CN221093525U - Assembled building tower machine connection structure - Google Patents

Abstract

The utility model discloses an assembled building tower crane connecting structure which comprises a support, wherein reinforcing bars are uniformly arranged on the surface of the support, a reinforcing plate is arranged at one end of the support, supporting threads are arranged on the inner wall of one end of the support, supporting connecting holes are formed in the surface of the support, supporting bolts are arranged in the supporting connecting holes, pre-buried devices are arranged at one end of the support, connecting pipes are arranged on the inner wall of the support, connecting devices are arranged on the surface of one end of each connecting pipe, supporting devices are arranged on the surface of each connecting device, fixing devices are arranged on the surface of each supporting device and comprise fixing rods which are arranged in the supporting connecting rings, the fixing rods are matched with the supporting connecting rings, fixing sleeves are arranged on the surfaces of the fixing rods and matched with the fixing rods, fixing connecting plates are fixedly arranged on the surfaces of the fixing sleeves, clamping plates are symmetrically provided with clamping plates, and fixing bolts are uniformly arranged on the surfaces of the clamping plates.

Description

Assembled building tower machine connection structure

Technical Field

The utility model relates to the technical field of building tower crane connection, in particular to an assembled building tower crane connection structure.

Background

The connecting structure of the assembled building tower crane is a connecting mode designed for the assembling and disassembling processes of the building tower crane. A construction tower crane is heavy machinery for lifting and transporting work in construction, and is generally composed of a base and a tower body. In the construction site, in order to mount the tower body to the base and ensure stability and safety, a suitable connection structure is required.

When the working height of the tower crane exceeds the independent height, the tower crane is required to be attached, and the bearing capacity of a building attachment point (a fixing position of a connecting base) is required to meet the bearing capacity of the tower crane specification.

Along with large-area spreading of the assembled high-rise civil buildings, the method is suitable for large-scale entering of the assembled tower crane into the market, and wall-attached construction of the tower crane is indispensable. For assembled civil construction, the tower crane has basically consistent use conditions, large-scale and standardized construction is basically realized, the tower crane is attached to an assembled wall body, the structure of the assembled wall body is influenced to a certain extent, the outer wall of the cast-in-situ reinforced concrete structure of the traditional building can basically meet the requirement of the attaching bearing capacity of a crane, but the novel assembled building belongs to a prefabricated assembly structure, the outer wall belongs to a prefabricated assembly structure, after being prefabricated and molded by a factory, the components are transported to a construction site, the components are connected into a whole in a splicing mode, and a reinforcing steel sleeve is reserved in the components at the connection point

Therefore, the assembly type building tower crane connecting structure improves the installation and disassembly efficiency of the building tower crane and improves the flexibility and operability of construction.

Disclosure of utility model

The utility model aims to provide an assembled building tower crane connecting structure which aims to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides an assembled building tower machine connection structure, which comprises a bracket, the support surface evenly is equipped with the reinforcing bar, support one end is equipped with the reinforcing plate, support one end inner wall is equipped with the support screw thread, support connecting hole has been seted up on the support surface, be equipped with supporting bolt in the support connecting hole, support one end is equipped with pre-buried device, pre-buried device is including installing the pre-buried pipe at support inner wall, pre-buried pipe fixed surface is equipped with pre-buried ring, the support inner wall is equipped with the connecting pipe, connecting hole has evenly been seted up on the connecting pipe surface, connecting pipe one end surface is equipped with connecting device, connecting device is including installing the go-between at the connecting pipe surface, the connecting ring surface has been seted up the spread groove, the connecting ring surface is equipped with the head rod, head rod and spread groove looks adaptation, the go-between surface symmetry is equipped with the connecting plate, be equipped with the second connecting rod in the connecting plate, second connecting rod and connecting plate looks adaptation, strutting arrangement surface symmetry has seted up the buffer tank, strutting arrangement includes the stay tube at connecting ring one side surface, stay tube surface symmetry is equipped with the backup pad, strutting arrangement surface is equipped with fixing device, fixing device including installing the dead lever in the stay ring, fixing plate looks support ring, fixing device is equipped with fixing sleeve, fixing device looks fixed sleeve, fixing device is equipped with fixing sleeve plate.

Preferably, in order to improve the installation and disassembly efficiency of the building tower crane, an embedded device and a connecting device are arranged at one end of the bracket.

Preferably, in order to meet the requirement of adjusting the position deviation generated by embedding when the building tower crane is connected, a fixing device is arranged on the surface of the connecting device.

Preferably, in order to improve the stability of the connecting structure, reinforcing strips and reinforcing plates are uniformly arranged on the surface of the support, and buffer grooves are symmetrically arranged on the surface of the supporting device.

Compared with the prior art, the utility model has the beneficial effects that:

(1) In order to meet the requirements of improving the installation and disassembly efficiency of the building tower crane, an embedded device and a connecting device are arranged at one end of a support, when the building tower crane is used, the embedded device is embedded in the building outer wall in advance before pouring the building outer wall, after pouring the building outer wall, the support is connected with the embedded screw through supporting screw threads, the support is connected with the embedded device, a connecting pipe is inserted into the inner wall of the support, a supporting bolt is used for inserting a supporting connecting hole and a connecting screw hole, the support is connected with the connecting pipe, a connecting ring in the connecting device is sleeved on one end surface of the connecting pipe, a first connecting rod on the surface of the connecting ring is used for inserting a connecting groove and the connecting screw hole, the connecting ring is connected with the connecting pipe, and a second connecting rod is inserted into the connecting plate, so that the second connecting rod reinforces the connecting ring.

(2) In order to meet the requirement that when the building tower crane is connected, the position deviation generated by embedding is adjusted, the fixing device is arranged on the surface of the connecting device, when the building tower crane is used, the clamping plates are connected with the standard section of the building tower crane through the clamping plates, the fixing bolts are used for fixing the clamping plates, the standard section of the building tower crane is fixedly connected through the clamping plates, the connecting angles of the clamping plates can be adjusted through the fixing rods and the fixing sleeves, and the position deviation generated by embedding the connecting device is adjusted.

Drawings

FIG. 1 is a schematic structural view of an assembled building tower crane connection structure according to the present utility model;

FIG. 2 is a schematic view of an expanded structure of a connection structure of an assembled building tower crane according to the present utility model;

FIG. 3 is a second schematic view of an expanded structure of a connection structure of an assembled building tower crane according to the present utility model.

In the figure: 1. a bracket; 2. embedding a device; 3. a connecting pipe; 4. a support device; 5. a fixing device; 6. a connecting device; 7. a buffer tank; 101. reinforcing strips; 102. a reinforcing plate; 103. a support thread; 104. a support connection hole; 105. a support bolt; 201. pre-burying a pipe; 202. embedding a ring; 203. pre-burying threads; 301. a connecting threaded hole; 401. a support tube; 402. a support plate; 403. a support connection ring; 501. a fixed rod; 502. fixing the sleeve; 503. a fixed connection plate; 504. a clamping plate; 505. a fixing bolt; 601. a connecting ring; 602. a connecting groove; 603. a first connecting rod; 604. a connecting plate; 605. and a second connecting rod.

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.

Referring to fig. 1-3, the present utility model provides a technical solution: the utility model provides an assembled building tower machine connection structure, including high strength steel support 1, support 1 surface evenly installs reinforcing bar 101, support 1 one end installation reinforcing plate 102, support 1 one end inner wall installation support screw thread 103, support 1 surface has seted up support connecting hole 104, support bolt 105 is installed in the support connecting hole 104, support 1 one end installation pre-buried device 2, pre-buried device 2 is including installing the pre-buried pipe 201 at support 1 inner wall, pre-buried pipe 201 surface fixed mounting pre-buried ring 202, pre-buried pipe 201 surface mounting pre-buried screw thread 203, pre-buried device 2 can carry out certain waterproof to the building outer wall through pre-buried ring 202, reduce the outer wall leakage degree that later stage produced when carrying out the shutoff, support 1 inner wall installation connecting pipe 3, connecting screw hole 301 has evenly been seted up on connecting pipe 3 surface, connecting pipe 3 one end surface mounting connecting device 6, the connecting device 6 comprises a connecting ring 601 arranged on the surface of the connecting pipe 3, a connecting groove 602 is formed on the surface of the connecting ring 601, a first connecting rod 603 is arranged on the surface of the connecting ring 601, the first connecting rod 603 is matched with the connecting groove 602, a connecting plate 604 is symmetrically arranged on the surface of the connecting ring 601, a second connecting rod 605 is arranged in the connecting plate 604, the second connecting rod 605 is matched with the connecting plate 604, a supporting device 4 is arranged on the surface of the connecting device 6, a buffer groove 7 is symmetrically formed on the surface of the supporting device 4, the supporting device 4 comprises a supporting pipe 401 fixedly arranged on one side surface of the connecting ring 601, a supporting plate 402 is symmetrically arranged on the surface of the supporting pipe 401, one end of the supporting pipe 401 is provided with the supporting connecting ring 403, when the embedded device 2 is embedded in an external wall of a building in advance before the external wall of the building is poured, after the external wall of the building is poured, the supporting frame 1 is connected with the embedded screw thread 203 through the supporting screw 103, the bracket 1 is connected with the embedded device 2, the connecting pipe 3 is inserted into the inner wall of the bracket 1, the supporting bolt 105 is inserted into the supporting connecting hole 104 and the connecting threaded hole 301, the bracket 1 is connected with the connecting pipe 3, the connecting ring 601 in the connecting device 6 is sleeved on one end surface of the connecting pipe 3, the first connecting rod 603 on the surface of the connecting ring 601 is inserted into the connecting groove 602 and the connecting threaded hole 301, the connecting ring 601 is connected with the connecting pipe 3, the second connecting rod 605 is inserted into the connecting plate 604, and the second connecting rod 605 reinforces the connecting ring 601.

The supporting device 4 is provided with the fixing device 5 on the surface, the fixing device 5 comprises a fixing rod 501 arranged in the supporting connecting ring 403, the fixing rod 501 is matched with the supporting connecting ring 403, a fixing sleeve 502 is arranged on the surface of the fixing rod 501, the fixing sleeve 502 is matched with the fixing rod 501, a fixing plate 503 is fixedly arranged on the surface of the fixing sleeve 502, a clamping plate 504 is symmetrically arranged on the surface of the fixing plate 503, a fixing bolt 505 is uniformly arranged on the surface of the clamping plate 504, and when the fixing device is used, the clamping plate 504 is connected with a standard section of a building tower crane through the clamping plate 504 and fixed through the fixing rod 505, so that the clamping plate 504 is fixedly connected with the standard section of the building tower crane, and the connecting angle of the clamping plate 504 can be adjusted through the fixing rod 501 and the fixing sleeve 502, so that the position deviation generated when the pre-embedding device 2 is pre-embedded is adjusted.

Working principle: when the embedded device is used, the embedded device 2 is embedded in advance in the building outer wall before the building outer wall is poured, after the building outer wall is poured, the bracket 1 is connected with the embedded device 2 through the supporting threads 103, the bracket 1 is connected with the embedded device 2, the connecting pipe 3 is inserted into the inner wall of the bracket 1, the supporting bolts 105 are used for being inserted into the supporting connecting holes 104 and the connecting threaded holes 301, the bracket 1 is connected with the connecting pipe 3, the connecting ring 601 in the connecting device 6 is sleeved on one end surface of the connecting pipe 3, the first connecting rod 603 on the surface of the connecting ring 601 is used for being inserted into the connecting groove 602 and the connecting threaded holes 301, the connecting ring 601 is connected with the connecting pipe 3, the second connecting rod 605 is inserted into the connecting plate 604, the second connecting rod 605 is used for reinforcing the connecting ring 601, after the connection is finished, the clamping plate 504 is connected with a standard joint of a building tower machine, the clamping plate 504 is fixed through the fixing bolts 505, the clamping plate 504 can be fixedly connected with the standard joint of the building tower machine, and the position deviation of the embedded device 2 can be adjusted through the fixing rod 501 and the fixing sleeve 502.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (8)

1. The utility model provides an assembled building tower machine connection structure, includes support (1), its characterized in that: the novel embedded type solar energy collecting device is characterized in that an embedded device (2) is arranged at one end of the support (1), a connecting pipe (3) is arranged on the inner wall of the support (1), a connecting device (6) is arranged on the surface of one end of the connecting pipe (3), a supporting device (4) is arranged on the surface of the connecting device (6), and a fixing device (5) is arranged on the surface of the supporting device (4).

2. The fabricated building tower crane connection structure according to claim 1, wherein: the support is characterized in that reinforcing strips (101) are uniformly arranged on the surface of the support (1), a reinforcing plate (102) is arranged at one end of the support (1), supporting threads (103) are arranged on the inner wall of one end of the support (1), supporting connecting holes (104) are formed in the surface of the support (1), and supporting bolts (105) are arranged in the supporting connecting holes (104).

3. The fabricated building tower crane connection structure according to claim 2, wherein: the embedded device (2) comprises an embedded pipe (201) arranged on the inner wall of the support (1), an embedded ring (202) is fixedly arranged on the surface of the embedded pipe (201), and embedded threads (203) are arranged on the surface of the embedded pipe (201).

4. A fabricated building tower crane connection according to claim 3, wherein: connecting threaded holes (301) are uniformly formed in the surface of the connecting pipe (3).

5. The fabricated building tower crane connection structure according to claim 4, wherein: connecting device (6) are including installing go-between (601) at connecting pipe (3) surface, spread groove (602) have been seted up on go-between (601) surface, go-between (601) surface is equipped with head rod (603), head rod (603) and spread groove (602) looks adaptation, go-between (601) surface symmetry is equipped with connecting plate (604), be equipped with second connecting rod (605) in connecting plate (604), second connecting rod (605) and connecting plate (604) looks adaptation.

6. The fabricated building tower crane connection structure according to claim 5, wherein: buffer grooves (7) are symmetrically formed in the surface of the supporting device (4).

7. The fabricated building tower crane connection structure according to claim 6, wherein: the supporting device (4) comprises a supporting tube (401) fixedly arranged on one side surface of the connecting ring (601), supporting plates (402) are symmetrically arranged on the surface of the supporting tube (401), and one end of the supporting tube (401) is provided with a supporting connecting ring (403).

8. The fabricated building tower crane connection structure according to claim 7, wherein: fixing device (5) are including installing dead lever (501) in supporting go-between (403), dead lever (501) and support go-between (403) looks adaptation, dead lever (501) surface is equipped with fixed sleeve (502), fixed sleeve (502) and dead lever (501) looks adaptation, fixed sleeve (502) fixed surface is equipped with fixed fishplate bar (503), fixed fishplate bar (503) surface symmetry is equipped with splint (504), splint (504) surface evenly is equipped with fixing bolt (505).