CN219280902U - Assembled beam column frame connection structure - Google Patents

Abstract

The utility model discloses an assembled beam column frame connecting structure, and relates to the field of assembled structures. The assembled concrete beam column frame connecting structure comprises a connecting structure body, wherein at least one side of the connecting structure body is provided with a connecting beam, a connecting piece on one connecting beam is connected with one side of the connecting structure body through an anti-seismic bolt, and the bottom end of the connecting structure body is connected with a supporting column; the connecting structure body comprises a supporting piece, a first connecting piece, a second connecting piece and two flange plates, wherein first limiting holes for plugging the supporting piece are formed in the middle positions of the top surfaces of the two flange plates, and second limiting holes are formed in the two ends of the first limiting holes on the two flange plates.

Description

Assembled beam column frame connection structure

Technical Field

The utility model relates to the field of assembled structures, in particular to an assembled beam column frame connecting structure.

Background

The traditional assembled beam column is generally divided into two types, wherein the first type is a beam column prefabricated by reinforced concrete, reinforcing steel bars extending out of the concrete are reserved on the splicing surface of the beam column, the beam column is supported by a large number of support frames during installation, exposed reinforcing steel bars on the beam column are subjected to butt joint, bundling and fixing one by one, then concrete is poured at the joint of the reinforcing steel bars, and the second type is a beam column of a heavy steel structure, and the beam column is made of steel pieces and fixedly connected at the joint through connecting pieces.

However, no matter the first type beam column or the second type beam column is constructed, the problems of complex construction, low construction efficiency and poor construction effect exist, and the beam column frame connection cost is increased, so that an assembled beam column frame connection structure is provided to solve the problems.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the utility model provides an assembled beam column frame connecting structure, which solves the problems that the labor intensity of workers is reduced and the construction cost is reduced under the condition that the strength of a connecting structure body is ensured because the connecting structure body is assembled in a mortise-tenon mode.

Technical proposal

In order to achieve the above purpose, the utility model is realized by the following technical scheme: the assembled beam column frame connecting structure comprises a connecting structure body, wherein at least one side of the connecting structure body is provided with a connecting beam, a connecting piece on one connecting beam is connected with one side of the connecting structure body through an anti-seismic bolt, and the bottom end of the connecting structure body is connected with a supporting column;

the connection structure body comprises a supporting piece, a first connecting piece, a second connecting piece and two flange plates, wherein first limiting holes for plugging the supporting piece are formed in the middle positions of the top surfaces of the flange plates, second limiting holes are formed in the two ends of the first limiting holes in the flange plates, second inserting holes are formed in the two sides of the surfaces of the flange plates and located at the two ends of the two second limiting holes, and the second inserting holes are used for being matched with the second limiting holes to realize plugging limiting of the first connecting piece and the second connecting piece.

Further, two four corners positions between the flange plates are provided with diagonal bracing rib plates, fifth bulges are arranged on the top and bottom surface two sides of each diagonal bracing rib plate, third jacks for inserting the fifth bulges on the diagonal bracing rib plates are formed in four corners of the top surface of the flange plate, and a plurality of second through holes which are vertically distributed are formed in the middle of each diagonal bracing rib plate.

Further, support piece includes the riser, riser top and bottom surface intermediate position all are provided with the first sand grip that is used for pegging graft first spacing hole, riser top and bottom surface, and be located first sand grip both sides all are provided with first arch, two flange board top surface both sides limit intermediate position has all seted up and has been used for pegging graft first bellied first jack, riser at least one side middle part is provided with first pterygoid lamina, every first pterygoid lamina surface, and be close to the edge and seted up two perpendicular multiunit first shock-resistant holes of arranging.

Further, the support member further comprises two slots arranged on two sides of the middle position of the bottom surface of the vertical plate.

Further, the support piece further comprises at least one first plugboard arranged at the top or the bottom of the vertical plate, a plurality of second bulges are arranged on two side edges of each first plugboard, and two or more than two first through holes are formed in the middle of the surface of each first plugboard.

Further, the first connecting piece comprises a first side plate, second raised strips for being inserted into second limiting holes are arranged in the middle positions of the top and bottom surfaces of the first side plate, third protrusions are arranged on the top and bottom surfaces of the first side plate and positioned on two sides of the second raised strips, and a first vertical hole for being inserted into one side edge of the vertical plate is formed in the middle of the first side plate;

The second connecting piece comprises a second side plate, third raised strips for being inserted into second limiting holes are arranged in the middle positions of the top and bottom surfaces of the second side plate, fourth protrusions are arranged on the top and bottom surfaces of the second side plate and on two sides of the third raised strips, and second vertical holes for being inserted into the other side edge of the vertical plate are formed in the middle of the second side plate.

Further, the first connecting piece further comprises second wing plates arranged in the middle of at least one side of the first side plate, two vertical rows of multiple groups of second anti-seismic holes are formed in the surface of each second wing plate and close to the edge, and the second anti-seismic holes are detachably connected with the connecting piece on the connecting beam through anti-seismic bolts.

Further, the first connecting piece further comprises at least one second plugboard arranged at the top or the bottom of the first plugboard, and a plurality of first clamping holes are formed in the surface of the side wall of the second plugboard;

the second connecting piece further comprises at least one third plugboard arranged at the top or the bottom of the second side plate, and a plurality of second clamping holes are formed in the surface of the side wall of the third plugboard.

Further, the second plugboard on the first connecting piece and the third plugboard on the second connecting piece are located at the same height.

Further, the support member further comprises a plurality of first reinforcing bar holes formed in two sides of the surface of the vertical plate, the first connecting member further comprises a plurality of second reinforcing bar holes formed in two sides of the first side plate, and the second connecting member further comprises a plurality of third reinforcing bar holes formed in two sides of the second side plate.

Further, the support piece is welded and connected with the first connecting piece, the second connecting piece and the splicing positions of the two flange plates respectively.

Advantageous effects

The utility model has the following beneficial effects:

1. this assembled concrete beam column frame connection structure, two flange plates in the connection structure body can carry out mortise and tenon mode grafting installation to support piece through first spacing hole, thereby can make up into frame support basis, then through second spacing hole and the second jack on two flange plates, can install first connecting piece, second connecting piece again respectively, and then can further strengthen the frame that two flange plates and support piece make up, so that can improve the structural strength of connection structure body then, then through support piece, can cooperate two flange plates, can connect upper and lower support column, and then can play the supporting role, and support piece can connect the joining beam about nimble connection according to the demand again, and then can make joining beam link into a whole through connection structure body and support column, because connection structure body all adopts mortise and tenon mode combination, thereby can reduce staff's intensity under guaranteeing connection structure body intensity, and then construction cost has been reduced.

2. This assembled concrete beam column frame connection structure, through four groups bracing floor, can cooperate the nimble grafting of fifth arch in the third jack on two flange boards, when connection structure body upper portion receives the gravity big time, two flange boards are compressed tightly more this moment, and then can make the third jack and the tight more of the protruding block of fifth, four groups bracing floor simultaneously can support two flange boards again, and then can improve connection structure body and support's stability, through the second through hole, grafting reinforcing bar that can be nimble as required.

3. According to the assembled concrete beam column frame connecting structure, through the vertical plates in the supporting piece, the two flange plates can be flexibly inserted into the first limiting holes on the two flange plates through the two groups of first convex strips, so that the two flange plates can be used for installing the vertical plates, the vertical plates can be clamped and limited, meanwhile, through the first protrusions on the vertical plates, the vertical plates can be inserted into the first insertion holes on the two flange plates, the installation stability of the two flange plates to the vertical plates is further improved, meanwhile, through the vertical plates, the left and right first wing plates can be flexibly installed, the two connecting beams can be conveniently connected left and right through the supporting piece, the bolts connected with the connecting beams can be conveniently installed through the multiple groups of first anti-seismic holes on the first wing plates, meanwhile, the first anti-seismic holes can be conveniently moved up and down, and then the anti-seismic effect can be achieved, and the use safety of the connecting structure body is improved; the two slots on the vertical plate can be respectively spliced with the first connecting piece and the second connecting piece, so that the first connecting piece and the second connecting piece can be stably arranged on the vertical plate; through two upper and lower first picture peg on the riser, can nimble grafting is in two upper and lower support columns to can improve the stability that support piece is connected with two upper and lower support columns, a plurality of second are protruding simultaneously, can mutually support with first connecting piece, second connecting piece again, and then can improve the stability of first connecting piece, second connecting piece installation on support piece, simultaneously through first through-hole, can make things convenient for the circulation of concrete, and then make things convenient for the flow of concrete.

4. According to the assembled concrete beam column frame connecting structure, through the first side plate in the first connecting piece and the second side plate in the second connecting piece, the attaching space can be increased respectively for the second raised strip, the third raised strip and the fourth raised strip, the attaching space can be flexibly inserted into the second limiting hole and the second inserting hole, the first connecting piece, the second connecting piece and the flange plate are conveniently connected through mortise and tenon joints, when the flange plate is stressed, the first connecting piece and the second connecting piece are clamped tightly, so that the connecting structure body is safer to use, through the first vertical hole in the first side plate and the second vertical hole in the second side plate, the left side and the right side of the opposite plate can be flexibly spliced, so that the mounting stability of the first side plate and the second side plate can be improved, the two sides of the first side plate are both connected with other connecting beams, the using functionality of the connecting structure body can be improved, and meanwhile, a plurality of groups of second wing plates on the second side plate are conveniently connected with the second connecting beam through the second vertical holes on the first side plate, the connecting structure body can be conveniently connected with the second wing plate by using bolts, and the connecting structure can be conveniently moved, and the connecting structure can be further improved; through two upper and lower second picture peg and two upper and lower third picture peg on the second curb plate on the first curb plate, can be respectively through first draw-in hole and the mutual mortise and tenon fourth of the second arch in second draw-in hole and the first picture peg, and then can improve support piece and first connecting piece and second connecting piece connection stability, because the third picture peg on second picture peg and the second connecting piece on the first connecting piece is located same height, can make second picture peg and third picture peg up simultaneously or towards, and then can connect the structure body and insert in the support column.

5. This assembled concrete beam column frame connection structure through first reinforcing bar hole, second reinforcing bar hole and third reinforcing bar hole, can make things convenient for the user to run through riser, first curb plate and second curb plate with the reinforcing bar, and then can make connection structure body and floor (not give) be connected more firm.

6. This assembled concrete beam column frame connection structure, because support piece respectively with first connecting piece, second connecting piece and two flange board grafting department all weld continuously, can strengthen the holistic structural strength of connection structure body, and then can prevent that connection structure body from becoming flexible.

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

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic view of a connecting structure according to a first embodiment of the present utility model;

FIG. 3 is an exploded view of a connecting structure according to a first embodiment of the present utility model;

FIG. 4 is a schematic view of a first embodiment of a support member according to the present utility model;

FIG. 5 is a schematic view of a first connector according to a first embodiment of the present utility model;

FIG. 6 is a schematic view of a second connector according to a first embodiment of the present utility model;

FIG. 7 is a schematic view of a diagonal rib plate structure in a first embodiment of the present utility model;

FIG. 8 is a schematic view of a connecting structure according to a second embodiment of the present utility model;

FIG. 9 is an exploded view of a connecting structure according to a second embodiment of the present utility model;

FIG. 10 is a schematic view of a connecting structure according to a third embodiment of the present utility model;

FIG. 11 is an exploded view of a connecting structure according to a third embodiment of the present utility model;

FIG. 12 is a schematic view showing the structure of a connecting structure according to a fourth embodiment of the present utility model;

fig. 13 is a schematic view showing a structure in which a connection structure body is inserted into a reinforcing bar according to a fourth embodiment of the present utility model.

In the figure, 1, a support column; 2. a connecting beam; 3. a connection structure body; 4. a support; 401. a vertical plate; 402. a first protruding strip; 403. a first protrusion; 404. a first wing plate; 405. a first shock hole; 406. a first plugboard; 407. a second protrusion; 408. a first through hole; 409. a first rebar aperture; 410. a slot; 5. a first connector; 501. a first side plate; 502. a second protruding strip; 503. a third protrusion; 504. a second wing plate; 505. a second shock hole; 506. a second plugboard; 507. a first clamping hole; 508. a first vertical hole; 509. a second rebar hole; 6. a second connector; 601. a second side plate; 602. a third protruding strip; 603. a fourth protrusion; 604. a third plugboard; 605. a second clamping hole; 606. a second vertical hole; 607. a third rebar hole; 7. a flange plate; 8. a first limiting hole; 9. a second limiting hole; 10. a first jack; 11. a second jack; 12. diagonal bracing rib plates; 1201. a fifth protrusion; 1202. a second through hole; 13. and a third jack.

Detailed Description

The following description of the embodiments of the present utility model 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 utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the present utility model, it should be understood that the terms "open," "upper," "lower," "thickness," "top," "middle," "length," "inner," "peripheral," and the like indicate orientations or positional relationships, merely to facilitate the description of the present utility model and simplify the description, and do not indicate or imply that the individual pieces or elements referred to must have a particular orientation, be configured and operated in a particular orientation, and thus should not be construed as limiting the present utility model.

Example 1

Referring to fig. 1 to 7, the embodiment of the present utility model provides a technical solution: the assembled beam column frame connecting structure comprises a connecting structure body 3, wherein connecting beams 2 are connected to two sides of the connecting structure body 3, a connecting piece on one connecting beam 2 is connected with one side of the connecting structure body 3 through an anti-seismic bolt, and support columns 1 are connected to the bottom end and the top end of the connecting structure body 3;

The connecting structure body 3 comprises a supporting piece 4, a first connecting piece 5, a second connecting piece 6 and two flange plates 7, wherein first limiting holes 8 for plugging the supporting piece 4 are formed in the middle positions of the top surfaces of the two flange plates 7, second limiting holes 9 are formed in the two ends of the first limiting holes 8 on the two flange plates 7, second inserting holes 11 are formed in the two side edges of the surfaces of the two flange plates 7 and located at the two ends of the two second limiting holes 9, and the second inserting holes 11 are used for being matched with the second limiting holes 9 to realize plugging limiting of the first connecting piece 5 and the second connecting piece 6;

through two flange plates 7 in the connection structure body 3, can carry out mortise and tenon mode grafting installation to support piece 4 through first spacing hole 8, thereby can make up into the frame support basis, then through the spacing hole 9 of second on two flange plates 7 and second jack 11, can install first connecting piece 5 respectively again, second connecting piece 6, and then can further strengthen the frame that two flange plates 7 and support piece 4 make up, so that can improve the structural strength of connection structure body 3 then, then through support piece 4, can cooperate two flange plates 7, can connect upper and lower support column 1, and then can play the supporting role, and support piece 4 again can be according to the nimble connection left and right sides of demand two tie-beam 2, and then can make tie-beam 2 become a whole through connection structure body 3 and support column 1, because connection structure body 3 all adopts mortise and tenon mode combination, thereby can reduce staff's intensity of labour under guaranteeing connection structure body 3 intensity, and then reduced construction cost, can be through two flange plates 7 upper and lower through the through-hole that can be connected by two upper and lower through-hole 7 can be according to the required length of the reinforcing bar 3, and can not be connected by the whole flange plate 3.

Specifically, diagonal bracing rib plates 12 are arranged at four corners between the two flange plates 7, fifth protrusions 1201 are arranged on two sides of the top and bottom surfaces of each diagonal bracing rib plate 12, third insertion holes 13 for inserting the fifth protrusions 1201 on the diagonal bracing rib plates 12 are formed in four corners of the top surfaces of the two flange plates 7, and a plurality of second through holes 1202 which are vertically distributed are formed in the middle of each diagonal bracing rib plate 12.

In this embodiment, through four groups of bracing rib plates 12, can cooperate the grafting of fifth arch 1201 nimble in the third jack 13 on two flange boards 7, when connection structure body 3 upper portion receives the gravity big time, two flange boards 7 are compressed tightly this moment more, and then can make the third jack 13 and the tight more of the protruding 1201 block of fifth, four groups of bracing rib plates 12 simultaneously can support two flange boards 7 again, and then can improve the stability that connection structure body 3 supported, through the second through hole 1202, grafting reinforcing bar that can be nimble as required.

Specifically, support 4 includes riser 401, riser 401 top and bottom surface intermediate position all are provided with the first sand grip 402 that is used for pegging graft first spacing hole 8, riser 401 top and bottom surface, and be located first sand grip 402 both sides and all be provided with first arch 403, two flange board 7 top surface both sides limit intermediate position all have seted up the first jack 10 that is used for pegging graft first arch 403, riser 401 both sides middle part all is provided with first pterygoid lamina 404, every first pterygoid lamina 404 surface, and be close to the edge and seted up two perpendicular multiunit first shock-resistant hole 405 of arranging.

In this embodiment, through riser 401 among the support piece 4, can be through the nimble grafting of two sets of first sand grip 402 in the first spacing hole 8 on two flange boards 7, can make two flange boards 7 install the riser 401, can block spacing again to riser 401, simultaneously through the first arch 403 on the riser 401, can peg graft in the first jack 10 on two flange boards 7 again, further improved two flange boards 7 and to riser 401 installation stability, simultaneously through riser 401, two first pterygoid lamina 404 about can nimble installation, and then can make things convenient for support piece 4 to control and connect two tie-beam 2, through the first shock-proof hole 405 of multiunit on the first pterygoid lamina 404, can make things convenient for the staff to install the bolt of being connected with tie-beam 2, first shock-proof hole 405 again can make things convenient for the bolt to reciprocate, and then can play the antidetonation effect, connection structure body 3 safety in utilization has been improved.

Specifically, the support 4 further includes two first insertion plates 406 disposed at the top and bottom of the vertical plate 401, where two sides of each first insertion plate 406 are provided with a plurality of second protrusions 407, and two or more first through holes 408 are formed in the middle of the surface of each first insertion plate 406.

In this embodiment, through two upper and lower first picture peg 406 on the riser 401, can peg graft in two upper and lower support column 1 in a flexible way to can improve the stability that support piece 4 is connected with two upper and lower support column 1, a plurality of second archs 407 simultaneously, can cooperate with first connecting piece 5, second connecting piece 6 again, and then can improve the stability that first connecting piece 5, second connecting piece 6 are installed on support piece 4, simultaneously through first through-hole 408, can make things convenient for the circulation of concrete, and then make things convenient for the flow of concrete.

Specifically, the first connecting piece 5 includes a first side plate 501, second protruding strips 502 for plugging in second limiting holes 9 are provided at middle positions of top and bottom surfaces of the first side plate 501, third protrusions 503 are provided at both sides of the second protruding strips 502 on top and bottom surfaces of the first side plate 501, and a first vertical hole 508 for plugging in one side edge of the vertical plate 401 is provided at middle part of the first side plate 501;

the second connecting piece 6 comprises a second side plate 601, third raised strips 602 for being inserted into the second limiting holes 9 are arranged in the middle positions of the top and bottom surfaces of the second side plate 601, fourth protrusions 603 are arranged on the top and bottom surfaces of the second side plate 601 and located on two sides of the third raised strips 602, and a second vertical hole 606 for being inserted into the other side edge of the vertical plate 401 is formed in the middle of the second side plate 601.

In this embodiment, through the second curb plate 601 in the first curb plate 501 and the second connecting piece 6 in the first connecting piece 5, can improve the adhesion space to second sand grip 502 and third protruding 503 and third sand grip 602 and fourth protruding 603 respectively, can nimble with its inserting in second spacing hole 9 and the second jack 11 again, can make things convenient for the user to connect first connecting piece 5, second connecting piece 6 and flange board 7 mortise-tenon joint, can be when flange board 7 receives pressure again, to first connecting piece 5, the joint of second connecting piece 6 is tighter and tighter for connection structure body 3 uses safer, through the first vertical hole 508 on the first curb plate 501 and the second vertical hole 606 on the second curb plate 601, can nimble opposite plate 401 left and right sides peg graft, thereby can improve first curb plate 501 and second curb plate 601 installation stability.

Specifically, the first connecting piece 5 further includes second wing plates 504 disposed in the middle of the left and right sides on the first side plate 501, two vertical rows of multiple groups of second anti-seismic holes 505 are formed on the surface of each second wing plate 504 and near the edges, and the second anti-seismic holes 505 are detachably connected with the connecting piece on the connecting beam 2 through anti-seismic bolts.

In this embodiment, through two left and right sides second pterygoid lamina 504 on the first sideboard 501, can make first sideboard 501 both sides all connect another linking roof beam 2 to can improve the functionality that connection structure body 3 used, simultaneously through the multiunit second shock-resistant hole 505 on the second pterygoid lamina 504, can make things convenient for the staff to install the bolt of being connected with linking roof beam 2, second shock-resistant hole 505 simultaneously can make things convenient for the bolt to reciprocate again, and then can play the antidetonation effect, improved connection structure body 3 safety in utilization.

Specifically, the first connector 5 further includes two second insertion plates 506 disposed at the top and bottom of the first side plate 501, and a plurality of first clamping holes 507 are formed on the side wall surface of the second insertion plates 506;

the second connector 6 further includes two third insertion plates 604 disposed at the top and bottom of the second side plate 601, and a plurality of second clamping holes 605 are formed on the side wall surface of the third insertion plates 604.

In this embodiment, through the upper and lower second plugboards 506 on the first side plate 501 and the upper and lower third plugboards 604 on the second side plate 601, the supporting member 4 and the first connecting member 5 and the second connecting member 6 can be connected with the second protrusions 407 in the first plugboards 406 via the first clamping holes 507 and the second clamping holes 605 respectively in a mortise-tenon manner.

Specifically, the second board 506 on the first connector 5 and the third board 604 on the second connector 6 are located at the same height.

In this embodiment, the second board 506 and the third board 604 may be made to face upward or face toward at the same time, so that the connection structure body 3 can be inserted into the support column 1.

Specifically, the supporting piece 4 is welded and connected with the first connecting piece 5, the second connecting piece 6 and the splicing positions of the two flange plates 7 respectively.

In this embodiment, the overall structural strength of the connection structure body 3 can be enhanced, and further the connection structure body 3 can be prevented from loosening.

Example 2

Referring to fig. 1, 8 and 9, the embodiment of the present utility model provides a technical solution: the assembled beam column frame connecting structure comprises a connecting structure body 3, wherein connecting beams 2 are connected to two sides of the connecting structure body 3, and a supporting column 1 is connected to the bottom end of the connecting structure body 3;

the connecting structure body 3 comprises a supporting piece 4, a first connecting piece 5, a second connecting piece 6 and two flange plates 7, wherein first limiting holes 8 for plugging the supporting piece 4 are formed in the middle positions of the top surfaces of the two flange plates 7, second limiting holes 9 are formed in the two ends of the first limiting holes 8 on the two flange plates 7, second inserting holes 11 are formed in the two side edges of the surfaces of the two flange plates 7 and located at the two ends of the two second limiting holes 9, and the second inserting holes 11 are used for being matched with the second limiting holes 9 to realize plugging limiting of the first connecting piece 5 and the second connecting piece 6;

through two flange plates 7 in the connection structure body 3, can peg graft the installation to support piece 4 through first spacing hole 8, thereby can make up into the frame support basis, then through the spacing hole 9 of second on two flange plates 7 and second jack 11, can install first connecting piece 5 respectively again, second connecting piece 6, and then can further strengthen the frame that two flange plates 7 and support piece 4 make up into, in order to be convenient for can improve the structural strength of connection structure body 3 then, then through support piece 4, can cooperate two flange plates 7, can connect upper and lower support column 1, and then can play the supporting role, and support piece 4 again can be according to the flexible connection of demand about link beam 2, and then can make link beam 2 become a whole through connection structure body 3 and support column 1, because connection structure body 3 all adopts the mortise mode to make up, thereby can reduce staff's interlude intensity under the connection structure body 3 intensity, and then reduced construction cost, can be convenient for the upper and lower flange plate 7 can be according to the required length of connecting the reinforcing bar 3, and can not be the whole flange plate 3 is connected according to the required length.

Specifically, diagonal bracing rib plates 12 are arranged at four corners between the two flange plates 7, fifth protrusions 1201 are arranged on two sides of the top and bottom surfaces of each diagonal bracing rib plate 12, third insertion holes 13 for inserting the fifth protrusions 1201 on the diagonal bracing rib plates 12 are formed in four corners of the top surfaces of the two flange plates 7, and a plurality of second through holes 1202 which are vertically distributed are formed in the middle of each diagonal bracing rib plate 12.

In this embodiment, through four groups of bracing rib plates 12, can cooperate the grafting of fifth arch 1201 nimble in the third jack 13 on two flange boards 7, when connection structure body 3 upper portion receives the gravity big time, two flange boards 7 are compressed tightly this moment more, and then can make the third jack 13 and the tight more of the protruding 1201 block of fifth, four groups of bracing rib plates 12 simultaneously can support two flange boards 7 again, and then can improve the stability that connection structure body 3 supported, through the second through hole 1202, grafting reinforcing bar that can be nimble as required.

Specifically, support 4 includes riser 401, riser 401 top and bottom surface intermediate position all are provided with the first sand grip 402 that is used for pegging graft first spacing hole 8, riser 401 top and bottom surface, and be located first sand grip 402 both sides and all be provided with first arch 403, two flange board 7 top surface both sides limit intermediate position all have seted up the first jack 10 that is used for pegging graft first arch 403, riser 401 both sides middle part all is provided with first pterygoid lamina 404, every first pterygoid lamina 404 surface, and be close to the edge and seted up two perpendicular multiunit first shock-resistant hole 405 of arranging.

In this embodiment, through riser 401 among the support piece 4, can be through the nimble grafting of two sets of first sand grip 402 in the first spacing hole 8 on two flange boards 7, can make two flange boards 7 install the riser 401, can block spacing again to riser 401, simultaneously through the first arch 403 on the riser 401, can peg graft in the first jack 10 on two flange boards 7 again, further improved two flange boards 7 and to riser 401 installation stability, simultaneously through riser 401, two first pterygoid lamina 404 about can nimble installation, and then can make things convenient for support piece 4 to control and connect two tie-beam 2, through the first shock-proof hole 405 of multiunit on the first pterygoid lamina 404, can make things convenient for the staff to install the bolt of being connected with tie-beam 2, first shock-proof hole 405 again can make things convenient for the bolt to reciprocate, and then can play the antidetonation effect, connection structure body 3 safety in utilization has been improved.

Specifically, the support 4 further includes two slots 410 provided at both sides of the middle position of the bottom surface of the riser 401.

In this embodiment, the two slots 410 on the vertical plate 401 can be plugged with the first connector 5 and the second connector 6 respectively, so that the first connector 5 and the second connector 6 can be stably mounted on the vertical plate 401.

Specifically, the first connecting piece 5 includes a first side plate 501, second protruding strips 502 for plugging in second limiting holes 9 are provided at middle positions of top and bottom surfaces of the first side plate 501, third protrusions 503 are provided at both sides of the second protruding strips 502 on top and bottom surfaces of the first side plate 501, and a first vertical hole 508 for plugging in one side edge of the vertical plate 401 is provided at middle part of the first side plate 501;

the second connecting piece 6 comprises a second side plate 601, third raised strips 602 for being inserted into the second limiting holes 9 are arranged in the middle positions of the top and bottom surfaces of the second side plate 601, fourth protrusions 603 are arranged on the top and bottom surfaces of the second side plate 601 and located on two sides of the third raised strips 602, and a second vertical hole 606 for being inserted into the other side edge of the vertical plate 401 is formed in the middle of the second side plate 601.

In this embodiment, through the second curb plate 601 in the first curb plate 501 and the second connecting piece 6 in the first connecting piece 5, can improve the adhesion space to second sand grip 502 and third protruding 503 and third sand grip 602 and fourth protruding 603 respectively, can nimble with its inserting in second spacing hole 9 and the second jack 11 again, can make things convenient for the user to connect first connecting piece 5, second connecting piece 6 and flange board 7 mortise-tenon joint, can be when flange board 7 receives pressure again, to first connecting piece 5, the joint of second connecting piece 6 is tighter and tighter for connection structure body 3 uses safer, through the first vertical hole 508 on the first curb plate 501 and the second vertical hole 606 on the second curb plate 601, can nimble opposite plate 401 left and right sides peg graft, thereby can improve first curb plate 501 and second curb plate 601 installation stability.

Specifically, the supporting piece 4 is welded and connected with the first connecting piece 5, the second connecting piece 6 and the splicing positions of the two flange plates 7 respectively.

In this embodiment, the overall structural strength of the connection structure body 3 can be enhanced, and further the connection structure body 3 can be prevented from loosening.

Example 3

Referring to fig. 1, 10 and 11, an embodiment of the present utility model provides a technical solution: the assembled beam column frame connecting structure comprises a connecting structure body 3, wherein one side of the connecting structure body 3 is connected with a connecting beam 2, and the bottom end of the connecting structure body 3 is connected with a supporting column 1;

the connecting structure body 3 comprises a supporting piece 4, a first connecting piece 5, a second connecting piece 6 and two flange plates 7, wherein first limiting holes 8 for plugging the supporting piece 4 are formed in the middle positions of the top surfaces of the two flange plates 7, second limiting holes 9 are formed in the two ends of the first limiting holes 8 on the two flange plates 7, second inserting holes 11 are formed in the two side edges of the surfaces of the two flange plates 7 and located at the two ends of the two second limiting holes 9, and the second inserting holes 11 are used for being matched with the second limiting holes 9 to realize plugging limiting of the first connecting piece 5 and the second connecting piece 6;

through two flange plates 7 in the connection structure body 3, can carry out mortise and tenon mode grafting installation to support piece 4 through first spacing hole 8, thereby can make up into frame support basis, then through the spacing hole 9 of second on two flange plates 7 and second jack 11, can install first connecting piece 5 respectively again, second connecting piece 6, and then can further strengthen the frame that two flange plates 7 and support piece 4 make up, so that can improve the structural strength of connection structure body 3 then, then through support piece 4, can cooperate two flange plates 7, can connect upper and lower support column 1, and then can play the supporting role, and support piece 4 again can be according to the nimble connection of demand link beam 2, and then can make link beam 2 become one whole through connection structure body 3 and support column 1, because connection structure body 3 all adopts mortise mode combination, thereby can reduce staff's intensity under guaranteeing connection structure body 3 intensity, and then reduced construction cost, through the through-hole on two flange plates 7, can be according to the required length is that two upper and lower reinforcing bar body 7 can be passed through by the connection structure body, and the whole reinforcing bar can not be connected by the length of the upper and lower reinforcing bar body 7.

Specifically, diagonal bracing rib plates 12 are arranged at four corners between the two flange plates 7, fifth protrusions 1201 are arranged on two sides of the top and bottom surfaces of each diagonal bracing rib plate 12, third insertion holes 13 for inserting the fifth protrusions 1201 on the diagonal bracing rib plates 12 are formed in four corners of the top surfaces of the two flange plates 7, and a plurality of second through holes 1202 which are vertically distributed are formed in the middle of each diagonal bracing rib plate 12.

In this embodiment, through four groups of bracing rib plates 12, can cooperate the grafting of fifth arch 1201 nimble in the third jack 13 on two flange boards 7, when connection structure body 3 upper portion receives the gravity big time, two flange boards 7 are compressed tightly this moment more, and then can make the third jack 13 and the tight more of the protruding 1201 block of fifth, four groups of bracing rib plates 12 simultaneously can support two flange boards 7 again, and then can improve the stability that connection structure body 3 supported, through the second through hole 1202, grafting reinforcing bar that can be nimble as required.

Specifically, support 4 includes riser 401, and riser 401 top and bottom surface intermediate position all are provided with the first sand grip 402 that is used for pegging graft first spacing hole 8, and riser 401 top and bottom surface just are located first sand grip 402 both sides and all are provided with first arch 403, and two flange board 7 top surface both sides limit intermediate position all has seted up the first jack 10 that is used for pegging graft first arch 403, and riser 401 one side middle part is provided with first pterygoid lamina 404, and every first pterygoid lamina 404 surface, and is close to the edge and has seted up two perpendicular multiunit first shock-resistant hole 405 of arranging.

In this embodiment, through riser 401 among the support piece 4, can be through the nimble grafting of two sets of first sand grip 402 in the first spacing hole 8 on two flange boards 7, can make two flange boards 7 install the riser 401, can block spacing again to riser 401, simultaneously through the first arch 403 on the riser 401, can peg graft in the first jack 10 on two flange boards 7 again, further improved two flange boards 7 and to riser 401 installation stability, simultaneously through riser 401, a first pterygoid lamina 404 of flexible installation, and then can make things convenient for support piece 4 to connect a linking beam 2, through the first shock-resistant hole 405 of multiunit on the first pterygoid lamina 404, can make things convenient for the staff to install the bolt of being connected with linking beam 2, first shock-resistant hole 405 simultaneously, can make things convenient for the bolt to reciprocate again, and then can play the antidetonation effect, the safety in utilization of connection structure body 3 has been improved.

Specifically, the support 4 further includes two first insertion plates 406 disposed at the top and bottom of the vertical plate 401, where two sides of each first insertion plate 406 are provided with a plurality of second protrusions 407, and two or more first through holes 408 are formed in the middle of the surface of each first insertion plate 406.

In this embodiment, through two upper and lower first picture peg 406 on the riser 401, can peg graft in two upper and lower support column 1 in a flexible way to can improve the stability that support piece 4 is connected with two upper and lower support column 1, a plurality of second archs 407 simultaneously, can cooperate with first connecting piece 5, second connecting piece 6 again, and then can improve the stability that first connecting piece 5, second connecting piece 6 are installed on support piece 4, simultaneously through first through-hole 408, can make things convenient for the circulation of concrete, and then make things convenient for the flow of concrete.

Specifically, the first connecting piece 5 includes a first side plate 501, second protruding strips 502 for plugging in second limiting holes 9 are provided at middle positions of top and bottom surfaces of the first side plate 501, third protrusions 503 are provided at both sides of the second protruding strips 502 on top and bottom surfaces of the first side plate 501, and a first vertical hole 508 for plugging in one side edge of the vertical plate 401 is provided at middle part of the first side plate 501;

the second connecting piece 6 comprises a second side plate 601, third raised strips 602 for being inserted into the second limiting holes 9 are arranged in the middle positions of the top and bottom surfaces of the second side plate 601, fourth protrusions 603 are arranged on the top and bottom surfaces of the second side plate 601 and located on two sides of the third raised strips 602, and a second vertical hole 606 for being inserted into the other side edge of the vertical plate 401 is formed in the middle of the second side plate 601.

In this embodiment, through the second curb plate 601 in the first curb plate 501 and the second connecting piece 6 in the first connecting piece 5, can improve the adhesion space to second sand grip 502 and third protruding 503 and third sand grip 602 and fourth protruding 603 respectively, can nimble with its inserting in second spacing hole 9 and the second jack 11 again, can make things convenient for the user to connect first connecting piece 5, second connecting piece 6 and flange board 7 mortise-tenon joint, can be when flange board 7 receives pressure again, to first connecting piece 5, the joint of second connecting piece 6 is tighter and tighter for connection structure body 3 uses safer, through the first vertical hole 508 on the first curb plate 501 and the second vertical hole 606 on the second curb plate 601, can nimble opposite plate 401 left and right sides peg graft, thereby can improve first curb plate 501 and second curb plate 601 installation stability.

Specifically, the first connecting piece 5 further includes second wing plates 504 disposed in the middle of one side of the first side plate 501, two vertical rows of multiple groups of second anti-seismic holes 505 are formed on the surface of each second wing plate 504 and near the edge, and the second anti-seismic holes 505 are detachably connected with the connecting piece on the connecting beam 2 through anti-seismic bolts.

In this embodiment, through a second pterygoid lamina 504 on the first curb plate 501, can make first curb plate 501 connect another tie-beam 2 to can improve the functional that connection structure body 3 used, simultaneously through the multiunit second anti-seismic hole 505 on the second pterygoid lamina 504, can make things convenient for the staff to install the bolt of being connected with tie-beam 2, simultaneously second anti-seismic hole 505 can make things convenient for the bolt to reciprocate again, and then can play the antidetonation effect, improved connection structure body 3 safety in utilization.

Specifically, the first connector 5 further includes two second insertion plates 506 disposed at the top and bottom of the first side plate 501, and a plurality of first clamping holes 507 are formed on the side wall surface of the second insertion plates 506;

the second connector 6 further includes two third insertion plates 604 disposed at the top and bottom of the second side plate 601, and a plurality of second clamping holes 605 are formed on the side wall surface of the third insertion plates 604.

In this embodiment, through the upper and lower second plugboards 506 on the first side plate 501 and the upper and lower third plugboards 604 on the second side plate 601, the supporting member 4 and the first connecting member 5 and the second connecting member 6 can be connected with the second protrusions 407 in the first plugboards 406 via the first clamping holes 507 and the second clamping holes 605 respectively in a mortise-tenon manner.

Specifically, the second board 506 on the first connector 5 and the third board 604 on the second connector 6 are located at the same height.

In this embodiment, the second board 506 and the third board 604 may be made to face upward or face toward at the same time, so that the connection structure body 3 can be inserted into the support column 1.

Specifically, the supporting piece 4 is welded and connected with the first connecting piece 5, the second connecting piece 6 and the splicing positions of the two flange plates 7 respectively.

In this embodiment, the overall structural strength of the connection structure body 3 can be enhanced, and further the connection structure body 3 can be prevented from loosening.

Example 4

Referring to fig. 1-7, fig. 12 and fig. 13, an embodiment of the present utility model provides a technical solution: the assembled beam column frame connecting structure comprises a connecting structure body 3, wherein connecting beams 2 are connected to two sides of the connecting structure body 3, a connecting piece on one connecting beam 2 is connected with one side of the connecting structure body 3 through an anti-seismic bolt, and support columns 1 are connected to the bottom end and the top end of the connecting structure body 3;

the connecting structure body 3 comprises a supporting piece 4, a first connecting piece 5, a second connecting piece 6 and two flange plates 7, wherein first limiting holes 8 for plugging the supporting piece 4 are formed in the middle positions of the top surfaces of the two flange plates 7, second limiting holes 9 are formed in the two ends of the first limiting holes 8 on the two flange plates 7, second inserting holes 11 are formed in the two side edges of the surfaces of the two flange plates 7 and located at the two ends of the two second limiting holes 9, and the second inserting holes 11 are used for being matched with the second limiting holes 9 to realize plugging limiting of the first connecting piece 5 and the second connecting piece 6;

through two flange plates 7 in the connection structure body 3, can carry out mortise and tenon mode grafting installation to support piece 4 through first spacing hole 8, thereby can make up into the frame support basis, then through the spacing hole 9 of second on two flange plates 7 and second jack 11, can install first connecting piece 5 respectively again, second connecting piece 6, and then can further strengthen the frame that two flange plates 7 and support piece 4 make up, so that can improve the structural strength of connection structure body 3 then, then through support piece 4, can cooperate two flange plates 7, can connect upper and lower support column 1, and then can play the supporting role, and support piece 4 again can be according to the nimble connection left and right sides of demand two tie-beam 2, and then can make tie-beam 2 become a whole through connection structure body 3 and support column 1, because connection structure body 3 all adopts mortise and tenon mode combination, thereby can reduce staff's intensity of labour under guaranteeing connection structure body 3 intensity, and then reduced construction cost, can be through two flange plates 7 upper and lower through the through-hole that can be connected by two upper and lower through-hole 7 can be according to the required length of the reinforcing bar 3, and can not be connected by the whole flange plate 3.

Specifically, support 4 includes riser 401, riser 401 top and bottom surface intermediate position all are provided with the first sand grip 402 that is used for pegging graft first spacing hole 8, riser 401 top and bottom surface, and be located first sand grip 402 both sides and all be provided with first arch 403, two flange board 7 top surface both sides limit intermediate position all have seted up the first jack 10 that is used for pegging graft first arch 403, riser 401 both sides middle part all is provided with first pterygoid lamina 404, every first pterygoid lamina 404 surface, and be close to the edge and seted up two perpendicular multiunit first shock-resistant hole 405 of arranging.

In this embodiment, through riser 401 among the support piece 4, can be through the nimble grafting of two sets of first sand grip 402 in the first spacing hole 8 on two flange boards 7, can make two flange boards 7 install the riser 401, can block spacing again to riser 401, simultaneously through the first arch 403 on the riser 401, can peg graft in the first jack 10 on two flange boards 7 again, further improved two flange boards 7 and to riser 401 installation stability, simultaneously through riser 401, two first pterygoid lamina 404 about can nimble installation, and then can make things convenient for support piece 4 to control and connect two tie-beam 2, through the first shock-proof hole 405 of multiunit on the first pterygoid lamina 404, can make things convenient for the staff to install the bolt of being connected with tie-beam 2, first shock-proof hole 405 again can make things convenient for the bolt to reciprocate, and then can play the antidetonation effect, connection structure body 3 safety in utilization has been improved.

Specifically, the support 4 further includes two first insertion plates 406 disposed at the top and bottom of the vertical plate 401, where two sides of each first insertion plate 406 are provided with a plurality of second protrusions 407, and two or more first through holes 408 are formed in the middle of the surface of each first insertion plate 406.

In this embodiment, through two upper and lower first picture peg 406 on the riser 401, can peg graft in two upper and lower support column 1 in a flexible way to can improve the stability that support piece 4 is connected with two upper and lower support column 1, a plurality of second archs 407 simultaneously, can cooperate with first connecting piece 5, second connecting piece 6 again, and then can improve the stability that first connecting piece 5, second connecting piece 6 are installed on support piece 4, simultaneously through first through-hole 408, can make things convenient for the circulation of concrete, and then make things convenient for the flow of concrete.

Specifically, the first connecting piece 5 includes a first side plate 501, second protruding strips 502 for plugging in second limiting holes 9 are provided at middle positions of top and bottom surfaces of the first side plate 501, third protrusions 503 are provided at both sides of the second protruding strips 502 on top and bottom surfaces of the first side plate 501, and a first vertical hole 508 for plugging in one side edge of the vertical plate 401 is provided at middle part of the first side plate 501;

The second connecting piece 6 comprises a second side plate 601, third raised strips 602 for being inserted into the second limiting holes 9 are arranged in the middle positions of the top and bottom surfaces of the second side plate 601, fourth protrusions 603 are arranged on the top and bottom surfaces of the second side plate 601 and located on two sides of the third raised strips 602, and a second vertical hole 606 for being inserted into the other side edge of the vertical plate 401 is formed in the middle of the second side plate 601.

In this embodiment, through the second curb plate 601 in the first curb plate 501 and the second connecting piece 6 in the first connecting piece 5, can improve the adhesion space to second sand grip 502 and third protruding 503 and third sand grip 602 and fourth protruding 603 respectively, can nimble with its inserting in second spacing hole 9 and the second jack 11 again, can make things convenient for the user to connect first connecting piece 5, second connecting piece 6 and flange board 7 mortise-tenon joint, can be when flange board 7 receives pressure again, to first connecting piece 5, the joint of second connecting piece 6 is tighter and tighter for connection structure body 3 uses safer, through the first vertical hole 508 on the first curb plate 501 and the second vertical hole 606 on the second curb plate 601, can nimble opposite plate 401 left and right sides peg graft, thereby can improve first curb plate 501 and second curb plate 601 installation stability.

Specifically, the first connecting piece 5 further includes second wing plates 504 disposed in the middle of the left and right sides on the first side plate 501, two vertical rows of multiple groups of second anti-seismic holes 505 are formed on the surface of each second wing plate 504 and near the edges, and the second anti-seismic holes 505 are detachably connected with the connecting piece on the connecting beam 2 through anti-seismic bolts.

In this embodiment, through two left and right sides second pterygoid lamina 504 on the first sideboard 501, can make first sideboard 501 both sides all connect another linking roof beam 2 to can improve the functionality that connection structure body 3 used, simultaneously through the multiunit second shock-resistant hole 505 on the second pterygoid lamina 504, can make things convenient for the staff to install the bolt of being connected with linking roof beam 2, second shock-resistant hole 505 simultaneously can make things convenient for the bolt to reciprocate again, and then can play the antidetonation effect, improved connection structure body 3 safety in utilization.

Specifically, the first connector 5 further includes two second insertion plates 506 disposed at the top and bottom of the first side plate 501, and a plurality of first clamping holes 507 are formed on the side wall surface of the second insertion plates 506;

the second connector 6 further includes two third insertion plates 604 disposed at the top and bottom of the second side plate 601, and a plurality of second clamping holes 605 are formed on the side wall surface of the third insertion plates 604.

In this embodiment, through the upper and lower second plugboards 506 on the first side plate 501 and the upper and lower third plugboards 604 on the second side plate 601, the supporting member 4 and the first connecting member 5 and the second connecting member 6 can be connected with the second protrusions 407 in the first plugboards 406 via the first clamping holes 507 and the second clamping holes 605 respectively in a mortise-tenon manner.

Specifically, the second board 506 on the first connector 5 and the third board 604 on the second connector 6 are located at the same height.

In this embodiment, the second board 506 and the third board 604 may be made to face upward or face toward at the same time, so that the connection structure body 3 can be inserted into the support column 1.

Specifically, the support 4 further includes a plurality of first reinforcement holes 409 provided at both sides of the surface of the vertical plate 401, the first connector 5 further includes a plurality of second reinforcement holes 509 provided at both sides of the first side plate 501, and the second connector 6 further includes a plurality of third reinforcement holes 607 provided at both sides of the second side plate 601.

In this embodiment, through the first reinforcement hole 409, the second reinforcement hole 509 and the third reinforcement hole 607, the user can conveniently penetrate the reinforcement through the vertical plate 401, the first side plate 501 and the second side plate 601, and then the connection structure body 3 and the floor slab are not connected more firmly.

Specifically, the supporting piece 4 is welded and connected with the first connecting piece 5, the second connecting piece 6 and the splicing positions of the two flange plates 7 respectively.

In this embodiment, the overall structural strength of the connection structure body 3 can be enhanced, and further the connection structure body 3 can be prevented from loosening.

During the use, can carry out mortise and tenon mode grafting installation to support piece 4 through first spacing hole 8 through two flange plates 7 in the connection structure body 3, thereby can make up into the frame support basis, then through the second spacing hole 9 and the second jack 11 on two flange plates 7, can install first connecting piece 5, second connecting piece 6 again respectively, and then can further strengthen the frame that two flange plates 7 and support piece 4 make up, so that can improve the structural strength of connection structure body 3 then, then through support piece 4, can cooperate two flange plates 7, can connect upper and lower support column 1, and then can play the supporting role, and support piece 4 again can be according to the flexible joining beam 2 of connecting the left and right sides of demand, and then can make joining beam 2 become a whole through connection structure body 3 and support column 1, because connection structure body 3 adopts the mortise and tenon mode to make up, thereby can guarantee the intensity of interlude staff under the connection structure body 3, and then reduce construction cost, and then can be passed through by two flange plates 7, can be according to the upper and lower through two flange plates 7 can be according to the required length of the upper and lower connection bar 3, and can be the whole of the connection bar 3 is not connected by the required length of the upper and lower flange plate;

Through four groups of diagonal bracing rib plates 12, the four groups of diagonal bracing rib plates can be flexibly spliced in the third insertion holes 13 on the two flange plates 7 in cooperation with the fifth bulge 1201, when the upper part of the connecting structure body 3 is subjected to larger gravity, the two flange plates 7 are compressed more tightly at the moment, so that the third insertion holes 13 and the fifth bulge 1201 are clamped more tightly, and simultaneously, the four groups of diagonal bracing rib plates 12 can support the two flange plates 7, so that the supporting stability of the connecting structure body 3 can be improved, and through the second through holes 1202, the reinforcing steel bars can be flexibly spliced according to requirements;

through the riser 401 in the support piece 4, can be flexibly inserted into the first limiting holes 8 on two flange plates 7 through two groups of first convex strips 402, the two flange plates 7 can be used for installing the riser 401, the clamping limiting can be carried out on the riser 401, meanwhile, through the first protrusions 403 on the riser 401, the riser 401 can be inserted into the first insertion holes 10 on the two flange plates 7, the installation stability of the two flange plates 7 to the riser 401 is further improved, meanwhile, through the riser 401, the left and right first wing plates 404 can be flexibly installed, and further, the support piece 4 can be conveniently connected with the two connecting beams 2 left and right, through a plurality of groups of first anti-seismic holes 405 on the first wing plates 404, workers can conveniently install bolts connected with the connecting beams 2, and meanwhile, the first anti-seismic holes 405 can be convenient for the bolts to move up and down, so that the anti-seismic effect can be played, and the use safety of the connecting structure body 3 is improved; through the two slots 410 on the vertical plate 401, the first connecting piece 5 and the second connecting piece 6 can be respectively inserted and connected, so that the first connecting piece 5 and the second connecting piece 6 can be stably installed on the vertical plate 401; the upper and lower first plugboards 406 on the vertical plate 401 can be flexibly spliced in the upper and lower support columns 1, so that the stability of the connection between the support piece 4 and the upper and lower support columns 1 can be improved, and meanwhile, the second bulges 407 can be matched with the first connecting piece 5 and the second connecting piece 6, so that the stability of the first connecting piece 5 and the second connecting piece 6 mounted on the support piece 4 can be improved, and meanwhile, the circulation of concrete can be facilitated through the first through holes 408, and the flow of the concrete is further facilitated;

Through the first side plate 501 in the first connecting piece 5 and the second side plate 601 in the second connecting piece 6, the attaching space can be increased respectively for the second raised line 502, the third raised line 503, the third raised line 602 and the fourth raised line 603, and the second raised line 502 can be flexibly inserted into the second limiting hole 9 and the second insertion hole 11, so that a user can conveniently connect the first connecting piece 5, the second connecting piece 6 and the flange plate 7 in mortise and tenon joint, and when the flange plate 7 is stressed, the first connecting piece 5 and the second connecting piece 6 are clamped and tightened more and more, the connecting structure body 3 is safer to use, the left side and the right side of the opposite plate 401 can be flexibly inserted through the first vertical hole 508 on the first side plate 501 and the second vertical hole 606 on the second side plate 601, the installation stability of the first side plate 501 and the second side plate 601 can be improved, the two sides of the first side plate 501 are connected with the other connecting beams 2 through the left side plate 504 and the right side plate 504 on the first side plate 501, the use of the connecting structure body 3 can be improved, and simultaneously, the second side plate 505 can be conveniently connected with the second side plate 505 through the second wing plate 505, and the second side plate 505 can be conveniently moved, and the shock-proof structure can be conveniently connected with the second side plate body 2; through the upper and lower two second plugboards 506 on the first side plate 501 and the upper and lower two third plugboards 604 on the second side plate 601, the two second plugboards 506 and the third plugboards 604 can be respectively connected with the second protrusions 407 in the first plugboards 406 through the first clamping holes 507 and the second clamping holes 605 in a mortise-tenon mode, so that the connection stability of the supporting piece 4 and the first connecting piece 5 and the second connecting piece 6 can be improved, and the second plugboards 506 on the first connecting piece 5 and the third plugboards 604 on the second connecting piece 6 are positioned at the same height, so that the second plugboards 506 and the third plugboards 604 face upwards or upwards at the same time, and the connecting structure body 3 can be inserted into the supporting column 1;

Through first reinforcing bar hole 409, second reinforcing bar hole 509 and third reinforcing bar hole 607, can facilitate the user run through riser 401, first curb plate 501 and second curb plate 601 with the reinforcing bar, and then can make connection structure body 3 and floor (not shown) be connected more firmly.

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 utility model disclosed above are intended only to assist in the explanation of the utility model. The preferred embodiments are not intended to be exhaustive or to limit the utility model 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 utility model and the practical application, to thereby enable others skilled in the art to best understand and utilize the utility model. The utility model is limited only by the claims and the full scope and equivalents thereof.

Claims (10)

1. An assembled beam column frame connection structure, its characterized in that: the connecting structure comprises a connecting structure body (3), wherein at least one side of the connecting structure body (3) is provided with a connecting beam (2), a connecting piece on one connecting beam (2) is connected with one side of the connecting structure body (3) through an anti-seismic bolt, and the bottom end of the connecting structure body (3) is connected with a supporting column (1);

the connecting structure comprises a connecting structure body (3), and is characterized in that the connecting structure body comprises a supporting piece (4), a first connecting piece (5), a second connecting piece (6) and two flange plates (7), wherein the middle positions of the top surfaces of the flange plates (7) are respectively provided with a first limiting hole (8) for plugging the supporting piece (4), the two ends of the first limiting holes (8) on the flange plates (7) are respectively provided with a second limiting hole (9), the two sides of the surface of the flange plates (7) are respectively provided with a second jack (11) at the two ends of the two second limiting holes (9), and the second jacks (11) are used for being matched with the second limiting holes (9) to realize plugging limiting of the first connecting piece (5) and the second connecting piece (6).

2. A fabricated beam-column frame connection structure according to claim 1, wherein: four corners position between two flange board (7) all is provided with bracing floor (12) to every bracing floor (12) top and bottom surface both sides all are provided with fifth arch (1201), and two third jack (13) that are used for pegging graft fifth arch (1201) on bracing floor (12) are all seted up in flange board (7) top surface four corners, every a plurality of second through-holes (1202) that are vertical distribution have all been seted up at bracing floor (12) middle part.

3. A fabricated beam-column frame connection structure according to claim 1, wherein: support piece (4) are including riser (401), riser (401) top and bottom surface intermediate position all are provided with first sand grip (402) that are used for pegging graft first spacing hole (8), riser (401) top and bottom surface, and be located first sand grip (402) both sides all are provided with first arch (403), two flange board (7) top surface both sides limit intermediate position has all seted up first jack (10) that are used for pegging graft first arch (403), riser (401) are provided with first pterygoid lamina (404) in the middle part of at least one side, every first pterygoid lamina (404) surface, and be close to edge and seted up two perpendicular multiunit first shock-resistant hole (405).

4. A fabricated beam-column frame connection structure according to claim 3, wherein: the support (4) further comprises two slots (410) arranged on two sides of the middle position of the bottom surface of the vertical plate (401).

5. A fabricated beam-column frame connection structure according to claim 3, wherein: the support piece (4) further comprises at least one first plugboard (406) arranged at the top or the bottom of the vertical plate (401), a plurality of second bulges (407) are arranged on two sides of each first plugboard (406), and two or more than two first through holes (408) are formed in the middle of the surface of each first plugboard (406).

6. A fabricated beam-column frame connection structure according to claim 3, wherein: the first connecting piece (5) comprises a first side plate (501), second raised strips (502) for being inserted into second limiting holes (9) are arranged in the middle positions of the top and bottom surfaces of the first side plate (501), third protrusions (503) are arranged on the top and bottom surfaces of the first side plate (501) and on two sides of the second raised strips (502), and a first vertical hole (508) for being inserted into one side edge of the vertical plate (401) is formed in the middle of the first side plate (501);

the second connecting piece (6) comprises a second side plate (601), third raised strips (602) used for being inserted into second limiting holes (9) are arranged at the middle positions of the top and bottom surfaces of the second side plate (601), fourth protrusions (603) are arranged on the top and bottom surfaces of the second side plate (601) and on two sides of the third raised strips (602), and second vertical holes (606) used for being inserted into the other side edge of the vertical plate (401) are formed in the middle of the second side plate (601).

7. The fabricated beam-column frame connection structure according to claim 6, wherein: the first connecting piece (5) further comprises second wing plates (504) arranged at the middle part of at least one side of the first side plate (501), two vertical rows of multiple groups of second anti-seismic holes (505) are formed in the surfaces of each second wing plate (504) and close to the edges, and the second anti-seismic holes (505) are connected with the connecting piece on the connecting beam (2) in a disassembling mode through anti-seismic bolts.

8. The fabricated beam-column frame connection structure according to claim 6, wherein: the first connecting piece (5) further comprises at least one second plugboard (506) arranged at the top or the bottom of the first side plate (501), and a plurality of first clamping holes (507) are formed in the side wall surface of the second plugboard (506);

the second connecting piece (6) further comprises at least one third plugboard (604) arranged at the top or the bottom of the second side plate (601), and a plurality of second clamping holes (605) are formed in the side wall surface of the third plugboard (604).

9. The fabricated beam-column frame connection structure according to claim 6, wherein: the support piece (4) further comprises a plurality of first reinforcing steel bar holes (409) arranged on two sides of the surface of the vertical plate (401), the first connecting piece (5) further comprises a plurality of second reinforcing steel bar holes (509) arranged on two sides of the first side plate (501), and the second connecting piece (6) further comprises a plurality of third reinforcing steel bar holes (607) arranged on two sides of the second side plate (601).

10. A fabricated beam-column frame connection structure according to claim 1, wherein: the support piece (4) is welded and connected with the first connecting piece (5), the second connecting piece (6) and the splicing positions of the two flange plates (7) respectively.

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