CN116104207A

CN116104207A - Assembled beam column connecting mechanism and splicing method

Info

Publication number: CN116104207A
Application number: CN202310253408.9A
Authority: CN
Inventors: 刘光浩; 刘文泽; 刘文羽
Original assignee: Shanwei Integrated Ecological Development Co ltd
Current assignee: Shanwei Integrated Ecological Development Co ltd
Priority date: 2023-03-15
Filing date: 2023-03-15
Publication date: 2023-05-12

Abstract

The invention discloses an assembled beam column connecting mechanism, and relates to the technical field of assembled beam columns. This assembled beam column coupling mechanism, including the connection structure body, at least one side on the connection structure body is connected with and links up the beam column, connection structure body bottom is connected with prefabricated support column, the connection structure body includes two connection plate spare I, two connection plate spare II, roof one, bottom plate one, connection picture peg two, support the connecting piece, roof one includes first roof, square jack one that is used for pegging graft two connection plate spare one and two connection plate spare two is seted up on the top surface of first roof, shock-absorbing hole one has been seted up on the top surface of first roof, reinforcing bar jack three has been seted up on the surface of first roof. The connecting mechanism not only saves a large amount of manpower and material resources, but also can efficiently assemble the beam column to improve the construction progress, and greatly reduces the labor intensity of workers.

Description

Assembled beam column connecting mechanism and splicing method

Technical Field

The invention relates to the technical field of assembled beam columns, in particular to an assembled beam column connecting mechanism and a splicing method.

Background

The assembled building is characterized in that the whole building is split into members such as beams, plates, columns and walls, standardized design, factory production and assembled construction are adopted, the construction nodes and the connection mode of the building play a decisive role in the earthquake resistance requirement and the safety reliability of the building, and the beams and the columns are required to be connected and fixed in the micro building, so that the stability among the construction nodes is ensured.

When the construction site is operated, the beam column and other structures are required to be assembled and connected, and the traditional connecting device at least needs two persons to be matched for use in the use process to fix the beam column and other structures, so that a large amount of manpower and time are consumed, the operation is complex, the construction efficiency is low, the construction effect is poor, and the construction process is seriously affected.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the invention provides an assembled beam column connecting mechanism, which solves the problems of complicated connection, low construction efficiency and small application range of the traditional beam column.

(II) technical scheme

In order to achieve the above purpose, the invention is realized by the following technical scheme: the utility model provides an assembled beam column coupling mechanism, includes the connection structure body, at least one side on the connection structure body is connected with and links up the beam column, connection structure body bottom is connected with prefabricated support column.

Further, the connecting structure body comprises two connecting plate pieces I, two connecting plate pieces II, a top plate I, a bottom plate I, a connecting plugboard II and a supporting connecting piece, wherein the top plate I comprises a first top plate, square jacks I for inserting the two connecting plate pieces I and the two connecting plate pieces II are formed in the top surface of the first top plate, shock absorption holes I are formed in the top surface of the first top plate, reinforcing steel bar jacks III are formed in the surface of the first top plate, and square clamping holes III are formed between the shock absorption holes I and the reinforcing steel bar jacks III;

the two inner sides of the first connecting plate are provided with a second connecting plugboard, the two inner sides of the second connecting plate are provided with a first connecting plugboard, the first bottom plate comprises a first bottom plate, square jacks II for inserting the first connecting plate and the second connecting plate are formed in the top surface of the first bottom plate, shock absorption holes II are formed in the surface of the first bottom plate, reinforcing steel bar jacks IV are formed in the surface of the first bottom plate, square clamping holes IV are formed in the surface of the first bottom plate, and supporting connecting pieces are arranged between the second connecting plate and the first top plate.

Further, the first connecting plate comprises a first side plate, a first protruding block, a second protruding block, a first connecting slot, a first clamping groove, a first reinforcing steel bar inserting hole and a first square clamping hole, the first protruding block is arranged on the left side and the right side of the first side plate, the second protruding block is arranged on the left side of the first side plate, the first connecting slot is arranged on the surface of the first side plate, the first clamping groove is arranged at the upper end and the lower end of the first side plate, the first reinforcing steel bar inserting hole is arranged on the surface of the first side plate, and the first square clamping hole is arranged on the surface of the first side plate.

Further, the connecting plate piece II comprises a side plate II, a protruding block III, a protruding block IV, a connecting slot II, a second clamping groove, a reinforcing steel bar inserting hole II and a square clamping hole II, wherein the protruding block III is arranged on the left side edge of the side plate II, the protruding block IV is arranged on the left side edge of the side plate II, the connecting slot II is arranged on the surface of the side plate II, the second clamping groove is arranged at the upper end and the lower end of the side plate II, the reinforcing steel bar inserting hole II is arranged on the surface of the side plate II, the square clamping hole II is arranged on the surface of the side plate II, and the square clamping hole II is arranged on the right side edge of the side plate II.

Further, the first connecting plugboard comprises a transverse plugboard, a second steel bar jack, a first concave clamping groove, a first anti-vibration hole and a third connecting slot, the second steel bar jack is arranged on the surface of the transverse plugboard, the first concave clamping groove is arranged on the top end and the bottom end of the transverse plugboard respectively, the first anti-vibration hole is arranged on the surface of the transverse plugboard, and the third connecting slot is arranged on the surface of the transverse plugboard.

Further, the second connecting plugboard comprises a vertical plugboard, a second reinforcing steel bar jack, a second concave clamping groove, a second anti-seismic hole and a fourth connecting slot, the sixth reinforcing steel bar jack is arranged on the surface of the vertical plugboard, the second concave clamping groove is arranged on the top end and the bottom end of the vertical plugboard respectively, the second anti-seismic hole is arranged on the surface of the vertical plugboard, and the fourth connecting slot is arranged on the surface of the vertical plugboard.

Further, the support connecting piece comprises a wing plate, a concave clamping groove III, a square protruding block I, a square protruding block II and a reinforcing steel bar inserting hole seven, wherein the concave clamping groove III is respectively formed in the top end and the bottom end of the wing plate, the square protruding block I is formed in the right side edge of the wing plate, the square protruding block II is formed in the right side edge of the wing plate, and the reinforcing steel bar inserting hole seven is formed in the surface of the wing plate.

Further, the transverse plugboard and the vertical plugboard are respectively connected through a third connecting slot and a fourth connecting slot in a crisscross manner, the size of the transverse plugboard is matched with that of the vertical plugboard, and the depth of the third connecting slot and the depth of the fourth connecting slot are half of the height of the fourth connecting slot and the depth of the third connecting slot.

Further, the number of the supporting connecting pieces is a plurality of groups, and the protrusions formed by the concave clamping grooves three at the two ends of the wing plate are respectively inserted into the inner walls of the square clamping holes formed in the surfaces of the first top plate and the first bottom plate.

Further, the connection structure body and the connection beam column are directly connected through the connection part at one end of the connection beam column, wherein the connection structure body and the support column are also directly connected through the connection part at one end of the connection beam column, and the connection parts of the connection structure body, the connection plate I, the connection plate II, the top plate I, the bottom plate I, the connection plugboard II and the support connection part are all connected in an electric welding mode.

The splicing method of the assembled beam column connecting mechanism is specifically as follows;

the method comprises the steps of S1, fixing four sides of a first bottom plate, and then plugging a first connecting plugboard and a second connecting plugboard into a second square jack formed in the surface of the first bottom plate respectively, wherein a transverse plugboard and a vertical plugboard are connected in a crisscross manner through a third connecting slot and a fourth connecting slot respectively;

s2, on the basis of S1, sequentially inserting the bottom ends of the first connecting plate and the second connecting plate into square jacks II formed in the surface of the first bottom plate, and enabling adjacent side plates I and II to be perpendicular to each other, wherein the side edges of the side plates I and II are spliced with grooves formed in the inner side walls of the square jacks II, and the protruding blocks I are buckled with one side of the side plates II, and when the side plates I and II are spliced, the connecting slots I and the vertical plugboards are spliced, and the connecting slots II and the transverse plugboards are spliced;

S3, sequentially inserting protrusions formed at the bottom ends of the wing plates into the inner walls of square clamping holes IV formed on the surface of the first bottom plate on the basis of S2, inserting square protruding blocks II and reinforcing steel bar inserting holes seven on the side edges of the wing plates into the square clamping holes I and the square clamping holes II respectively so as to connect the wing plates into a whole, sleeving the first top plate on the outer sides of the first connecting plate and the second connecting plate from top to bottom after the connection of the plurality of groups of wing plates is completed, and inserting square clamping holes III formed on the surface of the first top plate into protrusions formed on the side plates I, the connecting slots II and the side edges of the wing plates respectively so as to finish the splicing of the connecting structure body;

and S4, on the basis of 3S, after the splicing of the connecting structure body is completed, the steel bars respectively pass through the side plate I, the first clamping groove, and steel bar jacks formed on the surfaces of the transverse plugboards and the vertical plugboards.

(III) beneficial effects

The invention has the following beneficial effects:

this assembled beam column coupling mechanism, through fixing the four sides of bottom plate one, then peg graft connection picture peg first and connection picture peg second respectively to the square jack second that first bottom plate surface was offered, then respectively insert the square jack second that first bottom plate surface was offered with the bottom of connection plate first and connection plate second in proper order, and make adjacent curb plate first and curb plate second mutually perpendicular, then peg graft the protruding square card hole four inner walls that first bottom plate surface was offered in proper order that the bottom of pterygoid lamina formed, peg graft square lug second and the reinforcing bar jack seventh of pterygoid lamina side respectively with square card hole first, square card hole second, and then make it connect as an organic whole, after pegging graft a plurality of groups pterygoid lamina, after the connection structure body concatenation is accomplished, pass the reinforcing bar jack that curb plate first, first draw-in groove and horizontal picture peg, the vertical picture peg surface was offered at this moment respectively, then at least one side of connector is connected with the beam column, this coupling mechanism has not only practiced thrift a large amount of manpower and materials but also can also high-efficient assemble the beam column and improve the construction progress, moreover great reduction workman's intensity of labour.

Of course, it is not necessary for any one product to practice the invention to achieve all of the advantages set forth above at the same time.

Drawings

FIG. 1 is a schematic view of an assembled beam-column connection mechanism according to the present invention;

FIG. 2 is a schematic view of a connecting structure body according to the present invention;

FIG. 3 is an exploded view of the body of the connection structure of the present invention;

FIG. 4 is a schematic view of a top plate according to the present invention;

FIG. 5 is a schematic view of a base plate according to the present invention;

FIG. 6 is a schematic view of a connecting plate according to the present invention;

FIG. 7 is a schematic view of a second structure of the connecting plate according to the present invention;

FIG. 8 is a schematic view of a support connector according to the present invention;

FIG. 9 is a schematic view of a connector board according to the present invention;

FIG. 10 is a schematic diagram of a second structure of the connector board of the present invention;

FIG. 11 is a schematic diagram of a connection structure according to embodiment 2 of the present invention;

FIG. 12 is an exploded view of the body structure of the connecting structure according to embodiment 2 of the present invention;

FIG. 13 is a schematic view of a connection structure according to embodiment 3 of the present invention;

FIG. 14 is an exploded view of the body structure of the connecting structure according to embodiment 3 of the present invention;

FIG. 15 is a schematic view of a connection structure according to embodiment 4 of the present invention;

FIG. 16 is an exploded view of the body structure of the connecting structure according to embodiment 4 of the present invention;

FIG. 17 is a schematic view of a connection structure according to embodiment 2 of the present invention;

FIG. 18 is a schematic view of a connection structure according to embodiment 2 of the present invention;

FIG. 19 is a schematic view of a connection structure according to embodiment 3 of the present invention;

FIG. 20 is a schematic view of a connection structure according to embodiment 3 of the present invention;

FIG. 21 is a schematic view of a connection structure according to embodiment 4 of the present invention;

FIG. 22 is a schematic view of a connection structure according to embodiment 4 of the present invention;

FIG. 23 is a schematic view of a connection structure according to embodiment 1 of the present invention;

fig. 24 is a schematic structural diagram of a connection structure body in embodiment 1 of the present invention.

In the figure, 1, prefabricating a supporting column; 2. connecting the beam column; 3. a connection structure body; 4. a first connecting plate; 401. a first side plate; 402. a first bump; 403. a second bump; 404. a first connecting slot; 405. a first clamping groove; 406. a first steel bar jack; 407. square clamping holes I; 5. a second connecting plate; 501. a second side plate; 502. a third bump; 503. a bump IV; 504. a second connecting slot; 505. a second clamping groove; 506. a second reinforcing steel bar jack; 507. square clamping holes II; 6. a first top plate; 601. a first top plate; 602. square jack I; 603. a damping hole I; 604. a third reinforcing steel bar jack; 605. a square clamping hole III; 7. a first bottom plate; 701. a first base plate; 702. square jack II; 703. damping hole II; 704. a reinforcing steel bar jack IV; 705. square clamping holes IV; 8. a first connecting plugboard; 801. a transverse plugboard; 802. fifthly, a steel bar jack; 803. a concave clamping groove I; 804. an earthquake-resistant hole I; 805. a third connecting slot; 9. a second connecting plugboard; 901. vertical plugboards; 902. a reinforcing steel bar jack six; 903. a concave clamping groove II; 904. a second shock-resistant hole; 905. a fourth connecting slot; 10. a support connection; 1001. a wing plate; 1002. concave clamping grooves III; 1003. square convex blocks I; 1004. square convex blocks II; 1005. and seventhly, a reinforcing steel bar jack.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be understood that the terms "open," "upper," "lower," "thickness," "top," "middle," "length," "inner," "peripheral," and the like indicate orientation or positional relationships, merely for convenience in describing the present invention and to simplify the description, and do not indicate or imply that the components or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present invention.

Example 1:

referring to fig. 1-10, the embodiment of the invention provides a technical scheme: the utility model provides an assembled beam column coupling mechanism, includes connection structure body 3, and at least one side on the connection structure body 3 is connected with and links up beam column 2, and connection structure body 3 bottom is connected with prefabricated support column 1.

Specifically, the connection structure body 3 includes two connection plates one 4, two connection plates two 5, a top plate one 6, a bottom plate one 7, a connection plugboard one 8, a connection plugboard two 9 and a support connector 10, the top plate one 6 includes a first top plate 601, wherein the shape of the first top plate 601 is cross-shaped, a square jack one 602 for plugging the two connection plates one 4 and the two connection plates two 5 is formed on the top surface of the first top plate 601, one ends of the connection plates one 4 and the connection plates two 5 completely penetrate through the inner wall of the square jack one 602 formed on the surface of the top plate one 6, the bottom ends of the connection plates one 4 and the connection plates two 5 are level with the bottom end of the bottom plate one 7, a damping hole one 603 is formed on the top surface of the first top plate 601, a reinforcing steel bar jack three 604 is formed on the surface of the first top plate 601 and is located between the damping hole one 603 and the reinforcing bar jack three 604, a square clamping hole three 605 is formed on the top surface of the first top plate 601, the plugged reinforcing bar in the middle of the reinforcing bar jack three 604 can be partially inserted, one end completely penetrates through the connection part;

as shown in fig. 24, two ends of the first connecting plate 4 and the second connecting plate 5 completely penetrate through inner walls of a square jack 602 formed on the surface of the first top plate 6 and a square jack 702 formed on the surface of the first bottom plate 7;

As shown in fig. 23, the upper and lower ends of the first connecting plate 4 and the second connecting plate 5 are respectively flush with the bottom end of the first top plate 6 and the bottom end of the first bottom plate 7.

The inner sides of the two first connecting plates 4 are provided with a second connecting plugboard 9, the inner sides of the two second connecting plates 5 are provided with a first connecting plugboard 8, the first bottom plate 7 comprises a first bottom plate 701, square jacks two 702 for inserting the two first connecting plates 4 and the two second connecting plates 5 are formed in the top surface of the first bottom plate 701, shock absorption holes two 703 are formed in the surface of the first bottom plate 701, reinforcing steel bar jacks four 704 are formed in the surface of the first bottom plate 701, square clamping holes four 705 are formed in the surface of the first bottom plate 701, supporting connecting pieces 10 are arranged between the second connecting plates 5 and the first top plate 6, inserted reinforcing steel bars in the middle of the fourth reinforcing steel bar jacks 704 can be inserted in a flush mode, one end of the reinforcing steel bar jacks penetrates through the connecting parts completely.

Specifically, the first connecting plate 4 includes a first side plate 401, a first bump 402, a second bump 403, a first connecting slot 404, a first clamping groove 405, a first reinforcing bar jack 406, and a first square clamping hole 407, the first bump 402 is formed on the left and right sides of the first side plate 401, the second bump 403 is formed on the left side of the first side plate 401, the first connecting slot 404 is formed on the surface of the first side plate 401, the first clamping groove 405 is formed on the upper and lower ends of the first side plate 401, the first reinforcing bar jack 406 is formed on the surface of the first side plate 401, and the first square clamping hole 407 is formed on the surface of the first side plate 401;

The number of the first steel bar inserting holes 406 is five, the first steel bar inserting holes 406 are arranged in a trapezoid, inserted steel bars in the middle of the first steel bar inserting holes 406 can be inserted in a parallel and level mode, one end of each steel bar inserting hole penetrates through each steel bar inserting hole, the steel bars completely penetrate through the connecting portion, the number of the first square clamping holes 407 is four, the steel bars are distributed in a straight line mode, the first square clamping holes 407 are mainly used for being inserted in the wing plates 1001, and therefore stability of the first top plate 601 and the first bottom plate 701 is improved.

Specifically, the second connection plate 5 includes a second side plate 501, a third bump 502, a fourth bump 503, a second connection slot 504, a second clamping groove 505, a second reinforcing bar jack 506, and second square clamping

holes

507 and 508, the third bump 502 is arranged on the left side of the second side plate 501, the fourth bump 503 is arranged on the left side of the second side plate 501, the second connection slot 504 is arranged on the surface of the second side plate 501, the second clamping groove 505 is arranged at the upper and lower ends of the second side plate 501, the second reinforcing bar jack 506 is arranged on the surface of the second side plate 501, the second square clamping hole 507 is arranged on the surface of the second side plate 501, and the 508 is arranged on the right side of the second side plate 501;

the number of the second steel bar jacks 506 is five, the second steel bar jacks 506 are arranged in a trapezoid mode, inserted steel bars in the middle of the second steel bar jacks 506 can be inserted in a parallel and level mode, one end of each steel bar can penetrate through each steel bar, the steel bars completely penetrate through the connection subsection, the number of the second square clamping holes 507 is four, the square clamping holes 507 are distributed in a straight mode, the second square clamping holes 507 are mainly used for being inserted in the wing plates 1001, and therefore stability of the first top plate 601 and the first bottom plate 701 is improved.

Specifically, the first connection plugboard 8 includes a transverse plugboard 801, a fifth steel bar jack 802, a first concave clamping groove 803, a first anti-seismic hole 804, and a third connection slot 805, the fifth steel bar jack 802 is formed on the surface of the transverse plugboard 801, the first concave clamping groove 803 is formed on the top end and the bottom end of the transverse plugboard 801, the first anti-seismic hole 804 is formed on the surface of the transverse plugboard 801, the third connection slot 805 is formed on the surface of the transverse plugboard 801, and inserted steel bars in the middle of the fifth steel bar jack 802 can be inserted in a flush manner, one end of each steel bar penetrates through, and the connection part is completely penetrated through.

Specifically, the second connection plugboard 9 comprises a vertical plugboard 901, a sixth reinforcing steel bar jack 902, a second concave clamping groove 903, a second anti-vibration hole 904 and a fourth connection slot 905, wherein the sixth reinforcing steel bar jack 902 is formed on the surface of the vertical plugboard 901, inserted reinforcing steel bars in the middle of the sixth reinforcing steel bar jack 902 can be inserted in a flush mode, one end of each reinforcing steel bar penetrates through each connecting part, the second concave clamping groove 903 is formed in the top end and the bottom end of the vertical plugboard 901, the second anti-vibration hole 904 is formed in the surface of the vertical plugboard 901, and the fourth connection slot 905 is formed in the surface of the vertical plugboard 901.

Specifically, the support connector 10 includes a wing plate 1001, a concave clamping groove three 1002, a square protruding block one 1003, a square protruding block two 1004, and a reinforcing steel bar jack seven 1005, where the concave clamping groove three 1002 is respectively formed at the top end and the bottom end of the wing plate 1001, the square protruding block one 1003 is formed at the right side edge of the wing plate 1001, the square protruding block two 1004 is formed at the right side edge of the wing plate 1001, the reinforcing steel bar jack seven 1005 is formed on the surface of the wing plate 1001, and the inserted reinforcing steel bars in the middle of the reinforcing steel bar jack seven 1005 can be inserted in a flush manner, one end of the reinforcing steel bar is penetrated, and the reinforcing steel bar completely penetrates through the connection part.

Specifically, the horizontal plugboard 801 and the vertical plugboard 901 are respectively connected through a third connection slot 805 and a fourth connection slot 905 in a crisscross manner, the size of the horizontal plugboard 801 is matched with the size of the vertical plugboard 901, and the depth of the third connection slot 805 and the fourth connection slot 905 is half of the height of the horizontal plugboard 801 and the fourth connection slot 905.

Specifically, the number of the supporting connectors 10 is several, and the protrusions formed by the concave clamping grooves three 1002 at the two ends of the wing plate 1001 are respectively inserted into the inner walls of the square clamping holes formed on the surfaces of the first top plate 601 and the first bottom plate 701.

Specifically, the connection structure body 3 is directly connected with the connection beam column 2 through the connection part at one end of the connection beam column 2, wherein the connection structure body 3 is also directly connected with the support column 1 through the connection part at one end of the connection beam column 2, and the connection parts of the connection structure body 3, the connection plate one 4, the connection plate two 5, the top plate one 6, the bottom plate one 7, the connection plugboard one 8, the connection plugboard two 9 and the support connection piece 10 are all connected in an electric welding mode.

Example 2:

referring to fig. 1, fig. 4-10, fig. 11, fig. 12, an embodiment of the present invention provides a technical solution: the utility model provides an assembled beam column coupling mechanism, includes connection structure body 3, and at least one side on the connection structure body 3 is connected with and links up beam column 2, and connection structure body 3 bottom is connected with prefabricated support column 1.

Specifically, the connection structure body 3 includes two connection plates one 4, two connection plates two 5, a top plate one 6, a bottom plate one 7, a connection plugboard one 8, a connection plugboard two 9 and a support connector 10, the top plate one 6 includes a first top plate 601, wherein the shape of the first top plate 601 is T-shaped, a square jack one 602 for plugging the two connection plates one 4 and the two connection plates two 5 is formed on the top surface of the first top plate 601, the upper and lower ends of the connection plates one 4 and the connection plates two 5 are respectively flush with the bottom end of the top plate one 6, the bottom end of the bottom plate one 7 is flush, a shock absorption hole one 603 is formed on the top surface of the first top plate 601, a steel bar jack three 604 is formed on the surface of the first top plate 601, a square clamping hole three 605 is formed between the shock absorption hole one 603 and the steel bar jack three 604, the plugged steel bars in the middle of the steel bar jack three 604 can be inserted in a flush manner, one end penetrates through the connection part completely;

as shown in fig. 18, two ends of the first connecting plate 4 and the second connecting plate 5 completely penetrate through inner walls of a square jack 602 formed on the surface of the first top plate 6 and a square jack 702 formed on the surface of the first bottom plate 7;

as shown in fig. 17, one ends of the first connecting plate 4 and the second connecting plate 5 completely penetrate the inner wall of the square jack 602 formed on the surface of the first top plate 6, and the bottom ends of the first connecting plate 4 and the second connecting plate 5 are flush with the bottom end of the first bottom plate 7.

holes

Specifically, the first connection plugboard 8 includes a transverse plugboard 801, a fifth steel bar jack 802, a first concave clamping groove 803, a first anti-seismic hole 804, and a third connection slot 805, the fifth steel bar jack 802 is formed on the surface of the transverse plugboard 801, wherein inserted steel bars in the middle of the fifth steel bar jack 802 can be inserted in a flush manner, one end of each of the inserted steel bars penetrates through the connection subsection, the first concave clamping groove 803 is formed on the top end and the bottom end of the transverse plugboard 801, the first anti-seismic hole 804 is formed on the surface of the transverse plugboard 801, and the third connection slot 805 is formed on the surface of the transverse plugboard 801.

Specifically, the support connector 10 includes a wing plate 1001, a concave clamping groove three 1002, a first square bump 1003, a second square bump 1004, and a seventh steel bar jack 1005, where the inserted steel bar in the middle of the seventh steel bar jack 1005 can be inserted in a flush manner, one end of the inserted steel bar is penetrated, and the two ends of the inserted steel bar are completely penetrated and connected with the subsection, the third concave clamping groove 1002 is respectively opened at the top and bottom ends of the wing plate 1001, the first square bump 1003 is opened at the right side of the wing plate 1001, the second square bump 1004 is opened at the right side of the wing plate 1001, and the seventh steel bar jack 1005 is opened on the surface of the wing plate 1001.

Example 3:

referring to fig. 1, fig. 4-10, fig. 11, fig. 13, and fig. 14, an embodiment of the present invention provides a technical solution: the utility model provides an assembled beam column coupling mechanism, includes connection structure body 3, and at least one side on the connection structure body 3 is connected with and links up beam column 2, and connection structure body 3 bottom is connected with prefabricated support column 1.

Specifically, the connection structure body 3 includes two connection plates one 4, two connection plates two 5, a top plate one 6, a bottom plate one 7, a connection plugboard one 8, a connection plugboard two 9 and a support connection piece 10, the top plate one 6 includes a first top plate 601, wherein the shape of the first top plate 601 is 7-shaped, a square jack one 602 for plugging the two connection plates one 4 and the two connection plates two 5 is formed on the top surface of the first top plate 601, one ends of the connection plates one 4 and the connection plates two 5 completely penetrate through the inner wall of the square jack one 602 formed on the surface of the top plate one 6, the bottom ends of the connection plates one 4 and the connection plates two 5 are flush with the bottom end of the bottom plate one 7, a damping hole one 603 is formed on the top surface of the first top plate 601, a reinforcing steel bar jack three 604 is formed on the surface of the first top plate 601 and is located between the damping hole one 603 and the reinforcing bar jack three 604, a square clamping hole three 605 is formed in the top surface of the first top plate 601, the plugged reinforcing steel bar in the middle of the reinforcing bar jack three 604 can be partially plugged, one end completely penetrates through the connection part;

holes

Example 4:

referring to fig. 1, fig. 4-10, fig. 11, fig. 15, fig. 16, an embodiment of the present invention provides a technical solution: the utility model provides an assembled beam column coupling mechanism, includes connection structure body 3, and at least one side on the connection structure body 3 is connected with and links up beam column 2, and connection structure body 3 bottom is connected with prefabricated support column 1.

Specifically, the connecting structure body 3 comprises two first connecting plate members 4, two second connecting plate members 5, a first top plate 6, a first bottom plate 7, a first connecting plugboard 8, a second connecting plugboard 9 and a supporting connecting member 10, wherein the first top plate 6 comprises a first top plate 601, the first top plate 601 is shaped like a Chinese character 'yi', square jack first 602 for inserting the two first connecting plate members 4 and the two second connecting plate members 5 is arranged on the top surface of the first top plate 601, one ends of the first connecting plate members 4 and the second connecting plate members 5 completely penetrate through the inner wall of the square jack first 602 arranged on the surface of the first top plate 6, the bottom ends of the first connecting plate 4 and the second connecting plate 5 are flush with the bottom end of the first bottom plate 7, a first shock absorption hole 603 is formed in the top surface of the first top plate 601, a third steel bar insertion hole 604 is formed in the surface of the first top plate 601, a third square clamping hole 605 is formed in the surface of the first top plate 601 and between the first shock absorption hole 603 and the third steel bar insertion hole 604, inserted steel bars in the middle of the third steel bar insertion hole 604 can be inserted in a flush mode, one end of each inserted steel bar penetrates through each connecting part completely;

holes

firstly, fixing four sides of a first bottom plate 7, and then plugging a first connecting plugboard 8 and a second connecting plugboard 9 into a second square jack 702 formed on the surface of a first bottom plate 701 respectively, wherein a transverse plugboard 801 and a vertical plugboard 901 are connected in a crisscross manner through a third connecting slot 805 and a fourth connecting slot 905 respectively;

S2, on the basis of S1, sequentially inserting the bottom ends of the first connecting plate 4 and the second connecting plate 5 into square jacks II 702 formed in the surface of the first bottom plate 701, and enabling the

adjacent side plates

401 and 501 to be perpendicular to each other, wherein the side edges of the

side plates

401 and 501 are in plug-in connection with grooves formed in the inner side walls of the square jacks II 702, the protruding blocks 402 are buckled with 508 on one side of the side plates II 501, and when the

side plates

401 and 501 are in plug-in connection, the connecting slots 404 are in plug-in connection with the vertical plug boards 901, and the connecting slots II 504 are in plug-in connection with the transverse plug boards 801;

s3, on the basis of S2, sequentially inserting the protrusions formed at the bottom ends of the wing plates 1001 into the inner wall of a square clamping hole IV 705 formed on the surface of the first bottom plate 701, wherein a square projection II 1004 and a steel bar inserting hole seven 1005 at the side edge of the wing plate 1001 are respectively inserted into a square clamping hole I407 and a square clamping hole II 507 so as to be connected into a whole, after the plurality of groups of wing plates 1001 are inserted, sleeving the first top plate 601 on the outer sides of the first connecting plate 4 and the second connecting plate 5 from top to bottom, and inserting a square clamping hole III 605 formed on the surface of the first top plate 601 into the protrusions formed on the side edges of the side plate I401, the connecting slot II 504 and the wing plate 1001 respectively so as to finish the splicing of the connecting structure body 3;

And S4, on the basis of S3, after the splicing of the connecting structure body 3 is completed, the steel bars respectively pass through the side plate I401, the first clamping groove 405, and steel bar jacks formed on the surfaces of the transverse plugboard 801 and the vertical plugboard 901.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

The preferred embodiments of the invention disclosed above are intended only to assist in the explanation of the invention. The preferred embodiments are not exhaustive or to limit the invention to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best understand and utilize the invention. The invention is limited only by the claims and the full scope and equivalents thereof.

Claims

1. An assembled beam column coupling mechanism, its characterized in that: including connection structure body (3), at least one side on connection structure body (3) is connected with and links up beam column (2), connection structure body (3) bottom is connected with prefabricated support column (1).

2. The fabricated beam-column connection mechanism of claim 1, wherein: the connecting structure comprises a connecting structure body (3), wherein the connecting structure body comprises two first connecting plate pieces (4), two second connecting plate pieces (5), a first top plate (6), a first bottom plate (7), a first connecting plugboard (8), a second connecting plugboard (9) and a supporting connecting piece (10), the first top plate (6) comprises a first top plate (601), square inserting holes I (602) for inserting the two first connecting plate pieces (4) and the two second connecting plate pieces (5) are formed in the top surface of the first top plate (601), shock absorption holes I (603) are formed in the top surface of the first top plate (601), reinforcing steel bar inserting holes III (604) are formed in the surface of the first top plate (601), and square clamping holes III (605) are formed between the shock absorption holes I (603) and the reinforcing steel bar inserting holes III (604);

two the inboard of connecting plate one (4) is provided with connection picture peg two (9), two the inboard of connecting plate two (5) is provided with connection picture peg one (8), bottom plate one (7) include first bottom plate (701), square jack two (702) that are used for pegging graft two connection plate one (4) and two connection plate two (5) are seted up on the top surface of first bottom plate (701), shock attenuation hole two (703) are seted up on the surface of first bottom plate (701), reinforcing bar jack four (704) have been seted up on the surface of first bottom plate (701), square draw-in hole four (705) have been seted up on the surface of first bottom plate (701), be provided with between connection plate two (5) and roof one (6) and support connecting piece (10).

3. The fabricated beam-column connection mechanism of claim 1, wherein: the first connecting plate (4) comprises a first side plate (401), a first protruding block (402), a second protruding block (403), a first connecting slot (404), a first clamping groove (405), a first reinforcing steel bar inserting hole (406) and a first square clamping hole (407), wherein the first protruding block (402) is formed in the left side and the right side of the first side plate (401), the second protruding block (403) is formed in the left side of the first side plate (401), the first connecting slot (404) is formed in the surface of the first side plate (401), the first clamping groove (405) is formed in the upper end and the lower end of the first side plate (401), the first reinforcing steel bar inserting hole (406) is formed in the surface of the first side plate (401), and the first square clamping hole (407) is formed in the surface of the first side plate (401).

4. The fabricated beam-column connection mechanism of claim 1, wherein: the connecting plate II (5) comprises a side plate II (501), a protruding block III (502), a protruding block IV (503), a connecting slot II (504), a second clamping groove (505), a reinforcing bar inserting hole II (506) and square clamping holes II (507) and (508), wherein the protruding block III (502) is arranged on the left side edge of the side plate II (501), the protruding block IV (503) is arranged on the left side edge of the side plate II (501), the connecting slot II (504) is arranged on the surface of the side plate II (501), the second clamping groove (505) is arranged at the upper end and the lower end of the side plate II (501), the reinforcing bar inserting hole II (506) is arranged on the surface of the side plate II (501), the square clamping hole II (507) is arranged on the surface of the side plate II (501), and the square clamping hole II (508) is arranged on the right side edge of the side plate II (501).

5. The fabricated beam-column connection mechanism of claim 1, wherein: the connecting plugboard I (8) comprises a transverse plugboard (801), a reinforcing steel bar jack five (802), a concave clamping groove I (803), an anti-vibration hole I (804) and a connecting slot III (805), wherein the reinforcing steel bar jack five (802) is arranged on the surface of the transverse plugboard (801), the concave clamping groove I (803) is arranged at the top end and the bottom end of the transverse plugboard (801) respectively, the anti-vibration hole I (804) is arranged on the surface of the transverse plugboard (801), and the connecting slot III (805) is arranged on the surface of the transverse plugboard (801).

6. The fabricated beam-column connection mechanism of claim 1, wherein: the second connecting plugboard (9) comprises a vertical plugboard (901), a sixth reinforcing steel bar jack (902), a second concave clamping groove (903), a second anti-seismic hole (904) and a fourth connecting slot (905), the sixth reinforcing steel bar jack (902) is arranged on the surface of the vertical plugboard (901), the second concave clamping groove (903) is arranged on the top end and the bottom end of the vertical plugboard (901), the second anti-seismic hole (904) is arranged on the surface of the vertical plugboard (901), and the fourth connecting slot (905) is arranged on the surface of the vertical plugboard (901).

7. The fabricated beam-column connection mechanism of claim 1, wherein: the support connecting piece (10) comprises a wing plate (1001), a concave clamping groove III (1002), a square protruding block I (1003), a square protruding block II (1004) and a reinforcing steel bar inserting hole seven (1005), wherein the concave clamping groove III (1002) is respectively formed in the top end and the bottom end of the wing plate (1001), the square protruding block I (1003) is formed in the right side edge of the wing plate (1001), the square protruding block II (1004) is formed in the right side edge of the wing plate (1001), and the reinforcing steel bar inserting hole seven (1005) is formed in the surface of the wing plate (1001).

8. The fabricated beam-column connection mechanism of claim 1, wherein: the transverse plugboard (801) and the vertical plugboard (901) are respectively connected through a third connecting slot (805) and a fourth connecting slot (905) in a crisscross manner, the size of the transverse plugboard (801) is matched with the size of the vertical plugboard (901), and the depth of the third connecting slot (805) and the fourth connecting slot (905) is half of the height of the third connecting slot (801) and the fourth connecting slot (905);

the number of the supporting connecting pieces (10) is a plurality of groups, and the protrusions formed by the concave clamping grooves III (1002) at the two ends of the wing plate (1001) are respectively inserted into the inner walls of the square clamping holes formed in the surfaces of the first top plate (601) and the first bottom plate (701).

9. The fabricated beam-column connection mechanism of claim 1, wherein: the connecting structure body (3) and the connecting component at one end of the connecting beam column (2) are directly connected through the connecting component at one end of the connecting beam column (2), wherein the connecting structure body (3) and the supporting column (1) are also directly connected through the connecting component at one end of the connecting beam column (2), and the connecting parts of the connecting structure body (3), the connecting plate I (4), the connecting plate II (5), the top plate I (6), the bottom plate I (7), the connecting plugboard I (8), the connecting plugboard II (9) and the supporting connecting piece (10) are all connected through electric welding.

10. An assembled beam column coupling mechanism, its characterized in that: the splicing method of the assembled beam column connecting mechanism is specifically as follows;

firstly, fixing four sides of a first bottom plate (7), and then plugging a first connecting plugboard (8) and a second connecting plugboard (9) into a second square jack (702) formed on the surface of the first bottom plate (701), wherein a transverse plugboard (801) and a vertical plugboard (901) are connected in a crisscross manner through a third connecting slot (805) and a fourth connecting slot (905) respectively;

s2, on the basis of S1, sequentially inserting the bottom ends of the first connecting plate (4) and the second connecting plate (5) into square jacks II (702) formed in the surface of the first bottom plate (701), and enabling adjacent side plates I (401) and II (501) to be perpendicular to each other, wherein the side edges of the side plates I (401) and II (501) are spliced with grooves formed in the inner side walls of the square jacks II (702), the protruding blocks I (402) are buckled with 508 on one side of the side plates II (501), and when the side plates I (401) and II (501) are spliced, the connecting slots I (404) and the vertical plugboards (901) are spliced, and the connecting slots II (504) and the transverse plugboards (801) are spliced;

s3, sequentially inserting the bulges formed at the bottom ends of the wing plates (1001) into the inner wall of a square clamping hole IV (705) formed on the surface of the first bottom plate (701), inserting the square projection II (1004) and the steel bar inserting hole seven (1005) at the side edges of the wing plates (1001) into the square clamping hole I (407) and the square clamping hole II (507) respectively so as to connect the wing plates into a whole, sleeving the first top plate (601) on the outer sides of the connecting plate I (4) and the connecting plate II (5) from top to bottom after inserting the plurality of groups of the wing plates (1001) completely, inserting the square clamping hole III (605) formed on the surface of the first top plate (601) into the side plates I (401), the connecting slot II (504) and the bulges formed at the side edges of the wing plates (1001) respectively, and then completing the splicing of the connecting structure body (3);

And S4, on the basis of S3, after the splicing of the connecting structure body (3) is completed, the steel bars respectively pass through the first side plate (401), the first clamping groove (405), the transverse plugboard (801) and the steel bar jacks formed on the surfaces of the vertical plugboard (901).