RU206513U1 - ROD FOR TOWER CRANE LINKAGE - Google Patents

Abstract

Useful model The rack for fastening the rods of a tower crane is intended for reliable fastening of a tower crane during the construction of buildings and structures. It consists of a rack 1 with a pivot 3 rigidly fixed by means of rings 4 and an upper cage 2 having a cavity for the pivot 3 to travel in it. 2 is formed by stiffening ribs 13, an upper flange 11 and a ring 5. The rack 1 is provided with a lower flange 12 and stiffening ribs 13. In the flanges 11 and plates 13 holes are made into which the pins 9 and long pins 8. The rod 7 is pivotally attached to the bracket 6. Bolts 15 fasten the bracket 6 to the rack 1. Brackets 16 are welded to the rack 1 for transportation and installation. All structural elements of the rack are made of affordable and cheap materials (sheet and pipe) by simple technological processes (cutting, welding). The use of this technical solution makes it possible to quickly and easily mount a post between the floors of a building under construction for attaching the rods of a tower crane and to ensure sufficient radial rigidity of the tower crane, and then also quickly and easily dismantle the post.

Description

The utility model relates to construction and can be used in the construction of buildings and structures for reliable fastening of a tower crane.

The generally accepted design for fixing a tower crane to the floors of a building under construction contains plates between which a column is installed, with a height that exactly coincides with the distance between the fixed plates. The column is welded to the plates by welding. This column is made individually for each project, taking into account the specific distance between the floors. Since the height of the column is close to the height between the floors, it is placed vertically, then metal plates are inserted from above and below, which are rigidly attached to the ceiling with studs, and the plates are welded to the column.

After the end of use, this structure is cut and disposed of, which significantly increases the cost of the construction process.

Known rack for attaching rods of a tower crane, containing a rack with a rigidly fixed bracket with a rod of a tower crane, lower and upper flanges, as well as studs with nuts for attaching flanges to the floors of a building under construction, while the rack is hingedly connected to the upper flange, and with the lower flange connected by a lever (see industrial design RU 114732).

This technical solution eliminates the need for cutting and disposing of the product; however, it is expensive, difficult to install and does not provide sufficient radial rigidity for the tower crane attachment.

The technical problem to be solved by the present technical solution is the creation of a cheap, easy to install and providing sufficient rigidity of the tower crane fastening.

The technical result, which provides a solution to this problem, lies in the speed and ease of mounting the rack while ensuring sufficient rigidity of the tower crane.

The essence of the utility model lies in the fact that a rack for fastening the towers' crane rods, containing an upper flange and a rack with a lower flange, a bracket rigidly fixed to the rack, with the possibility of hinged fastening of the tower crane rod to the bracket, and the upper and lower flanges are made with the possibility of fastening flanges to the ceilings of a building under construction using studs with nuts, while a trunnion is rigidly fixed to the rack, and a holder with a cavity for the trunnion to travel in it is installed on the upper flange.

Preferably, the two studs for attaching the upper flange are made longer than the rest by the length of the trunnion portion protruding above the strut.

Preferably, the ferrule comprises a ring, in the inner bore of which the journal enters.

Preferably, the studs are provided with plates with holes corresponding to the holes in the flanges.

The design of the utility model is illustrated by drawings.

In the drawing, FIG. 1 shows a front view of a rack for attaching rods of a tower crane; in fig. 2 is a general view of this rack.

In the drawings, the rack is designated - 1; clip -2; pin - 3; support rings -4; limit ring - 5; bracket - 6; thrust - 7; long hairpins - 8; hairpins - 9; nuts - 10; top flange - 11; bottom flange - 12; stiffening ribs - 13; plates - 14; bolts - 15; staples - 16; top floor - 17, bottom floor - 18.

The rack for attaching the rods of a tower crane consists of two parts: directly the rack 1 with a pivot 3 rigidly fixed using rings 4, and an upper cage 2 having a cavity for the pivot 3 to travel in it. The cage 2 is formed by stiffening ribs 13, an upper flange 11 and a ring 5. The rack 1 is equipped with a lower flange 12 and stiffening ribs 13. In the flanges 11 and plates 13 holes are made into which pins 9 and long pins 8. Long pins 8 are longer than pins 9 by the length of the trunnion part protruding above the rack 1 3. Pins 8 and 9 are equipped with nuts 10. Pins 8 and 9 pass through the holes in flanges 11 and 12, plates 14 and floors 17 and 18 of the building. The rod 7 is pivotally attached to the bracket 6. Bolts 15 fasten the bracket 6 to the rack 1. Brackets 16 are welded to the rack 1 for transportation and installation.

Installation of a rack for attaching rods of a tower crane is as follows.

Rack 1 with trunnion 3 and cage 2 is installed vertically on the lower floor 18.

The trunnion 3 fully enters the cavity of the cage 2, while the rack 1 has the smallest height. In this position, the rack 1 is easily placed in a vertical position and installed at the installation site. With the help of pins, the lower flange 12 of the post 1 is attached to the lower floor 18. The cavity of the cage 2 is formed by stiffeners 13 and the ring 5. In this case, the ring 5 is not an obligatory element, but increases the rigidity of the cage 2 and contributes to a more reliable radial fixation of the journal 3 in the cage 2 ...

With the help of long studs 8, the upper flange 11 of the cage 2 rises to the upper ceiling 17, after which short studs 9 are installed. Reliable installation can be carried out using two long studs 8. To create a more reliable connection on the reverse side of both concrete floors 17 and 18 plates 14, similar to flanges 11 and 12 on the post 1 and cage 2. The dismantling process is carried out in the reverse order. When unscrewing the pins of the upper cage 2, it is lowered along the trunnion 3. The rack takes on the minimum height. After unscrewing the pins on the lower flange 12 of the post 1, it is easy to dismantle it. Brackets 16 facilitate mounting, dismounting, and transportation of the rack.

All structural elements of the rack are made from affordable and cheap materials (sheet and pipe) by simple technological processes (cutting, welding).

The use of this technical solution makes it possible to quickly and easily mount a post between the floors of a building under construction for attaching the rods of a tower crane and to ensure sufficient radial rigidity of the tower crane, and then also quickly and easily dismantle the post.

Claims (4)

1. Rack for fastening tower crane rods, containing an upper flange and a rack with a lower flange, a bracket rigidly fixed to the rack, with the possibility of hinged fastening of the tower crane rod to the bracket, and the upper and lower flanges are made with the possibility of fastening the flanges to the ceilings of a building under construction when using studs with nuts, characterized in that the pivot is rigidly fixed to the rack, and a holder with a cavity for the pivot to travel in it is installed on the upper flange. 2. The strut according to claim 1, characterized in that the two pins for fastening the upper flange are made longer than the rest by the length of the part of the journal protruding above the strut. 3. A stand according to any one of claims 1-2, characterized in that the cage contains a ring, into the inner hole of which the journal enters. 4. A stand according to any one of claims 1-2, characterized in that the studs are equipped with plates with holes corresponding to the holes in the flanges.

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