CN113136944A - Beam column structure for building and construction method thereof - Google Patents

Abstract

The utility model relates to a beam column structure is built in room, stand and crossbeam including mutually perpendicular and connection, the stand includes spliced pole and the support column that the structure is the same, the spliced pole is pegged graft on the support column and is fixed a position through location structure, location structure includes the extension post, constant head tank and locating plate, the extension post is fixed in on the spliced pole and inserts in the support column, the constant head tank is seted up on the lateral wall that extends the post, the locating plate rotates and is connected on the tip lateral wall of support column, the end fixing of crossbeam has the push rod, peg graft in the support column when extending the post, the push rod butt is in the locating plate and promotes the locating plate and rotate to hugging closely in the constant head tank, and the push rod is pegged graft and is fixed a position in the constant head tank and be located the upper portion of locating plate. This application sets up rotatable locating plate, and the promotion through crossbeam push rod makes the locating plate rotate to being positioned in the constant head tank to further peg graft at the constant head tank through the push rod, realize the stable butt to the locating plate, reach the purpose with spliced pole and support column relatively stable fixed from this.

Description

Beam column structure for building and construction method thereof

Technical Field

The application relates to the technical field of building construction, in particular to a beam-column structure for building construction and a construction method thereof.

Background

A beam column is a rod piece for supporting and bearing force in the building engineering, and the rod piece which mainly bears the transverse force and mainly deforms by bending after deforming is generally called a beam; the columns are vertical main structural members in the building; the beam column is used in combination as a house frame structure in the house construction.

At present, chinese patent with publication number CN204370688U discloses a steel structure beam column, including channel-section steel, floor and gusset, the channel-section steel is equipped with two, and the bottom surface of two channel-section steels is through floor fixed connection, inserts in every channel-section steel and establishes a plurality of the gusset, it is when carrying out the angle installation, needs to weld.

In view of the above-mentioned related technologies, the inventor believes that some beam-column structures are fixed by welding, which is time-consuming and labor-consuming in installation, and greatly reduces the installation efficiency, and thus the improvement still remains.

Disclosure of Invention

In order to improve the installation efficiency of the beam-column structure, the application provides a beam-column structure for building and a construction method thereof.

In a first aspect, the application provides a beam column structure is built in room, adopts following technical scheme:

the utility model provides a beam column structure is built in room, includes stand and crossbeam that mutually perpendicular and connect, the stand includes spliced pole and the support column that the structure is the same, the spliced pole is pegged graft on the support column and is fixed a position through location structure, location structure includes extension post, constant head tank and locating plate, the extension post is fixed in on the spliced pole and inserts in the support column, the constant head tank is seted up on the lateral wall that extends the post, the locating plate rotates to be connected on the tip lateral wall of support column, works as the extension post is pegged graft in the support column, the locating plate is corresponding to the constant head tank, and the end fixing of crossbeam has the push rod, the push rod butt is in the locating plate and promotes the locating plate and rotates to hugging closely in the constant head tank, just the push rod is pegged graft and is located the constant head tank and is located the upper portion of locating plate.

Through adopting above-mentioned technical scheme, set up rotatable locating plate, the promotion through push rod on the crossbeam makes the locating plate rotate to being located the constant head tank to further peg graft at the constant head tank through the push rod, realize the stable butt to the locating plate, reach the purpose of spliced pole and support column relatively stable fixed from this.

Preferably, the diameter of the extension column is smaller than that of the connecting column; offer the extending groove that supplies the extending column to peg graft on the support column, the edge on the support column offers the mounting groove with the extending groove intercommunication, the tip of locating plate rotates to be connected in the mounting groove, and when the locating plate rotated to being located the constant head tank, the locating plate holding was in the mounting groove.

By adopting the technical scheme, the diameter of the extension column is smaller than that of the connecting column, so that the extension column is inserted into the supporting column, and the whole structure of the positioning plate positioned in the positioning groove is more reasonable and beautiful; the mounting groove communicates in the extending groove, when providing the mounting site for the locating plate, makes the process that the locating plate rotated the butt and located the constant head tank can realize.

Preferably, a frustum-shaped deformable clamping ring is formed at the joint of the push rod and the cross beam, and one end, close to the cross beam, of the clamping ring is expanded in diameter.

Through adopting above-mentioned technical scheme, the clamping ring of frustum form can be deformed, pegs graft in the constant head tank when the push rod, and the clamping ring can further butt in constant head tank department, makes the push rod more stable to the butt of locating plate, makes the crossbeam peg graft in the structure of spliced pole more stable.

Preferably, the connecting column is provided with a fixing structure for fixing the cross beam, and the cross beam abuts against the side wall of the supporting column.

Through adopting above-mentioned technical scheme, fixed knot constructs and further realizes the mutual location of spliced pole and crossbeam, and the crossbeam butt in the lateral wall of support column again, and the connection structure of stand and crossbeam is more reasonable, and connects more firmly stably.

Preferably, the fixing structure comprises a deformable inserted link and an abutting link, the abutting link is fixed at the end of the beam, a cross rod extends and is fixed on the side wall of the connecting column, and the inserted link is fixed on the cross rod; the cross beam is provided with an insertion groove for inserting and positioning the insertion rod; when the crossbeam is inserted into the connecting column, the abutting rod abuts against the inserting rod, and the inserting rod is bent, deformed and inserted into the inserting groove for positioning.

Through adopting above-mentioned technical scheme, the inserted bar is deformable, pegs graft in the spliced pole as the crossbeam, and butt pole butt makes it produce deformation and buckle in the inserted bar, and the horizontal pole inserts on the spliced pole with the inserted bar of buckling this moment, then the inserted bar resumes and plug in the inserting groove.

Preferably, the cross beam is provided with a through groove, and the insertion groove is communicated with one side of the through groove; the cross rod is provided with a containing groove for containing the deformed inserted bar; the cross rod and the bent and deformed insertion rod are inserted into the through groove, and the insertion rod is inserted into the insertion groove after being reset.

By adopting the technical scheme, the through groove provides space for the insertion of the cross rod and the bent insertion rod; the holding tank takes place to deform for the inserted bar and provides bigger activity space, reduces the volume that the inserted bar took when buckling to make inserted bar and horizontal pole change in pegging graft in link up the groove.

Preferably, a guide inclined plane for guiding the insertion rod to enter the insertion groove is formed at the end part of the abutting rod, and a chamfer plane matched with the guide inclined plane is formed at the end part of the insertion rod; the inserted rod inserted in the insertion groove is fixed by the locking structure.

By adopting the technical scheme, the matching of the guide inclined plane and the inclined plane enables the abutting rod to abut and the process of bending and deforming the inserted rod to be easier to realize; the locking structure is further positioned and inserted in the insertion rod of the insertion groove, so that the cross beam and the connecting column are relatively fixed more stably.

Preferably, the locking structure comprises a locking ferrule, a movable ferrule and a locking rod, wherein an annular groove is formed in the side wall of the cross beam, the movable ferrule and the locking ferrule are sleeved and movably connected in the annular groove, and the locking rod is fixed on the side wall of the movable ferrule and can be inserted into an insertion rod in the insertion groove; the locking ferrule is connected in the annular groove in a threaded mode and abuts against the movable ferrule.

By adopting the technical scheme, the annular groove is used for accommodating the locking ferrule and the movable ferrule, and the movable ferrule can move in the annular groove, so that the insertion connection or separation of the locking rod and the inserted rod can be realized; the locking ferrule in threaded connection with the annular groove can rotate to tightly abut against the side wall of the movable ferrule, so that the locking rod is positioned after being inserted into the inserted rod; when the locking rod is inserted into the insertion rod, the deformation of the insertion rod can be prevented, so that the insertion rod cannot be easily separated from the insertion groove, and the purpose of fixing the cross beam on the connecting column is achieved.

Preferably, a guide groove is formed in the annular groove, and a guide block which is connected in the guide groove in a sliding manner is fixed at the bottom of the movable ferrule; and when the guide block is positioned in the guide groove, the locking rod is correspondingly inserted in the inserted rod.

By adopting the technical scheme, the locking rod on the movable ferrule can be always aligned to the inserted rod to realize insertion by the matching of the guide block and the guide groove, and the problem that the locking rod and the inserted rod are not in structural correspondence due to the rotation of the movable ferrule is avoided.

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

1. the positioning plate is provided with a rotatable positioning plate, the positioning plate is rotated to be positioned in the positioning groove by pushing of a push rod on the beam, the positioning plate is inserted into the positioning groove by the push rod, and the deformable frustum-shaped clamping ring further supports tightly, so that the positioning plate is stably abutted, the purpose of relatively stably fixing the connecting column and the supporting column is achieved, and the connecting and positioning between the beam, the connecting column and the supporting column are realized;

2. when the cross beam is inserted into the connecting column, the abutting rod abuts against the deformable inserted rod to enable the deformable inserted rod to deform and bend, then the cross beam and the bent inserted rod are inserted into the connecting column until the inserted rod recovers and is inserted into the inserting groove, then the inserted rod is inserted through the locking rod, the process that the inserted rod deforms and is separated from the inserting groove is prevented, and the effect of further positioning the cross beam on the connecting column is achieved;

3. the locking rod on the movable ferrule is accurately inserted into the inserted rod under the matching of the guide block and the guide groove, and the locking ferrule is abutted to the movable ferrule to realize convenient positioning, so that the whole structure is more stable.

Drawings

FIG. 1 is a schematic view of a connection column, a support column, and a cross-beam connection in partial section according to an embodiment of the present application;

FIG. 2 is a schematic view of the highlighted end structure of the support post of the embodiment of the present application near the connection post;

FIG. 3 is an enlarged schematic view of portion A of FIG. 1;

fig. 4 is an enlarged schematic view of a portion B of fig. 1.

Description of reference numerals: 1. a column; 11. connecting columns; 111. a cross bar; 12. a support pillar; 121. an extension groove; 122. mounting grooves; 2. a cross beam; 21. a push rod; 22. a clamping ring; 23. a through groove; 24. inserting grooves; 25. an annular groove; 251. a guide groove; 3. a positioning structure; 31. extending the column; 32. positioning a groove; 33. positioning a plate; 4. a fixed structure; 41. inserting a rod; 411. a chamfer plane; 42. a butting rod; 421. a guide slope; 5. a locking structure; 51. locking the ferrule; 52. a movable ferrule; 521. a guide block; 53. a locking lever; 6. and (6) accommodating the tank.

Detailed Description

The present application is described in further detail below with reference to the attached drawings.

The embodiment of the application discloses a beam column structure for building, and with reference to fig. 1, the beam column structure comprises a vertical column 1 and a cross beam 2 which are perpendicular to each other and connected with each other, wherein the vertical column 1 comprises a connecting column 11 and a supporting column 12 which are identical in structure, the corresponding ends of the connecting column 11 and the supporting column 12 can be mutually inserted and connected, and the cross beam 2 is inserted and positioned on the connecting column 11 and is abutted against the side wall of the supporting column 12; and it should be noted that the cross beam 2 can be installed on both sides or the peripheral side walls of the connecting column 11 and the supporting column 12 as required.

Referring to fig. 1, spliced pole 11 is pegged graft on support column 12 and is fixed a position through location structure 3, and location structure 3 includes extension post 31, and the diameter that extends post 31 is less than spliced pole 11, and extends on post 31 is fixed in spliced pole 11, has seted up extending groove 121 on the support column 12, and extension post 31 is pegged graft in extending groove 121, with spliced pole 11 and the preliminary location of support column 12.

Referring to fig. 1 and 2, the positioning structure 3 further includes a positioning slot 32 and a positioning plate 33, a mounting groove 122 communicated with the extending groove 121 is oppositely formed at the edge of the supporting column 12, the end of the positioning plate 33 is rotatably connected in the mounting groove 122, and the positioning plate 33 can rotate towards the direction close to the extending groove 121; the positioning slot 32 is opened on the side wall of the extension column 31 corresponding to the positioning plate 33, and the bottom of the mounting slot 122 is flush with the side wall corresponding to the positioning slot 32, so that when the positioning plate 33 rotates, the side wall of the positioning plate 33 can abut against and cling to the corresponding positions of the mounting slot 122 and the positioning slot 32.

Referring to fig. 1, the rotation of the positioning plate 33 is pushed by the cross member 2; the end part of the beam 2 close to the extension column 31 is fixed with a push rod 21, the push rod 21 abuts against the positioning plate 33 and pushes the positioning plate 33 to rotate, when the positioning plate 33 is positioned in the positioning groove 32, the push rod 21 is synchronously inserted into the positioning groove 32 and positioned at the upper part of the positioning plate 33, so that the positioning plate 33 is abutted and fixed; it should be noted that the push rod 21 is inserted into the positioning slot 32 and can press the positioning plate 33, so as to achieve stable insertion of the cross beam 2.

Referring to fig. 1 and 3, a frustum-shaped deformable clamping ring 22 is formed at the joint of the push rod 21 and the cross beam 2, and the clamping ring 22 in the present application may be made of rubber; and the clamping ring 22 is close to one end of the cross beam 2 and expands in diameter, so that the push rod 21 can be further inserted into the positioning groove 32 in an interference fit mode through the deformable clamping ring 22, and the structural stability of the push rod 21 inserted into the positioning groove 32 is further improved.

Referring to fig. 1 and 3, the connecting column 11 is provided with a fixing structure 4 for further fixing the beam 2, and the beam 2 abuts against the side wall of the supporting column 12, so that the overall structure is more reasonable and stable.

Referring to fig. 3, the fixing structure 4 includes a deformable insert rod 41 and a butt rod 42, the insert rod 41 may be made of rubber; the butt pole 42 is fixed in the tip of crossbeam 2 and is located one side of push rod 21, and the horizontal extension is fixed with horizontal pole 111 on the lateral wall of spliced pole 11, and inserted bar 41 vertical fixation has seted up holding tank 6 on horizontal pole 111, but butt pole 42 butt and extrusion inserted bar 41 make its deformation, and holding tank 6 provides bigger activity space for the deformation of inserted bar 41.

Referring to fig. 1 and 3, a through groove 23 is formed at the end of the cross beam 2, and one side of the through groove 23, which is close to the cross beam 2, is communicated with an insertion groove 24 which is perpendicular to the through groove 23; when the push rod 21 is inserted into the connection post 11, the contact rod 42 contacts the insertion rod 41 to bend and deform the insertion rod 41, and at this time, the insertion rod 41 and the cross rod 111 can be inserted into the through groove 23, and when the insertion rod 41 enters the insertion groove 24, the insertion rod 41 can be restored and inserted into the insertion groove 24.

Referring to fig. 3, a guide inclined surface 421 for guiding the insertion rod 41 to enter the insertion groove 24 is formed at an end of the abutting rod 42, and a chamfered surface 411 matched with the guide inclined surface 421 is formed at an end of the insertion rod 41, so that the process of abutting the abutting rod 42 and bending and deforming the insertion rod 41 is easier to realize.

Referring to fig. 1 and 3, the insertion rod 41 inserted into the insertion groove 24 is fixed by the locking structure 5, and the locking structure 5 further positions the insertion rod 41 inserted into the insertion groove 24, so that the insertion rod 41 cannot deform and is separated from the insertion groove 24, thereby achieving more stable relative fixation of the cross beam 2 and the connecting column 11.

Referring to fig. 1 and 3, the locking structure 5 includes a movable collar 52 and a locking lever 53, an annular groove 25 is formed on a side wall of the cross beam 2, the movable collar 52 is sleeved and movably connected in the annular groove 25, and the locking lever 53 is fixed on the side wall of the movable collar 52 and can be inserted into an end side wall of the insert rod 41 located in the insert groove 24, so that a deformation space of the insert rod 41 is blocked, and the insert rod cannot be easily removed from the insert groove 24.

Referring to fig. 1 and 4, a guide groove 251 extending towards the direction close to the connecting column 11 is formed at the bottom of the annular groove 25, and a guide block 521 slidably connected in the guide groove 251 is fixed at the bottom of the movable ferrule 52; and when the guide block 521 is positioned in the guide groove 251, the locking rod 53 is correspondingly inserted into the insert rod 41, so that the locking rod 53 is accurately inserted into the insert rod 41 by the sliding guide of the guide block 521 in the guide groove 251.

Referring to fig. 1 and 4, the locking structure 5 further includes a locking collar 51, the locking collar 51 is sleeved and screwed in the annular groove 25 and is located on one side of the movable collar 52, when the locking rod 53 on the movable collar 52 is inserted into the insertion rod 41, the locking collar 51 is rotated to abut against the movable collar 52, so as to achieve the purpose of positioning the movable collar 52.

A construction method of a beam-column structure for building includes the following steps:

s1, firstly, an extension column 31 is inserted into an extension groove 121, and at the moment, a positioning plate 33 extends towards the length direction of a support column 12;

s2, the beam 2 is inserted into the connecting column 11, the push rod 21 corresponds to the positioning groove 32, in the insertion process of the beam 2, the push rod 21 abuts against the positioning plate 33 and rotates until the positioning plate 33 abuts against the side wall of the positioning groove 32, the push rod 21 is inserted into the positioning groove 32 and abuts against the positioning plate 33, and meanwhile, the clamping ring 22 is extruded into the positioning groove 32 along with the further pushing of the beam 2;

in the process that the push rod 21 is inserted into the positioning groove 32, the abutting rod 42 and the inserting rod 41 abut against each other and the inserting rod 41 is deformed and bent, then the bent inserting rod 41 and the cross rod 111 are inserted into the through groove 23 until the inserting rod 41 enters the inserting groove 24 to restore the original shape and is stably inserted into the inserting groove 24;

s3, finally, under the matching of the guide block 521 and the guide groove 251, the movable ferrule 52 is pushed towards one side close to the push rod 21 until the locking rod 53 is inserted into the inserted rod 41, and then the locking ferrule 51 is rotated to be tightly abutted against the movable ferrule 52.

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 (10)

1. The utility model provides a beam column structure is built in room, includes stand (1) and crossbeam (2) that mutually perpendicular and connect, its characterized in that: stand (1) is including spliced pole (11) and support column (12) that the structure is the same, spliced pole (11) are pegged graft on support column (12) and are fixed a position through location structure (3), location structure (3) are including extending post (31), constant head tank (32) and locating plate (33), extend post (31) and be fixed in spliced pole (11) and insert and connect in support column (12), constant head tank (32) are seted up on the lateral wall of extending post (31), locating plate (33) rotate to be connected on the tip lateral wall of support column (12), work as extend post (31) peg graft in support column (12), locating plate (33) are corresponding to constant head tank (32), and the end fixing of crossbeam (2) has push rod (21), push rod (21) butt pushes positioning plate (33) to rotate to hugging closely in constant head tank (32) in locating plate (33), and the push rod (21) is inserted and positioned in the positioning groove (32) and positioned at the upper part of the positioning plate (33).

2. The beam and column structure for building construction according to claim 1, wherein: the diameter of the extension column (31) is smaller than that of the connecting column (11); the utility model discloses a positioning plate, including support column (12), edge on the support column (12) seted up the extending groove (121) that supply extending column (31) to peg graft, the edge on the support column (12) is seted up mounting groove (122) with extending groove (121) intercommunication, the tip of positioning plate (33) rotates to be connected in mounting groove (122), and when positioning plate (33) rotated to being fixed a position in constant head tank (32), positioning plate (33) holding was in mounting groove (122).

3. The beam and column structure for building construction according to claim 1, wherein: a frustum-shaped deformable clamping ring (22) is formed at the joint of the push rod (21) and the cross beam (2), and one end, close to the cross beam (2), of the clamping ring (22) is expanded in diameter.

4. The beam and column structure for building construction according to claim 1, wherein: the fixing structure (4) for fixing the cross beam (2) is installed on the connecting column (11), and the cross beam (2) abuts against the side wall of the supporting column (12).

5. The beam and column structure for building construction according to claim 4, wherein: the fixing structure (4) comprises a deformable inserted bar (41) and a butting bar (42), the butting bar (42) is fixed at the end part of the cross beam (2), a cross bar (111) extends and is fixed on the side wall of the connecting column (11), and the inserted bar (41) is fixed on the cross bar (111); the cross beam (2) is provided with an insertion groove (24) for inserting and positioning the insertion rod (41); when the cross beam (2) is inserted into the connecting column (11), the abutting rod (42) abuts against the inserting rod (41), and the inserting rod (41) is bent, deformed and inserted into the inserting groove (24) for positioning.

6. The beam and column structure for building construction according to claim 5, wherein: a through groove (23) is formed in the cross beam (2), and the insertion groove (24) is communicated with one side of the through groove (23); the cross rod (111) is provided with an accommodating groove (6) for accommodating the deformed inserting rod (41); the cross rod (111) and the bent and deformed insertion rod (41) are inserted into the through groove (23), and the insertion rod (41) is inserted into the insertion groove (24) after being reset.

7. The beam and column structure for building construction according to claim 5, wherein: a guide inclined plane (421) for guiding the insertion rod (41) to enter the insertion groove (24) is formed at the end part of the abutting rod (42), and a chamfer plane (411) matched with the guide inclined plane (421) is formed at the end part of the insertion rod (41); the inserted rod (41) inserted into the insertion groove (24) is fixed by the locking structure (5).

8. The beam and column structure for building construction according to claim 7, wherein: the locking structure (5) comprises a locking ferrule (51), a movable ferrule (52) and a locking rod (53), an annular groove (25) is formed in the side wall of the cross beam (2), the movable ferrule (52) and the locking ferrule (51) are sleeved and movably connected in the annular groove (25), and the locking rod (53) is fixed on the side wall of the movable ferrule (52) and can be inserted into an insertion rod (41) in the insertion groove (24); the locking ferrule (51) is connected in the annular groove (25) in a threaded mode and abuts against the movable ferrule (52).

9. The beam and column structure for building construction according to claim 8, wherein: a guide groove (251) is formed in the annular groove (25), and a guide block (521) which is connected into the guide groove (251) in a sliding manner is fixed at the bottom of the movable ferrule (52); and when the guide block (521) is positioned in the guide groove (251), the locking rod (53) is correspondingly inserted into the insertion rod (41).

10. The construction method of a beam column structure for building according to any one of claims 1 to 9, wherein: the method comprises the following steps:

s1, firstly, an extension column (31) is inserted into an extension groove (121), and at the moment, a positioning plate (33) extends towards the length direction of a support column (12);

s2, the cross beam (2) is inserted into the connecting column (11), the push rod (21) corresponds to the positioning groove (32), in the insertion process of the cross beam (2), the push rod (21) abuts against the positioning plate (33) and enables the positioning plate (33) to rotate until the positioning plate (33) abuts against the side wall of the positioning groove (32), the push rod (21) is inserted into the positioning groove (32) and abuts against the positioning plate (33), and meanwhile, the clamping ring (22) is extruded into the positioning groove (32) along with the further pushing of the cross beam (2);

in the process that the push rod (21) is inserted into the positioning groove (32), the abutting rod (42) and the inserting rod (41) are abutted to each other and the inserting rod (41) is deformed and bent, then the bent inserting rod (41) and the cross rod (111) are inserted into the through groove (23) until the inserting rod (41) enters the inserting groove (24) to restore the original state and is stably inserted into the inserting groove (24);

s3, finally, under the matching of the guide block (521) and the guide groove (251), the movable ferrule (52) is pushed towards one side close to the push rod (21) until the locking rod (53) is inserted into the inserted rod (41), and then the locking ferrule (51) is rotated to be abutted against the movable ferrule (52).

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