2 through the through hole 221, then the cover plate 32 is rotated to enable the free end of the arc piece 25 to penetrate out of the through hole 221 through the through hole 221 so as to close the through hole 221, and the constructors penetrate any lug plate 321 on the cover plate 32 through a fixing bolt 33 and rotate to penetrate through the wing plate 22 so as to fix the position of the cover plate 32;

s4, hoisting the steel beam 2 by a hoisting device by constructors, lapping the end part of the steel beam 2 on the support plate 31, and then simultaneously penetrating through the two connecting plates 11, the side plates 211 of the two steel beams 2 and the plugging block 24 by the anchor bolt 111 to fix the end part of the steel beam 2 on the upright post 1;

s5, after the end part of the steel beam 2 is fixed on the upright post 1, a constructor firstly screws down the fixing bolt 33, then rotates the cover plate 32 to enable the cover plate 32 to rotate to the position embedded in the embedding groove 312 on the support plate 31, the arc piece 25 rotates along with the cover plate 32, the free end of the arc piece 25 retracts into the cavity 23 again, the through hole 221 is opened, cement paste in the cavity 23 starts to flow into a space which is formed by two support plates 31, the bearing plate 34, the cover plate 32 and the upright post 1 right below through the through hole 221, after the cover plate 32 abuts against the support plate 31, the constructor uses the fixing bolt 33 screwed down from the wing plate 22 to connect the lug plate 321 on the cover plate 32 with the fixing block 311 on the support plate 31, and finally waits for solidification.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides an assembled component connection structure based on BIM which characterized in that: the steel beam comprises a stand column (1) and a steel beam (2) with one end fixedly connected to the stand column (1), a bracket (3) used for supporting the steel beam (2) is further arranged on the stand column (1), the bracket (3) comprises two support plates (31) horizontally arranged at intervals, a cover plate (32) which is abutted to the two support plates (31) is arranged between the two support plates (31), the steel beam (2) comprises a web plate (21) and wing plates (22) connected to two sides of the web plate (21), a cavity (23) used for storing cement paste is arranged in the web plate (21), the cover plate (32) is rotatably connected to one wing plate (22) of the steel beam (2), an arc piece (25) is arranged on the cover plate (32) with one end connected with the cover plate (32), the axis corresponding to the arc piece (25) is coincident with the rotating axis of the cover plate (32), the free end of the arc piece (25) extends into the cavity (23) of the web plate (21), the wing plate (22) for the circular arc piece (25) to pass through is also provided with a through hole (221) for the free end of the circular arc piece (25) to pass through the cavity (23), and the through hole (221) is just opposite to the position at the interval between the two supporting plates (31).

2. The BIM-based fabricated member-connecting structure of claim 1, wherein: the web plate (21) comprises two side plates (211) which are arranged at intervals, and two side edges of each side plate (211) are respectively connected with the adjacent wing plates (22).

3. The BIM-based fabricated member-connecting structure of claim 2, wherein: a flow guide block (26) is arranged between the two side plates (211), the flow guide block (26) is installed on a wing plate (22) connected with the cover plate (32), and the side wall, far away from the wing plate (22), of the flow guide block (26) is obliquely and downwards arranged towards the through hole (221).

4. The BIM-based fabricated member-connecting structure of claim 1, wherein: the two sides of the cover plate (32) are respectively provided with an ear plate (321), a fixing bolt (33) penetrates through the ear plates (321), and the fixing bolt (33) is threaded on a wing plate (22) connected with the cover plate (32).

5. The BIM-based fabricated member-connecting structure of claim 4, wherein: one side of each of the two support plates (31), which is opposite to the other side, is provided with a fixing block (311), and when the cover plate (32) is positioned between the two support plates (31), the lug plate (321) is connected with the fixing block (311) on the same side through a fixing bolt (33).

6. The BIM-based fabricated member-connecting structure of claim 5, wherein: and the two support plates (31) are provided with caulking grooves (312) for the side edges of the corresponding cover plates (32) to be embedded.

7. The BIM-based fabricated member-connecting structure of claim 6, wherein: a bearing plate (34) which is abutted against the free end of the cover plate (32) is connected between the two support plates (31), and the vertical projection of the through hole (221) falls on the bearing plate (34).

8. The construction method of the BIM-based fabricated building block connection structure according to any one of claims 1 to 7, wherein:

s1, when the upright post (1) is constructed, a support plate (31) is arranged;

s2, processing the steel beam (2) to complete the connection of the cover plate (32), the arc piece (25) and the steel beam (2);

s3, injecting cement slurry into the cavity (23) of the web plate (21), and enabling the free end of the arc piece (25) to penetrate through the closed through hole (221);

s4, hoisting the steel beam (2) on the upright post (1), and fixing the end part of the steel beam (2) on the upright post (1);

s5, rotating the cover plate (32) to a position where the cover plate abuts against the two support plates (31), screwing the arc piece (25) into the cavity (23), opening the through hole (221), and allowing cement slurry to flow into a space surrounded by the upright post (1), the two support plates (31) and the cover plate (32) through the through hole (221) to wait for the cement slurry to solidify.

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