CN219343483U - Assembled building frame post structure - Google Patents

Abstract

The utility model belongs to the field of buildings, and provides an assembled building frame column structure, which comprises: building frame columns and assembled building bottom plates; the column body reinforcing base is installed to building frame column body bottom, has offered a plurality of column body mounting grooves of pegging graft with the column body reinforcing base on the assembled building bottom plate, and column body reinforcing base bottom sets up to type V structure, and column body reinforcing base both sides lower part symmetry is installed and is adjusted the pole, adjusts the pole tip and installs the installed part, the mounting groove has been seted up to the inside bilateral symmetry of column body mounting groove, the multiunit reinforcement is evenly installed towards one side of mounting groove to the installed part, and this structure utilizes multiple structure to stabilize after installing, pours the concrete, realizes high impact resistance.

Description

Assembled building frame post structure

Technical Field

The utility model belongs to the field of buildings, and particularly relates to an assembled building frame column structure.

Background

The main advantages of the frame construction are: the space separation is flexible, the dead weight is light, and the material is saved; the method has the advantages of being capable of being flexibly matched with the plane layout of the building, and is beneficial to arranging building structures requiring larger space; the beam and column members of the frame structure are easy to standardize and finalize the design, and the assembled integral structure is convenient to use, so that the construction period is shortened; when adopting cast in situ concrete frame, structural wholeness, rigidity are better, and the design is handled and also can be reached better antidetonation effect, and assembled frame post structure is on the basis of current frame post structure, and the part that constitutes frame post structure adopts the mode of dismantlement formula installation to connect, and portable before the safe handling to and operation such as maintenance after the installation is used, and overall manufacturing cost is lower.

The prior art adopts a plurality of connecting structures such as bolts, bayonet locks and the like, although the prior art can improve the installation speed and has certain stability, but the prior art plays a role of mainly weighing and supporting, namely, a plurality of side bearing walls or bearing columns, when the prior art adopts the connecting structures for installation, the overall stability can not be ensured, particularly, under severe weather or natural disasters, the impact force from transverse wind or earthquake vibration can not ensure the stability of the building, and the like, and the problems of collapse and the like of the building can be caused, thereby influencing the safety;

accordingly, in view of the above, a fabricated building frame column structure was designed.

Disclosure of Invention

The embodiment of the utility model aims to provide an assembled building frame column structure, which aims to solve the problems.

The utility model is realized in that the structure diagram of the assembled building frame column structure comprises: building frame columns and assembled building bottom plates; the column body reinforcing base is installed at the column body bottom end of the building frame, the column body reinforcing base is provided with a plurality of column body mounting grooves spliced with the column body reinforcing base, the column body reinforcing base bottom end is of a V-shaped structure, adjusting rods are symmetrically installed at the lower portions of two sides of the column body reinforcing base, mounting pieces are installed at the end portions of the adjusting rods, meanwhile, the mounting grooves are symmetrically formed in the two sides of the column body mounting grooves, the mounting pieces move towards the inside of the mounting grooves under the control of the adjusting rods, the column body reinforcing base is stably mounted in the column body mounting grooves, a plurality of groups of reinforcing pieces are uniformly mounted on one side of the mounting pieces towards the mounting grooves, reinforcing plates matched with the reinforcing pieces are arranged in the mounting grooves, stability of the mounting pieces in the mounting grooves is further improved, after the mounting pieces are completely moved to the inside of the mounting grooves and are matched with the reinforcing plates to be reinforced, concrete can be poured towards the mounting grooves, the column body and the bottom of the column body reinforcing base at the moment, after the column body reinforcing pieces are solidified, the column body base and the column body reinforcing base and the mounting base are permanently mounted, and the column body reinforcing base and the column body base can be stably kept under the condition of a transverse impact force or longitudinal vibration can be stably connected.

According to the assembled building frame column structure, the mounting pieces capable of transversely moving are mounted on the two sides of the column reinforcing base on the basis of the plugging of the existing building frame column body and the assembled building base plate, the mounting pieces are plugged with the mounting grooves, and meanwhile the reinforcing plates, the stabilizing sleeves and the reinforcing pieces on the outer sides of the mounting pieces are plugged and fixedly sleeved in the mounting grooves, so that the column reinforcing base is guaranteed to be fully stable after being plugged with the column mounting grooves, and a certain anti-impact capacity can be maintained in both transverse impact force and longitudinal vibration direction.

Drawings

Fig. 1 is a schematic structural view of an assembled building frame column structure.

Fig. 2 is a schematic view of the internal structure of a building frame column in an assembled building frame column structure.

Fig. 3 is a schematic structural view of a mounting member in a fabricated building frame column structure.

Fig. 4 is an enlarged schematic view of the structure of fig. 1 a.

Fig. 5 is a schematic structural view of a stabilizing jacket in an assembled building frame column structure.

FIG. 6 is an enlarged schematic view of the structure of FIG. 3B;

in the accompanying drawings: building frame column 10, building frame column wall 11, column reinforcing base 12, fabricated building bottom 13, locating block 14, locating slot 15, column mounting slot 16, mounting piece 17, adjusting rod 18, reinforcement 19, reinforcing rod 20, stabilizing pin 21, locating hole 22, mounting slot 23, reinforcing plate 24, reinforcing rod locating hole 25, stabilizing sleeve mounting plate 26, telescopic moving rod 27, stabilizing sleeve 28, metal locating pin 30, spring 31, metal layer 32, pouring reinforcing layer 33, grid layer 34, reinforcing frame 35.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

Specific implementations of the utility model are described in detail below in connection with specific embodiments.

As shown in fig. 1 and 3, the structure diagram of the fabricated building frame column structure provided by the embodiment of the utility model includes: building frame columns 10, assembled building floors 13; the column body reinforcing base 12 is installed at the bottom end of the building frame column body 10, a plurality of column body mounting grooves 16 which are spliced with the column body reinforcing base 12 are formed in the assembled building bottom plate 13, the bottom end of the column body reinforcing base 12 is of a V-shaped structure, adjusting rods 18 are symmetrically installed at the lower parts of two sides of the column body reinforcing base 12, mounting pieces 17 are installed at the ends of the adjusting rods 18, meanwhile, mounting grooves 23 are symmetrically formed in the two sides of the inside of the column body mounting grooves 16, the mounting pieces 17 move towards the inside of the mounting grooves 23 under the control of the adjusting rods 18, at the moment, the column body reinforcing base 12 is stably installed in the inside of the column body mounting grooves 16, a plurality of groups of reinforcing plates 19 are uniformly installed at one side of the mounting pieces 17 towards the mounting grooves 23, the inside of the mounting grooves 23 is provided with reinforcing plates 24 which are matched with the reinforcing plates 19, the stability of the inside of the mounting grooves 23 is further improved through the connection of the reinforcing plates 19, and after the mounting pieces 17 are matched with the reinforcing plates 24 to be reinforced, if the column body mounting pieces 17 are not required to be dismounted subsequently, at the moment, concrete can be poured towards the mounting grooves 16, the mounting grooves 23 and the bottom plate 12 are fixedly solidified, and after the column body is assembled, or the column body can be stably and firmly arranged in a vibration-mounted state when the column body is subjected to a vertical vibration, and can be stably installed, and can be stably and installed.

In the embodiment of the utility model, the bottom end of the column reinforcement base 12 is provided with the positioning block 14, the bottom of the column installation groove 16 corresponding to the positioning block 14 is provided with the positioning groove 15 which is in positioning clamping connection with the positioning block 14, the column reinforcement base 12 is accurately inserted into the column installation groove 16 through the clamping connection of the positioning block 14 and the positioning groove 15, and as the two sides of the bottom of the column reinforcement base 12 are arranged to be of a V-shaped structure, an operator can directly extend hands into the adjusting rod 18 at the lower side of the column reinforcement base 12, and the adjusting rod 18 is controlled to rotate to adjust the transverse position of the installation piece 17;

the adjusting rod 18 comprises two screws and a screw cylinder, wherein the two screws are respectively connected with two ends of the screw cylinder in a threaded manner, the length of the screws at the two ends can be adjusted by rotating the screw cylinder, and the other ends of the two screws are respectively connected with the column reinforcing base 12 and the mounting piece 17, namely, the transverse position of the mounting piece 17 can be adjusted by rotating the screw cylinder.

Referring to fig. 4, in an example of the present utility model, a plurality of reinforcing rod positioning holes 25 are formed in the reinforcing plate 24, the reinforcing rod positioning holes 25 respectively correspond to one reinforcing member 19 on one side of the mounting member 17, and when the mounting member 17 moves toward the reinforcing plate 24, the reinforcing member 19 is inserted into the reinforcing rod positioning holes 25, and at this time, the mounting member 17 is further fixed;

referring to fig. 5-6, the reinforcement 19 includes a reinforcement rod 20 mounted on the mounting member 17, the end of the reinforcement rod 20 is connected with a stabilizing pin 21 with a diameter smaller than that of the reinforcement rod 20, the reinforcement rod 20 is inserted into the reinforcement plate 24, the stabilizing pin 21 extends backward through the reinforcement plate 24, a plurality of positioning holes 22 are formed in the middle of the stabilizing pin 21 at equal intervals in a ring shape, a group of stabilizing sleeve mounting plates 26 are arranged in the mounting groove 23 at one side of the reinforcement plate 24 far away from the mounting member 17 in a transversely moving manner, the top ends of the stabilizing sleeve mounting plates 26 extend to the outer top of the assembled building bottom 13 through the mounting groove 23, a telescopic moving rod 27 for pushing the stabilizing sleeve mounting plates 26 to move is connected, a sliding block is mounted at the bottom end of the stabilizing sleeve mounting plates 26, the sliding block is slidingly connected in a sliding groove formed in the bottom of the mounting groove 23, a plurality of stabilizing sleeves 28 are mounted at one side of the stabilizing sleeve mounting plates 26 towards the reinforcement plate 24, and the corresponding stabilizing pins 21 are sleeved under the movement of the stabilizing sleeve mounting plates 26, so that the reinforcement 19 is kept stable under the positioning holes 25 and the positioning sleeves of the stabilizing sleeves 28;

in order to further increase the stability of the sleeve 28 sleeved on the stabilizing pin 21, a plurality of metal positioning pins 30 are elastically arranged at the inner side of the sleeve 28 corresponding to the positions of the positioning holes 22, the ends of the metal positioning pins 30 are in an arc-shaped structure, and the metal positioning pins 30 are synchronously inserted into the positioning holes 22 while the sleeve 28 is sleeved on the stabilizing pin 21, so that positioning is realized;

a spring 31 arranged in the inner wall of the stabilizing sleeve 28 is elastically connected to one end of the metal positioning needle 30 far away from the center of the stabilizing sleeve 28, and elastic connection between the metal positioning needle 30 and the inner side of the stabilizing sleeve 28 is realized through the spring 31;

after the stabilizer sleeve 28 is completely sleeved with the stabilizer pin 21, concrete is poured around the reinforcing plate 24 at the inner end of the mounting groove 23 and the stabilizer sleeve mounting plate 26 to be reinforced according to the selection of whether the stabilizer sleeve is dismounted later.

Referring to fig. 2, as a preferred embodiment of the present utility model, in order to ensure sufficient stability of the interior of the building frame column 10 after concrete is poured, a pouring reinforcement layer 33 is provided inside the outer building frame column wall 11 of the building frame column 10, reinforcement frames 35 distributed in X are uniformly installed inside the pouring reinforcement layer 33, a metal layer 32 of solid structure is provided outside the pouring reinforcement layer 33, and a mesh layer 34 is provided inside the pouring reinforcement layer 33, and concrete is poured inside the pouring reinforcement layer by providing the pouring reinforcement layer 33 inside the building frame column wall 11, so that the gravity of the interior of the building frame column wall 11 is increased while the stability is enhanced, and the sufficient compression resistance of the building frame column wall 11 is maintained when being under load.

In the above embodiment of the present utility model, there is provided an assembled building frame column structure, when the assembled building frame is installed and used, according to whether the assembled building frame is disassembled, whether concrete pouring is performed in the connection internal space between the column reinforcing base 12 and the column mounting groove 16 is selected, before pouring, the column reinforcing base 12 at the bottom of the building frame column 10 is inserted into the column mounting groove 16, and is positioned by the positioning block 14 and the positioning groove 15, then the adjusting rods 18 at two sides of the column reinforcing base 12 are rotated to control the mounting piece 17 to move towards the inside of the mounting groove 23, then the reinforcing rod 20 is always inserted into the reinforcing rod positioning hole 25, and the telescopic moving rod 27 is pushed to drive the stabilizing sleeve 28 to be sleeved on the stabilizing pin 21, then the bottom of the column reinforcing base 12 is fixedly installed in the column mounting groove 16, if the permanent fixing is required after the installation, concrete is poured towards the inside of the column mounting groove 16 and the mounting groove 23 to be stabilized.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (8)

1. The assembled building frame post structure, its characterized in that, assembled building frame post structure includes: building frame columns (10) and assembled building bottom plates (13); the column body reinforcing base (12) is installed at the bottom end of the building frame column body (10), a plurality of column body mounting grooves (16) which are spliced with the column body reinforcing base (12) are formed in the assembled building bottom plate (13), the bottom end of the column body reinforcing base (12) is arranged to be of a V-like structure, adjusting rods (18) are symmetrically installed at the lower portions of two sides of the column body reinforcing base (12), mounting pieces (17) are installed at the end portions of the adjusting rods (18), mounting grooves (23) are symmetrically formed in the two sides of the inner portion of the column body mounting grooves (16), a plurality of groups of reinforcing pieces (19) are uniformly installed on one side of each mounting piece (17) facing the corresponding mounting groove (23), and reinforcing plates (24) which are matched with the reinforcing pieces (19) are arranged in the corresponding mounting grooves (23) of the reinforcing pieces (19).

2. The fabricated building frame column structure according to claim 1, wherein the bottom end of the column reinforcement base (12) is provided with a positioning block (14), and a positioning groove (15) which is in positioning clamping connection with the positioning block (14) is formed in the bottom of a column installation groove (16) corresponding to the positioning block (14).

3. The fabricated building frame column structure according to claim 2, wherein the adjusting rod (18) comprises two screws and a screw cylinder, the two screws are respectively connected with two ends of the screw cylinder in a threaded manner, the length of the screws at the two ends can be adjusted by rotating the screw cylinder, and the other ends of the two screws are respectively connected with the column reinforcing base (12) and the mounting piece (17).

4. A fabricated building frame column structure according to claim 3, wherein the reinforcing plate (24) is provided with a plurality of reinforcing rod positioning holes (25) penetrating transversely, and the reinforcing rod positioning holes (25) correspond to one reinforcing member (19) on one side of the mounting member (17) respectively.

5. The fabricated building frame column structure according to claim 4, wherein the reinforcement (19) comprises a reinforcement rod (20) mounted on the mounting piece (17), the end portion of the reinforcement rod (20) is connected with a stabilizing pin (21) with the diameter smaller than that of the reinforcement rod (20), the reinforcement rod (20) is inserted into the reinforcement plate (24), the stabilizing pin (21) penetrates through the reinforcement plate (24) to extend backwards, a plurality of positioning holes (22) are formed in the middle of the stabilizing pin (21) at equal intervals in an annular mode, a group of stabilizing sleeve mounting plates (26) are transversely arranged in a mounting groove (23) at one side, far away from the mounting piece (17), of the reinforcement plate (24), the top ends of the stabilizing sleeve mounting plates (26) penetrate through the mounting groove (23) to extend to the outer top of the fabricated building base plate (13), a telescopic moving rod (27) for pushing the stabilizing sleeve mounting plates (26) to move is connected, a sliding block is mounted at the bottom end of the stabilizing sleeve mounting plates (26), the sliding block is connected in a sliding groove formed in the bottom portion of the mounting groove (23), the stabilizing sleeve mounting plates (26) face one side of the reinforcement plate (24), and a plurality of stabilizing sleeves (28) are mounted on the stabilizing sleeve mounting plates (28) corresponding to the stabilizing sleeve mounting plates (28).

6. The fabricated building frame column structure according to claim 5, wherein a plurality of metal positioning pins (30) are elastically arranged at positions corresponding to the positioning holes (22) on the inner side of the stabilizing sleeve (28), and ends of the metal positioning pins (30) are arc-shaped.

7. The fabricated building frame column structure according to claim 6, wherein a spring (31) disposed in an inner wall of the stabilizing sleeve (28) is elastically connected to an end of the metal positioning pin (30) remote from the center of the stabilizing sleeve (28).

8. The fabricated building frame column structure according to claim 7, wherein a pouring reinforcing layer (33) is formed inside an outer building frame column wall (11) of the building frame column (10), reinforcing frames (35) distributed in an X shape are uniformly installed inside the pouring reinforcing layer (33), a metal layer (32) of a solid structure is arranged outside the pouring reinforcing layer (33), and a grid layer (34) is arranged inside the pouring reinforcing layer.

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