CN116695872A - Assembled beam column node connecting device and assembling method - Google Patents

Abstract

The application relates to an assembly type beam column node connecting device and an assembly method, and relates to the field of assembly type beam column nodes. The application has the effect of improving the convenience of beam column node installation.

Description

Assembled beam column node connecting device and assembling method

Technical Field

The application relates to the field of beam column node connection, in particular to an assembled beam column node connection device and an assembly method.

Background

The beam column nodes are the intersecting parts of the beam columns and are used as important component parts of the frame structure, and have important influence on the whole stress performance and deformation resistance of the frame; the assembled beam column node is prepared in a field assembly mode.

The related technology relates to an assembled beam column node, which comprises a prefabricated column body and a prefabricated beam, wherein the side wall of the prefabricated beam is provided with a mounting plate, the surface of the mounting plate is penetrated with a fixing screw, and the fixing screw is in threaded connection with the prefabricated column body; and connecting the prefabricated column body with the prefabricated beam through the fixing screw to finish the installation of the beam column joint on site.

For the related art, the precast beam and the precast column are installed, the precast beam needs to be positioned to a height position required by construction, the precast beam is stable, then the installation plate is penetrated through by the fixing screw and connected with the precast column, the precast beam needs to be continuously kept stable, the phenomenon that the precast beam moves is reduced, the installation process is complex, and a large amount of manpower and material resources are required, so that improvement is needed.

Disclosure of Invention

In order to improve the assembly convenience of the assembled beam column node, the application provides an assembled beam column node connecting device and an assembly method.

The application provides an assembly type beam column node connecting device and an assembly method, which adopt the following technical scheme:

in a first aspect, the present application provides an assembled beam column node connection device, which adopts the following technical scheme:

the utility model provides an assembled beam column node connecting device, includes fixed stand and spliced pole, the fixed stand is provided with the spliced groove, set up the installation cavity in the fixed stand, the spliced pole is provided with the splice plate, the splice plate can be inserted and locate in the spliced groove, be provided with the fixed subassembly that is used for fixing the splice plate in the spliced groove, the fixed subassembly is including connecting rack, connecting gear, dwang, fixed block and stabilizer, the dwang rotates with the inner wall of installation cavity to be connected, the dwang is located to the connecting gear cover, connecting rack is connected with the spliced pole, connecting rack can with connecting gear meshing, the dwang is located to the fixed block cover and with dwang threaded connection, the fixed slot that supplies the fixed block to insert to establish is seted up to the splice plate, the stabilizer can drive the fixed block and wholly insert and locate in the fixed slot.

Through adopting above-mentioned technical scheme, when being connected spliced pole and fixed column, insert the spliced pole and locate in the spliced groove, connect the rack simultaneously and drive connecting gear and rotate, the dwang rotates the back for the fixed block removes along the length direction of dwang, and insert in locating the fixed slot of spliced pole, adjust the stabilizing piece afterwards, make the fixed block all insert establish with the fixed slot in, reducible spliced pole and the phenomenon of fixed column separation have promoted the stability between spliced pole and the fixed column.

Preferably, the stabilizing piece comprises a sliding plate and a driven rack, wherein the sliding plate is inserted into the inserting groove, the driven rack is connected with the sliding plate, and the driven rack can be meshed with the connecting gear.

Through adopting above-mentioned technical scheme, after the pinboard is inserted and is located the jack-in groove, connect rack and connection gear separation, the pulling sliding plate later, the driven rack of sliding plate department drives connection gear and continues to rotate after connecting gear meshing to make the fixed block wholly insert and locate in the fixed slot, make the fixed block closely laminate with the inner wall of fixed slot, further promoted the fixed performance of fixed block to the pinboard, thereby promoted the stability between spliced pole and the fixed stand.

Preferably, the side wall of the connecting column is provided with a plug sleeve, the sliding plate can be plugged into the plug sleeve, the plug rod is arranged in the plug sleeve, the surface of the sliding plate is provided with a through groove, the bottom wall of the plug sleeve is provided with a stabilizing groove, the through groove and the stabilizing groove can be communicated, the plug rod can be plugged into the through groove and the stabilizing groove together, and a driving piece for driving the plug rod to move is arranged in the plug sleeve.

Through adopting above-mentioned technical scheme, after pulling the sliding plate for in the sliding plate inserts and peg graft the sleeve, adjust the driving piece afterwards, make the grafting pole wear to establish the logical groove of sliding plate and insert and locate in the stable groove, thereby make the grafting pole fix the sliding plate, promoted the stability of sliding plate.

Preferably, the outer wall of the plug rod is provided with a magnetic part, and the inner wall of the stabilizing groove is provided with an adsorption part which is magnetically attracted with the magnetic part.

Through adopting above-mentioned technical scheme, after the spliced pole wears to establish the logical groove of sliding plate and inserts and locate in the stable groove, the magnetic part of spliced pole outer wall and the adsorption piece of stable inslot wall mutually attract laminating to further promoted the stability of spliced pole.

Preferably, the driving piece comprises a mounting sleeve, a driving block, a limiting spring and a connecting rope, wherein the mounting sleeve is connected with the end wall of the plug sleeve, the driving block is inserted into the mounting sleeve, one end of the limiting spring is connected with the end wall of the mounting sleeve, the other end of the limiting spring is connected with the driving block, the driving block is provided with a first driving groove in a penetrating mode, the mounting sleeve is provided with a second driving groove in a penetrating mode, the first driving groove can be communicated with the second driving groove in a penetrating mode, the plug sleeve is provided with a yielding groove communicated with the second driving groove, the plug sleeve is provided with a connecting groove, one end of the connecting groove is communicated with the second driving groove, and the connecting rope is provided with the yielding groove, the first driving groove, the second driving groove and the connecting groove in a penetrating mode and is connected with the plug rod.

By adopting the technical scheme, after the sliding plate is inserted into the plug sleeve, one end of the sliding plate, which is far away from the fixed upright post, is propped against the driving block, the limiting spring is compressed, the first driving groove of the driving block is communicated with the second driving groove of the mounting sleeve, under the action of gravity of the plug rod, the connecting rope is driven to move, the plug rod penetrates through the through groove to be inserted into the stabilizing groove, the sliding plate is fixed, and the first driving groove and the second driving groove of the driving block are kept in a communicated state; when the sliding plate is required to be separated from the plug sleeve, the connecting rope is pulled, so that the plug rod is separated from the open groove and the stable groove, the driving block slides under the elastic action of the limiting spring, the first driving groove and the second driving groove are dislocated, the connecting rope can be positioned, the plug rod is positioned, and the sliding plate can be conveniently separated from the plug sleeve.

Preferably, a limit buckle is arranged at the lower end of the connecting rope.

Through adopting above-mentioned technical scheme, setting up of limit button for connect the rope and be difficult to all slide to in the grafting sleeve, in order to follow-up operation connect the rope.

Preferably, the mounting cavity is internally provided with a mounting block, the side wall of the mounting block is provided with a positioning plugboard, the plugboard is provided with a positioning groove for inserting the positioning plugboard, and the fixed upright post is provided with a moving assembly for driving the mounting block to move.

Through adopting above-mentioned technical scheme, after inserting the plugboard and locating the spliced groove, adjust the removal subassembly, can make the installation piece descend to make the location picture peg insert locate in the constant head tank, thereby further promoted the connection stability between spliced pole and the fixed column.

Preferably, the moving assembly comprises a connecting rod, a driving bevel gear, a driven bevel gear, an operating rod and a guide rod, wherein the connecting rod is rotationally connected with a fixed upright, the guide rod is connected with the fixed upright, the connecting rod and the guide rod are sleeved with a mounting block in a joint mode, the mounting block is in threaded connection with the rotating rod, an operating groove is formed in the fixed upright, the connecting rod stretches into the operating groove, the driving bevel gear is located in the operating groove and is connected with the connecting rod, the driven bevel gear is meshed with the driving bevel gear, the operating rod is connected with the driven bevel gear, and the operating rod is rotationally connected with the end wall of the operating groove.

Through adopting above-mentioned technical scheme, after rotating the action bars, driven bevel gear rotates and drives the drive bevel gear and rotate for the connecting rod follows the drive bevel gear and rotates, and makes the installation piece remove along the length direction of guide bar, thereby makes the location picture peg can insert in the constant head tank of locating the plugboard, has promoted the stability of plugboard.

Preferably, the connecting column is provided with a fixing plate, the fixing plate is provided with a fixing bolt in a penetrating mode, and the fixing bolt is connected with the fixing upright column.

Through adopting above-mentioned technical scheme, after inserting the pinboard in locating the jack groove, the fixed plate is laminated with the surface of fixed stand, wears to establish the fixed plate with fixing bolt afterwards and then with fixed stand threaded connection, can further promote the stability between spliced pole and the fixed stand.

In a second aspect, the present application also provides an assembling method applied to an assembled beam column node connecting device, which comprises the following steps:

preliminary fixing of the connecting column: aligning the plugboard with the plugboard slot, then inserting the plugboard into the plugboard slot, and after the connecting rack drives the connecting gear to rotate, inserting the fixing block into the plugboard slot of the plugboard to finish the primary fixing of the connecting column;

firm spliced pole: drawing the sliding plate to enable the sliding plate to be inserted into the inserting sleeve, and enabling the driven rack at the sliding plate to drive the connecting gear to continue rotating so as to enable the fixing blocks to be completely inserted into the inserting grooves;

fixing the sliding plate: the sliding plates are all inserted into the insertion sleeve and propped against the driving block, so that the driving insertion rod penetrates through the through groove and is inserted into the stabilizing groove;

further stabilizing the connecting column: after the operating rod is rotated, the connecting rod is rotated, and the mounting block descends to enable the positioning plugboard to be inserted into the positioning groove;

and (3) fixing a connecting column: after the fixing bolts penetrate through the fixing plates, the fixing bolts are connected with the fixing upright posts in a threaded mode, and therefore the connecting posts are installed.

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

1. after the plugboard of the connecting column is inserted into the inserting groove, the connecting rack at the plugboard drives the connecting gear to rotate, so that the rotating rod rotates, the fixed block moves along the length direction of the rotating rod, and then the stabilizing piece is adjusted, so that the fixed block is inserted into the fixed groove, the connection stability between the connecting column and the fixed upright column is improved, and the connecting column and the fixed upright column are convenient to detach and maintain subsequently;

2. after the sliding plate is pulled, the sliding plate is inserted into the plug sleeve, the sliding plate abuts against the driving block, the first driving groove is communicated with the second driving groove, the connecting rope is driven to move under the action of gravity of the plug rod, the plug rod penetrates through the through groove and is inserted into the stabilizing groove, and the stability of the sliding plate is further improved;

3. after the connecting column is attached to the fixed upright post, the fixed plate is attached to the fixed upright post, the fixed bolt penetrates through the fixed plate and is in threaded connection with the fixed upright post, and therefore stability between the connecting column and the fixed upright post can be further improved.

Drawings

Fig. 1 is an overall schematic diagram of a fabricated beam-column node connection device according to an embodiment of the present application.

Fig. 2 is a schematic cross-sectional view for embodying the connection relationship between the fixing post and the connecting post.

Fig. 3 is a schematic cross-sectional view for embodying the internal structure of the fixed column.

Fig. 4 is a schematic partial cross-sectional view for embodying the internal structure of the plug sleeve.

Reference numerals illustrate:

1. fixing the upright post; 11. a plug-in groove; 12. a mounting cavity; 13. an operation groove; 2. a connecting column; 21. a plug board; 22. a fixing groove; 23. a positioning groove; 3. a fixing assembly; 31. the connecting rack; 32. a connecting gear; 33. a rotating lever; 34. a fixed block; 35. a stabilizer; 351. a sliding plate; 3511. a through groove; 352. a driven rack; 4. a plug sleeve; 41. a stabilizing groove; 411. an absorbing member; 42. inserting a connecting rod; 421. a magnetic member; 43. a driving member; 431. installing a sleeve; 4311. a second driving groove; 432. a driving block; 4321. a first driving groove; 433. a limit spring; 434. a connecting rope; 4341. a limit button; 44. a relief groove; 45. a connecting groove; 5. a mounting block; 51. positioning the plugboard; 6. a moving assembly; 61. a connecting rod; 62. a drive bevel gear; 63. a driven bevel gear; 64. an operation lever; 65. a guide rod; 7. a fixing plate; 71. a fixing bolt; .

Detailed Description

The application is described in further detail below with reference to fig. 1-4.

The embodiment of the application discloses an assembly type beam column node connecting device and an assembly method. Referring to fig. 1, fig. 2 and fig. 3, an assembly is that a beam column node connecting device comprises a fixed column 1 and a connecting column 2, the connecting column 2 is provided with four, the fixed column 1 and the connecting column 2 are rectangular columns, a mounting cavity 12 is formed in the fixed column 1, a plugging slot 11 communicated with the mounting cavity 12 is formed in the side wall of the fixed column 1, a plugging plate 21 is integrally formed at one end of the connecting column 2 in the length direction, two plugging plates 21 are corresponding to each connecting column 2, the two plugging plates 21 are oppositely arranged, the plugging plates 21 can be plugged in the plugging slots 11, two plugging slots 11 are correspondingly formed in each side wall of the fixed column 1, and the plugging plates 21 of each connecting column 2 are correspondingly plugged in the plugging slots 11 formed in one side wall of the fixed column 1.

Referring to fig. 2 and 3, a fixing component 3 for fixing the jack panel 21 is installed at the jack groove 11, each connecting column 2 corresponds to one fixing component 3, the fixing component 3 comprises two connecting racks 31, two connecting gears 32, two rotating rods 33, two fixing blocks 34 and two stabilizing pieces 35, each rotating rod 33 corresponds to one jack groove 11, the upper end of each rotating rod 33 is connected with a top wall bearing of the installation cavity 12, the rotating rods 33 are bidirectional screw rods, the connecting gears 32 are sleeved on the outer wall of each rotating rod 33 and are fixedly welded with the rotating rods 33, threads of the rotating rods 33 above the connecting gears 32 are opposite to the threads of the rotating rods 33 below the connecting gears 32, the two fixing blocks 34 are respectively positioned at the upper ends of the connecting gears 32 and the lower ends of the connecting gears 32, the fixing blocks 34 are jointly sleeved on the two rotating rods 33, the fixing blocks 34 are in threaded connection with the rotating rods 33, the upper surfaces and the lower surfaces of the jack panel 21 are respectively provided with a fixing groove 22, the fixing grooves 22 positioned at the upper surfaces of the jack panel 21 are used for being connected with the fixing blocks 22 positioned above the connecting gears 32, the jack panel 21 can be fixedly connected with the corresponding to the rotating racks 31 positioned below the connecting gears 32, and the jack panel 21 can be fixedly meshed with the jack panel 32 after the connecting racks 21 are connected with the jack panel 32; the stabilizer 35 is used for driving the fixed block 34 to be inserted into the corresponding fixed slot 22.

Referring to fig. 2 and 3, the stabilizer 35 includes a sliding plate 351 and a driven rack 352, each insertion slot 11 corresponds to one stabilizer 35, the sliding plate 351 is inserted into the corresponding insertion slot 11, the sliding plate 351 is parallel to the insertion plate 21, the connecting gear 32 is located between the sliding plate 351 and the insertion plate 21, the driven rack 352 and the sliding plate 351 are welded and fixed on one side, close to the connecting gear 32, of the driven rack 352 can be meshed with the connecting gear 32, the sliding plate 351 can move along the length direction of the insertion plate 21, the driven rack 352 drives the connecting gear 32 to rotate continuously, and the fixing block 34 can be inserted into the fixing slot 22 to promote the stability of the fixing assembly 3 to the fixing of the connecting column 2.

Referring to fig. 1 and 4, the side wall of the connection column 2 is fixedly welded with the socket sleeve 4, each connection column 2 is provided with two socket sleeves 4, each socket sleeve 4 corresponds to one sliding plate 351, the sliding plate 351 can be inserted into the socket sleeve 4 after sliding, the socket rod 42 is installed in the socket sleeve 4, the surface of the sliding plate 351 penetrates through the through groove 3511 along the height direction of the connection column 2, the bottom wall of the socket sleeve 4 is provided with the stabilizing groove 41 along the length direction of the through groove 3511, after the sliding plate 351 is inserted into the socket sleeve 4, the stabilizing groove 41 is communicated with the through groove 3511 and located at the same axis, the socket rod 42 can be simultaneously inserted into the stabilizing groove 3511 of the sliding plate 351 and the stabilizing groove 41 of the socket sleeve 4, the outer wall of the socket rod 42 is matched with the inner wall of the through groove 3511, thereby the sliding plate 351 is positioned with the socket sleeve 4, and the stability of the fixing block 34 is improved.

Referring to fig. 1 and 4, a driving member 43 for driving the plugging rod 42 to move and plug into the stabilizing groove 41 and the through groove 3511 is installed in the plugging sleeve 4, the driving member 43 comprises a mounting sleeve 431, a driving block 432, a limiting spring 433 and a connecting rope 434, the mounting sleeve 431 is fixedly installed at the end wall of the plugging sleeve 4 through screws, the plugging sleeve 4 and the mounting sleeve 431 are both rectangular, the driving block 432 is inserted into the mounting sleeve 431, the driving block 432 can slide along the length direction of the mounting sleeve 431, one end of the limiting spring 433 is fixedly welded with the end wall of the mounting sleeve 431, the other end of the limiting spring 433 is fixedly welded with one end of the driving block 432 far away from the fixed upright post 1, the driving block 432 is penetrated and provided with a first driving groove 4321 along the height direction of the plugging sleeve 4, the mounting tube is penetrated and provided with a second driving groove 4311 along the height direction of the plugging sleeve 4, and the first driving groove 4321 and the second driving groove 4311 are mutually horizontal, and after the sliding plate 351 is inserted into the plugging sleeve 4, the sliding plate 351 abuts against the driving block 432 and enables the driving block 432 to slide, so that the first driving groove 4321 and the second driving groove 4311 are communicated; the lower end of the plugging sleeve 4 located on the mounting tube is provided with a yielding groove 44 in a penetrating manner along the wall thickness direction, the yielding groove 44 is communicated with the second driving groove 4311, the upper end of the plugging sleeve 4 is provided with a connecting groove 45, the connecting groove 45 is a U-shaped groove, one end of the connecting groove 45 is communicated with the second driving groove 4311, the connecting rope 434 penetrates through the yielding groove 44, the first driving groove 4321 and the second driving groove 4311 to be connected with the connecting groove 45 in a fastening manner, and when the sliding plate 351 enables the first driving groove 4321 to be communicated with the second driving groove 4311, the plugging rod 42 drives the connecting rope 434 to move and enables the plugging rod 42 to be plugged into the through groove 3511 and the stabilizing groove 41 together.

Referring to fig. 4, a magnetic member 421 is embedded in an outer wall of a lower end of the plugging rod 42, and an adsorption member 411 magnetically attracted to the magnetic member 421 is embedded in an inner wall of the stabilizing slot 41.

Referring to fig. 4, the connection rope 434 extends downward to the relief groove 44 and is fastened with a limit button 4341, the projection area of the limit button 4341 is larger than that of the relief groove 44, the limit button 4341 can reduce the retraction of the connection rope 434 into the socket sleeve 4, and meanwhile, the connection rope 434 can be conveniently drawn by an operator.

Referring to fig. 2, a mounting block 5 is mounted in the mounting cavity 12, and positioning plugboards 51 are welded and fixed on the side walls of the mounting block 5, in this embodiment of the present application, four positioning plugboards 51 are provided, each positioning plugboard 51 corresponds to two plugboards 21 of one connecting column 2, a positioning slot 23 for inserting the positioning plugboard 51 is provided on the upper surface of the plugboard 21, and the mounting block 5 can move along the height direction of the fixing upright 1, so that the positioning plugboard 51 is inserted into the positioning slot 23 or separated from the positioning slot 23.

Referring to fig. 2, a moving assembly 6 for driving the mounting block 5 to move is mounted in the mounting cavity 12, the moving assembly 6 includes a connecting rod 61, a driving bevel gear 62, a driven bevel gear 63, an operation rod 64 and a guide rod 65, the connecting rod 61 is disposed along the height direction of the fixing upright 1, the upper end of the connecting rod 61 is connected with a top wall bearing of the mounting cavity 12, the guide rod 65 is fixedly connected with the top wall of the mounting cavity 12 through a screw, the guide rod 65 is parallel to the connecting rod 61, the mounting block 5 is sleeved on the connecting rod 61 and the guide rod 65 together, the mounting block 5 is in threaded connection with the connecting rod 61, an operation groove 13 is formed at the lower end of the fixing upright 1, the fixing upright 1 extends downwards into the operation groove 13, the operation groove 13 is communicated with the outside, the connecting rod 61 extends downwards into the operation groove 13, the connecting rod 61 is connected with the fixing upright 1 through a bearing, the driving bevel gear 62 is welded and fixed at the outer wall of the connecting rod 61, the driven bevel gear 63 is meshed with the driving bevel gear 62, the operation rod 64 is welded and fixed with the driven bevel gear 63 and is connected with the end wall bearing of the operation groove 13, and the operation rod 64 is threaded through the driving bevel gear 63.

Referring to fig. 3, the side walls of the connection columns 2 are fixedly connected with fixing plates 7 through screws, each connection column 2 is provided with two fixing plates 7, one fixing plate 7 is located at the upper surface of the connection column 2, the other fixing plate 7 is located at the lower surface of the connection column 2, after the insertion plate 21 of the connection column 2 is inserted into the insertion groove 11, the fixing plates 7 are attached to the surface of the fixing column 1, fixing bolts 71 are arranged on the surface of the fixing plates 7 in a penetrating manner, each fixing plate 7 is provided with two corresponding fixing bolts 71, and the fixing bolts 71 penetrate through the fixing plates 7 and are in threaded connection with the fixing column 1, so that stability between the connection column 2 and the fixing column 1 is effectively improved.

An assembling method applied to an assembled beam column node connecting device comprises the following steps:

preliminary fixing of the connecting column 2: aligning the plugboard 21 with the plugboard 11, then inserting the plugboard 21 into the plugboard 11, and after the connecting rack 31 drives the connecting gear 32 to rotate, enabling the fixing block 34 to be inserted into the plugboard 11 of the plugboard 21, so as to finish the primary fixing of the connecting column 2;

firm spliced pole 2: the sliding plate 351 is drawn, so that the sliding plate 351 is inserted into the plug sleeve 4, and the driven rack 352 at the sliding plate 351 drives the connecting gear 32 to continue rotating, so that the fixing blocks 34 are all inserted into the plug grooves 11;

fixed sliding plate 351: the sliding plate 351 is fully inserted into the plug sleeve 4 and abuts against the driving block 432, so that the driving plug rod 42 penetrates through the through groove 3511 and is inserted into the stabilizing groove 41;

further stabilizing the connection column 2: after the operation rod 64 is rotated, the connection rod 61 is rotated, and the installation block 5 is lowered, so that the positioning plugboard 51 is inserted into the positioning groove 23;

and (2) fixing the connecting column: after the fixing bolts 71 penetrate through the fixing plates 7, the fixing bolts are connected with the fixing upright posts 1 in a threaded mode, and therefore the connecting posts 2 are installed.

The implementation principle of the assembled beam column node connecting device provided by the embodiment of the application is as follows:

after inserting the plugboard 21 of the connecting column 2 into the inserting groove 11, the position of the connecting column 2 is initially fixed, meanwhile, the connecting rack 31 at the plugboard 21 is meshed with the connecting gear 32 and drives the connecting gear 32 to rotate, the rotating rod 33 rotates, the fixed block 34 is inserted into the fixing groove 22 after moving along the length direction of the rotating rod 33, at the moment, the connecting rack 31 is separated from the connecting gear 32, the stabilizing piece 35 is adjusted, the sliding plate 351 is drawn, the sliding plate 351 is inserted into the corresponding inserting sleeve 4, and the driven rack 352 at the sliding plate 351 drives the connecting gear 32 to continuously rotate, so that the fixed block 34 continuously moves and is completely inserted into the fixing groove 22, thereby improving the stability of the connecting column 2 and the fixed column and facilitating the subsequent installation of the connecting column 2.

The sliding plate 351 is inserted into the plugging sleeve 4 and then abuts against the driving block 432, the limiting spring 433 is compressed to enable the first driving groove 4321 to be communicated with the second driving groove 4311, the connecting rope 434 is enabled to move under the gravity action of the plugging rod 42, the plugging rod 42 penetrates through the through groove 3511 and is inserted into the stabilizing groove 41, and the sliding plate 351 is further enabled to be fixed.

The operation rod 64 is rotated, the driven bevel gear 63 drives the drive bevel gear 62 to rotate, the connecting rod 61 is rotated, the mounting block 5 moves along the length direction of the guide rod 65, and the positioning plugboard 51 is inserted into the positioning groove 23 of the plugboard 21, so that the stability of the connecting column 2 is further improved.

Finally, the fixing bolts 71 penetrate through the fixing plates 7 and are connected with the fixing upright posts 1 in a threaded manner, so that the installation of the assembly type node connecting device can be completed; the connecting column 2 and the fixed upright column 1 are positioned in advance, so that the installation convenience of the beam column node connecting device is improved.

The present embodiment is merely illustrative of the present application, and the present application is not limited thereto, and a worker can make various changes and modifications without departing from the scope of the technical idea of the present application, and therefore: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (10)

1. An assembled beam column node connecting device which is characterized in that: including fixed column (1) and spliced pole (2), be provided with spliced groove (11) of fixed column (1), set up installation cavity (12) in fixed column (1), spliced pole (2) are provided with spliced pole (21), spliced pole (21) can insert and locate in spliced groove (11), be provided with in spliced groove (11) and be used for fixed subassembly (3) to spliced pole (21), fixed subassembly (3) are including connecting rack (31), connecting gear (32), dwang (33), fixed block (34) and stabilizer (35), the inner wall rotation of dwang (33) and installation cavity (12) is connected, dwang (33) are located to connecting gear (32) cover, connecting rack (31) are connected with spliced pole (2), connecting rack (31) can mesh with connecting gear (32), dwang (33) and with dwang (33) threaded connection are located to fixed block (34), inserting piece (21) offer and supply fixed block (34) to establish in can all fixed slots (22).

2. A fabricated beam-column node connection device according to claim 1, wherein: the stabilizing piece (35) comprises a sliding plate (351) and a driven rack (352), the sliding plate (351) is inserted into the inserting groove (11), the driven rack (352) is connected with the sliding plate (351), and the driven rack (352) can be meshed with the connecting gear (32).

3. A fabricated beam-column node connection device according to claim 2, wherein: the lateral wall of spliced pole (2) is provided with grafting sleeve (4), slider (351) can insert and locate in grafting sleeve (4), be provided with in grafting sleeve (4) and insert pole (42), logical groove (3511) have been seted up on the surface of slider (351), stable groove (41) have been seted up to the diapire of grafting sleeve (4), logical groove (3511) can communicate with each other and make grafting pole (42) insert jointly and locate in logical groove (3511) and stable groove (41), be provided with driver (43) that drive inserting pole (42) removed in grafting sleeve (4).

4. A fabricated beam-column node connection device according to claim 3, wherein: the outer wall of the plug-in rod (42) is provided with a magnetic part (421), and the inner wall of the stabilizing groove (41) is provided with an adsorption part (411) magnetically attracted with the magnetic part (421).

5. A fabricated beam-column node connection device according to claim 3, wherein: the driving piece (43) comprises a mounting sleeve (431), a driving block (432), a limiting spring (433) and a connecting rope (434), the mounting sleeve (431) is connected with the end wall of a plug sleeve (4), the driving block (432) is inserted into the mounting sleeve (431), one end of the limiting spring (433) is connected with the end wall of the mounting sleeve (431), the other end of the limiting spring (433) is connected with the driving block (432), the driving block (432) penetrates through to form a first driving groove (4321), the mounting sleeve (431) penetrates through to form a second driving groove (4311), the first driving groove (4321) can be communicated with the second driving groove (4311), a yielding groove (44) communicated with the second driving groove (4311) is formed in the plug sleeve (4), one end of the connecting groove (45) is communicated with the second driving groove (4311), and the connecting rope (432) penetrates through to form the yielding groove (44), the first driving groove (4321), the second driving groove (4311) and the connecting rod (42).

6. The fabricated beam-column node connection device of claim 5, wherein: the lower end of the connecting rope (434) is provided with a limit buckle (4341).

7. A fabricated beam-column node connection device according to claim 1, wherein: the mounting cavity (12) is internally provided with a mounting block (5), the side wall of the mounting block (5) is provided with a positioning plugboard (51), the plugboard (21) is provided with a positioning groove (23) for the positioning plugboard (51) to be inserted, and the fixing upright post (1) is provided with a moving assembly (6) for driving the mounting block (5) to move.

8. The fabricated beam-column node connection device of claim 7, wherein: the movable assembly (6) comprises a connecting rod (61), a drive bevel gear (62), a driven bevel gear (63), an operating rod (64) and a guide rod (65), wherein the connecting rod (61) is rotationally connected with a fixed upright (1), the guide rod (65) is connected with the fixed upright (1), the connecting rod (61) and the guide rod (65) are sleeved with the mounting block (5) jointly, the mounting block (5) is in threaded connection with a rotating rod (33), an operating groove (13) is formed in the fixed upright (1), the connecting rod (61) extends into the operating groove (13), the drive bevel gear (62) is located in the operating groove (13) and is connected with the connecting rod (61), the driven bevel gear (63) is meshed with the drive bevel gear (62), the operating rod (64) is connected with the driven bevel gear (63), and the operating rod (64) is rotationally connected with the end wall of the operating groove (13).

9. A fabricated beam-column node connection device according to claim 1, wherein: the connecting column (2) is provided with a fixing plate (7), a fixing bolt (71) is arranged on the fixing plate (7) in a penetrating mode, and the fixing bolt (71) is connected with the fixing upright column (1).

10. The assembling method applied to the assembled beam column node connecting device is characterized by comprising the following steps of: the method comprises the following steps:

preliminary fixing of the connecting column (2): aligning the plugboard (21) with the plugboard (11), then inserting the plugboard (21) into the plugboard (11), and after the connecting rack (31) drives the connecting gear (32) to rotate, enabling the fixing block (34) to be inserted into the plugboard (21) and completing the primary fixing of the connecting column (2);

firm spliced pole (2): drawing the sliding plate (351) to enable the sliding plate (351) to be inserted into the inserting sleeve (4), and enabling the driven rack (352) at the sliding plate (351) to drive the connecting gear (32) to continuously rotate so as to enable the fixing blocks (34) to be completely inserted into the inserting grooves (11);

fixed slide plate (351): the sliding plates (351) are all inserted into the plug-in sleeve (4) and are propped against the driving block (432), so that the driving plug-in rod (42) penetrates through the through groove (3511) and is inserted into the stabilizing groove (41);

further stabilizing the connecting column (2): after the operating rod (64) is rotated, the connecting rod (61) is rotated, and the mounting block (5) descends to enable the positioning plugboard (51) to be inserted into the positioning groove (23);

fixed connection post (2): the fixing bolts (71) penetrate through the fixing plates (7) and then are connected with the fixing upright posts (1) in a threaded mode, and therefore the connecting posts (2) are installed.