CN217079775U - Beam column structure of assembled building - Google Patents

Abstract

The application discloses beam column structure of assembled building, relate to building and building field, it may cause the problem of rocking to have improved to pour in-process crossbeam, it is including setting up the installation template on the cylinder and setting up the reinforcement seat between adjacent cylinder, reinforcement seat includes two fixed plates and sets up the mounting panel between two fixed plates, two fixed plate settings are in the one side that two cylinders are close to mutually, it has the crane to slide vertical direction on the mounting panel, be provided with the lifting unit that the control crane goes up and down on the mounting panel, horizontal direction slides on the crane has two splint, two splint are located the both sides of crossbeam width direction, be provided with the control that two splint of control are close to mutually or keep away from mutually on the crane, be provided with a plurality of on crane and the mounting panel and consolidate the subassembly, it can support the crane tightly on the mounting panel to consolidate the subassembly. This application can improve the stability of pouring the process.

Description

Beam column structure of assembled building

Technical Field

The application relates to the field of civil engineering and construction, in particular to a beam column structure of an assembly type building.

Background

The fabricated structure is a concrete structure formed by assembling or connecting prefabricated components serving as main stressed components. Compared with the traditional cast-in-place construction method, the method has the advantages of quick construction, greenness, cleanness and the like.

The existing beam column structure of the fabricated building shown in figure 1 comprises a connecting template 3 fixed on a column body 1 through various split bolts, a cross beam 2 is erected on the connecting template 3, and a pouring space 4 is formed between the upper part of the column body 1 and the cross beam 2.

In the process of connecting the beam 2 and the column 1, cement is poured into the pouring space 4, and the beam 2 may shake during the pouring process, thereby affecting the quality of the poured concrete.

SUMMERY OF THE UTILITY MODEL

In order to improve the stability of the process of pouring, this application provides a beam column structure of assembled building.

The application provides a beam column structure of assembled building adopts following technical scheme:

the utility model provides a beam column structure of assembled building, is including setting up the erection template on the cylinder and setting up the reinforcement seat between adjacent cylinder, the reinforcement seat includes two fixed plates and sets up the mounting panel between two fixed plates, two the fixed plate sets up the one side that is close to mutually at two cylinders, it has the crane to slide in vertical direction on the mounting panel, be provided with the lifting unit that control crane goes up and down on the mounting panel, the crane is improved level direction and is slided and has two splint, two splint are located crossbeam width direction's both sides, be provided with the control that two splint of control are close to mutually or keep away from mutually on the crane, be provided with a plurality of on crane and the mounting panel and consolidate the subassembly, consolidate the subassembly and can support the crane tightly on the mounting panel.

Through adopting above-mentioned technical scheme, with fixed plate fixed mounting on the cylinder, the crane rises under lifting unit's effect to support the crane tightly through consolidating the subassembly, then two splint are close to each other under the effect of control, press from both sides the crossbeam tightly until two splint, realize improving the effect of pouring the stability of process.

Optionally, the control piece is a bidirectional screw rod rotatably connected to the lifting frame, and the clamping plate is provided with a control groove for matching the thread part of the bidirectional screw rod.

Through adopting above-mentioned technical scheme, rotatory two-way screw rod, under the cooperation of two-way screw rod screw thread portion and control tank, two splint can slide towards the direction that is close to mutually or keeps away from.

Optionally, one end of the bidirectional screw is provided with a driving motor, and an output shaft of the driving motor is arranged on the bidirectional screw.

Through adopting above-mentioned technical scheme, through starting driving motor, two-way screw rod can rotate.

Optionally, the lifting assembly is a lifting screw rotatably connected to the lower end of the lifting frame and at least one guide rod arranged at the lower end of the lifting frame, a lifting groove matched with the thread part of the lifting screw is formed in the mounting plate, a guide groove for the guide rod to slide in the vertical direction is formed in the mounting plate, and a rotating part for controlling the lifting screw to rotate is arranged on the lifting frame.

Through adopting above-mentioned technical scheme, start and rotate the piece, the lifting screw can rotate, under the cooperation of lifting screw thread portion and lift groove, and under the restriction of guide bar and guide groove, the crane can carry out the ascending removal in vertical side.

Optionally, the crane lower extreme is provided with the operation piece, it includes butt plate and reinforcement screw rod to consolidate the subassembly, the butt plate sets up in one side of crossbeam width direction is followed to the mounting panel, consolidate screw rod threaded connection on the operation piece, just it sets up downwards towards keeping away from operation piece direction slope to consolidate the screw rod, the butt plate is provided with a plurality of along the direction of height and supplies to consolidate screw rod male reinforcement groove.

Through adopting above-mentioned technical scheme, when the crane removed the assigned position, rotatory reinforcing screw rod, until reinforcing screw rod inserts the reinforcing inslot, realized that the subassembly is consolidated the crane and support the effect tightly on the mounting panel.

Optionally, a plurality of reinforcing ribs are arranged between the fixing plate and the mounting plate.

Through adopting above-mentioned technical scheme, strengthen the joint strength between fixed plate and the mounting panel through the strengthening rib.

Optionally, two clamping plates are arranged on one side, away from the fixing plate, of the fixing plate, the two clamping plates are clamped on two side walls of the cylinder in the horizontal direction respectively, and a plurality of mounting bolts for fixing the clamping plates on the cylinder are arranged on the clamping plates.

Through adopting above-mentioned technical scheme, strengthen the stability of fixed plate on the cylinder through the grip block.

Optionally, one side of each of the two clamping plates close to each other is provided with a support plate, and the support plate is supported against the upper end face of the cross beam.

Through adopting above-mentioned technical scheme, through leaning on the possibility that the board reduces the ascending shake of crossbeam vertical direction.

In summary, the present application includes at least one of the following benefits:

with fixed plate and grip block fixed mounting on the cylinder, under the effect that rotates the piece, the lifting screw can drive the crane and rise to support the crane tightly through consolidating the subassembly, then two splint of start-up driving motor can be close to each other, press from both sides the crossbeam tightly until two splint, realize improving the effect of pouring the stability of process.

Drawings

FIG. 1 is a schematic view of the overall structure of the present embodiment;

FIG. 2 is a schematic view of the overall structure of the present embodiment;

FIG. 3 is a schematic sectional view of the crane of the present embodiment;

fig. 4 is an enlarged schematic view at a in fig. 3.

Description of reference numerals: 1. a cylinder; 2. a cross beam; 3. connecting the templates; 4. pouring a space; 5. installing a template; 6. a reinforcing seat; 61. a fixing plate; 611. a clamping plate; 62. mounting a plate; 621. a guide groove; 622. a lifting groove; 7. fixing the bolt; 8. installing a bolt; 9. a lifting frame; 91. mounting grooves; 92. an operation block; 921. an operation slot; 93. a moving groove; 94. rotating the hole; 95. placing the plate; 10. a rotating member; 101. rotating the motor; 11. a lifting assembly; 111. a lifting screw; 112. a guide bar; 12. a reinforcement assembly; 121. reinforcing the screw rod; 122. a butt joint plate; 1221. a reinforcing groove; 13. a splint; 131. a control slot; 132. a backup plate; 133. a sliding part; 14. a control member; 141. a bidirectional screw; 15. a drive motor; 16. and (5) reinforcing ribs.

Detailed Description

The present application is described in further detail below with reference to figures 2-4.

The embodiment of the application discloses beam column structure of an assembly type building.

Referring to fig. 2, the beam column structure of the prefabricated building comprises installation templates 5 and reinforcing seats 6, wherein the installation templates 5 are fixedly installed on the columns 1 through split bolts, the cross beam 2 is erected between the two installation templates 5, and the reinforcing seats 6 are installed between the two columns 1.

Referring to fig. 2, the reinforcing base 6 includes two fixing plates 61 and a mounting plate 62, a plurality of fixing bolts 7 are mounted on the fixing plates 61, the two fixing plates 61 are respectively fixedly mounted on one side end surfaces of the two columns 1 close to each other through the fixing bolts 7, the mounting plate 62 is fixedly connected between the two fixing plates 61, a plurality of reinforcing ribs 16 are mounted between the mounting plate 62 and the fixing plates 61, and the fixed connection between the mounting plate 62 and the fixing plates 61 is strengthened under the action of the reinforcing ribs 16.

Referring to fig. 2, two holding plates 611 are fixedly connected to the sides of the two fixing plates 61 away from each other, the two holding plates 611 are parallel to each other and hold the column 1, and the two holding plates 611 and the fixing plates 61 form a C-shaped plate for covering the column 1.

Referring to fig. 2, a plurality of mounting bolts 8 are mounted on the clamping plate 611, and the mounting bolts 8 are inserted into the column body 1 by a tool, so that the clamping plate 611 is fixed on the column body 1 by the mounting bolts 8. The stability of the reinforcing seat 6 between the two columns 1 is enhanced by the cooperation of the two clamping plates 611 and one fixing plate 61.

Referring to fig. 2 and 3, the lifting frame 9 is installed on the installation plate 62, the rotating part 10 is installed at the lower end of the lifting frame 9, the rotating part 10 is a rotating motor 101, an installation groove 91 for placing the rotating motor 101 is formed in the lifting frame 9, the rotating motor 101 is fixedly installed on the groove wall of the installation groove 91, and the output shaft of the rotating motor 101 faces downwards.

Referring to fig. 2 and 3, the lifting frame 9 is provided with a lifting assembly 11, the lifting assembly 11 includes a lifting screw 111 and at least one guide rod 112, in this embodiment, two guide rods 112 are taken as an example, the lifting screw 111 is welded on the output shaft of the rotating motor 101, a lifting groove 622 matched with the thread part of the lifting screw 111 is formed on the mounting plate 62, and a guide groove 621 for the guide rod 112 to slide in the vertical direction is further formed on the mounting plate 62.

Referring to fig. 2 and 3, the rotating motor 101 is started, the output shaft of the rotating motor 101 drives the lifting screw 111 to rotate, and the lifting frame 9 can slide in the vertical direction under the cooperation of the lifting screw 111 and the lifting groove 622 and the guide rod 112 and the guide groove 621.

Referring to fig. 3, a plurality of operation block 92 is fixedly connected to the lower end surface of the crane 9, a reinforcing component 12 corresponding to the operation block 92 is installed between the crane 9 and the mounting plate 62, the embodiment is exemplified by two reinforcing components 12, the reinforcing component 12 includes a reinforcing screw 121 and a butt plate 122, two butt plates 122 are fixedly connected to two sides of the mounting plate 62 in the width direction, the two butt plates 122 are parallel to each other, an operation groove 921 for the threaded connection of the reinforcing screw 121 is formed in the outer side wall of the operation block 92, the reinforcing screw 121 is inclined downwards towards the direction far away from the operation block 92, a plurality of reinforcing grooves 1221 for inserting the reinforcing screw 121 are formed in one side end surface of the two butt plates 122, and the plurality of reinforcing grooves 1221 are evenly arranged along the height direction.

Referring to fig. 2 and 3, when the lifting frame 9 moves to a designated position, the reinforcing screw 121 is rotated until the reinforcing screw 121 is inserted into one of the reinforcing grooves 1221, and at this time, the reinforcing screw 121 supports the lifting frame 9 against the mounting plate 62, so that the connection between the lifting frame 9 and the mounting plate 62 is further improved, and the stability of the lifting frame 9 on the mounting plate 62 is improved.

Referring to fig. 3 and 4, two clamp plates 13 are mounted on the crane 9, the two clamp plates 13 are respectively located at two sides of the cross beam 2 in the width direction, a sliding part 133 is integrally arranged at the lower end of the clamp plate 13, and a moving groove 93 for the clamp plate 13 and the sliding part 133 to slide in the horizontal direction is formed in the upper end surface of the crane 9. The lifting frame 9 is also provided with a control part 14, the control part 14 is a bidirectional screw rod 141, a rotary hole 94 for rotating the bidirectional screw rod 141 is formed in the wall of one side of the lifting frame 9 in the horizontal direction, and the rotary hole 94 is communicated with the moving groove 93.

Referring to fig. 3 and 4, the clamping plates 13 are provided with control grooves 131 adapted to the screw portions of the two-way screws 141, one of the clamping plates 13 is in threaded connection with the forward screw portion of the two-way screw 141, and the other clamping plate 13 is in threaded connection with the reverse screw portion of the two-way screw 141. By turning the two-way screw 141, the two clamping plates 13 can approach each other in cooperation with the control slot 131 until the two clamping plates 13 simultaneously clamp the beam 2.

Referring to fig. 3 and 4, a placing plate 95 is fixedly connected to one end surface of the crane 9, a driving motor 15 is mounted on the placing plate 95, an output shaft of the driving motor 15 is welded to the bidirectional screw 141, the driving motor 15 is started, and the bidirectional screw 141 can rotate.

Referring to fig. 3, in order to reduce the possibility that the cross beam 2 may shake in the vertical direction during the casting process, the abutting plates 132 are fixedly connected to the sides of the two clamping plates 13 that are close to each other, and when the two clamping plates 13 abut on the end surfaces of the two sides of the cross beam 2, the two abutting plates 132 abut on the upper end surface of the cross beam 2.

The implementation principle of the beam column structure of the fabricated building in the embodiment of the application is as follows:

fix plate 61 fixed mounting is on cylinder 1 through fixing bolt 7, with grip block 611 fixed mounting on cylinder 1 through construction bolt 8, start rotating motor 101, lifting screw 111 can drive crane 9 and rise, then control reinforcing screw 121 inserts in reinforcing groove 1221, support crane 9 tightly on mounting panel 62 this moment, then start driving motor 15, under the cooperation of two-way screw 141, two splint 13 can be close to each other, press from both sides the crossbeam 2 until two splint 13, support board 132 butt on crossbeam 2 up end simultaneously, realize improving the effect of pouring the stability of process.

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

Claims (8)

1. The utility model provides a beam column structure of assembled building which characterized in that: comprises an installation template (5) arranged on a column body (1) and a reinforcement base (6) arranged between adjacent column bodies (1), wherein the reinforcement base (6) comprises two fixing plates (61) and an installation plate (62) arranged between the two fixing plates (61), the two fixing plates (61) are arranged on one side of the two column bodies (1) close to each other, a lifting frame (9) slides in the vertical direction on the installation plate (62), a lifting assembly (11) for controlling the lifting frame (9) to lift is arranged on the installation plate (62), two clamping plates (13) slide in the horizontal direction on the lifting frame (9), the two clamping plates (13) are positioned on two sides of the width direction of a cross beam (2), a control element (14) for controlling the two clamping plates (13) to be close to or far away from each other is arranged on the lifting frame (9) and the installation plate (62), a plurality of reinforcement assemblies (12) are arranged on the lifting frame (9) and the installation plate (62), the reinforcing component (12) can enable the lifting frame (9) to be tightly abutted to the mounting plate (62).

2. The beam column structure of the fabricated building as claimed in claim 1, wherein: the control piece (14) is a bidirectional screw rod (141) which is rotatably connected to the lifting frame (9), and the clamping plate (13) is provided with a control groove (131) which is matched with the thread part of the bidirectional screw rod (141).

3. The beam column structure of the fabricated building as claimed in claim 2, wherein: one end of the bidirectional screw rod (141) is provided with a driving motor (15), and an output shaft of the driving motor (15) is arranged on the bidirectional screw rod (141).

4. The beam column structure of the fabricated building as claimed in claim 1, wherein: lifting unit (11) are for rotating lifting screw (111) and at least one guide bar (112) of setting in crane (9) lower extreme of connecting at crane (9) lower extreme, set up on mounting panel (62) with lifting screw (111) screw thread portion adaptation lift groove (622), guide groove (621) that supply guide bar (112) vertical direction to slide are seted up in mounting panel (62), be provided with the rotatory piece (10) that rotates of control lifting screw (111) on crane (9).

5. The beam column structure of the fabricated building according to claim 4, wherein: crane (9) lower extreme is provided with operation piece (92), it includes butt plate (122) and reinforcement screw rod (121) to consolidate subassembly (12), butt plate (122) set up in mounting panel (62) along crossbeam (2) width direction's one side, reinforcement screw rod (121) threaded connection is on operation piece (92), just reinforcement screw rod (121) set up downwards towards keeping away from operation piece (92) direction slope, butt plate (122) are provided with a plurality of along the direction of height and supply to consolidate screw rod (121) male reinforced groove (1221).

6. The beam column structure of the fabricated building as claimed in claim 1, wherein: a plurality of reinforcing ribs (16) are arranged between the fixing plate (61) and the mounting plate (62).

7. The beam column structure of the fabricated building as claimed in claim 1, wherein: two clamping plates (611) are arranged on one side, away from each other, of each fixing plate (61), the two clamping plates (611) are clamped on two side walls of the column body (1) in the horizontal direction respectively, and a plurality of mounting bolts (8) for fixing the clamping plates (611) on the column body (1) are arranged on the clamping plates (611).

8. The beam column structure of the fabricated building as claimed in claim 1, wherein: one side that two splint (13) are close to mutually is provided with and butts against board (132), it butts against board (132) butt at crossbeam (2) up end.

Images