SU1678752A1 - Load-crane - Google Patents

Abstract

This invention relates to cranes. The purpose of the invention is to improve performance. Conn:, - the gel elements 4 of the telescope of the three columns 3 contain horizontal-rotary 12, equipped with supporting elements 13. which interact during operation of the device with the nesting elements 14 of the structure. The detachable crane structure can interact with the self-propelled chassis through a metal casing which is hinged on chassis frame. 4il.

Description

The invention relates to hoisting cranes.

The purpose of the invention is the improvement of operational characteristics.

Haha. 1 shows a crane in a transport position, side view; in FIG. 2 - the same, top view; in Fig.3 - volumetric metal nesting element of the structure; in FIG. 4 - crane in the process of its construction work.

The proposed crane contains a self-propelled automobile chassis 1, on the frame 2 of which is placed a system of telescopic supporting columns 3, interconnected by connecting elements 4.

This system of telescopic load-bearing columns 3 is a three-dimensional crane structure and contains at the end of the upper telescopic load-bearing column 3 a working platform 5. on which the power plant housing 6 is pivotally mounted.

A telescopic pivoting boom 7 is pivotally suspended from the housing of the power unit 6, having at its end an output of a rope 8 equipped with a load gripping device 9.

On the case of the power unit 6 is also equipped with a working cab 10 of the driver, to which a transport bridge 11 is suspended through a hinge.

The connecting element 4 of the telescopic load-bearing columns 3 contains horizontally rotary blocks 12, equipped with supporting elements 13, which interact in the process of operation of the deployed device with removable metal socket elements 14 of the structure.

This removable crane structure interacts with the self-propelled automobile chassis 1 through a metal casing 15, which is pivotally mounted on the frame 2 of the chassis 1. On the plane of the casing 15, a guide slot 16 is made with which the supporting elements 13 interact.

During transportation of the removable crane structure on a self-propelled automobile chassis 1, the load gripping device 9 is removed in the volume 17 located in the working plane of the frame 2 of the chassis 1, and is closed by the lid 18.

A removable metal socket element 14 of the structure is mounted on the outer plane of the structure by installing its pin 19 in the groove 20 of the metal beam 21 of this structure.

In this case, reliable fixation is provided by terminal bolts 22, intermediate terminals 23 and nuts 24 interacting with the metal beam 21 of the structure through the support strip 25 of this element 14.

The removable metal socket element 14 of the structure also contains a mounting pad 26.

The crane works as follows.

Install a crane in the immediate vicinity of the mortgaged structure. Open the lid 18 and remove the load gripping device 9 from the volume 17.

Raise the removable crane structure to a strictly perpendicular position relative to the horizontal axis of symmetry of the self-propelled automobile chassis 1 using a metal casing 15 pivotally attached to the working plane of the frame 2 of this chassis 1.

Telescopic bearing columns 3, which are not used in the metal casing 15, are extended to a certain height.

The telescopic pivoting boom 17 and the transport bridge 11 are pivotally mounted to the position of their installation of at least 90 ° relative to the vertical axis of symmetry of the telescopic supporting columns 3.

After carrying out the described actions, the device is ready for construction work as a tower-type crane based on a self-propelled automobile chassis 1.

As the height of the building under construction is raised on one of its external planes, removable metal socket elements 14 of the structure are mounted (at a certain equal distance from each other).

In the process of this installation, these elements 14 are fed by means of a gripping device 9 to the height levels of their equipment, followed by the installation of pins 19 of the elements 14 into the grooves 20 of the metal beams 21 of the structure and then fixed with terminal bolts 22, intermediate terminals 23 and nuts 24 of the rotary gaskets 25 elements 14 to the metal beams 21 of the structure.

After the building under construction has been erected to a certain height and on one of its external planes the required number of removable metal socket elements 14 of the structure (at least three) has been installed, it is possible to re-equip (relocate) the removable crane structure from a self-propelled automobile chassis 1 to removable metal socket elements 14 mounted on the outer plane of the structure.

To do this, lower the telescopic pivoting arm 7 and the transport bridge 11 to an extremely vertical position and rotate to the perpendicular position of the telescoping pivoting arm 7 and the transport bridge 11 relative to the supporting elements 13 of the power unit 6 hingedly mounted on the working platform 5.

Then, the support elements 13 are rotated 90 ° from their previous position and the self-propelled automobile chassis 1 is installed so that the vertical axis of symmetry of the removable crane structure located in the metal casing 15 of this chassis 1 exactly matches its own axis of symmetry with the future equipment of this removable crane structures on removable metal socket elements 14 of the structure.

Next, the telescopic support columns 3 are pulled forward until the uppermost support element 13 is located slightly above the third lower detachable metal socket element 14 of the structure.

Then this support element 13 is rotated to its previous position and lowered to the stop by pushing the telescopic load-bearing columns 3 into a removable metal socket element 14 of the structure.

Such an operation is carried out sequentially with the middle and lower support elements 13, as a result of which the removable crane structure will be fixed to the removable metal socket elements 14 of the structure, i.e. on the outer plane of the structure.

On a self-propelled automobile chassis 1, the released metal casing 15 is lowered into the transport position and then the chassis 1 can be used to service other removable crane structures.

On a removable crane structure, the telescopic swinging arm 7 and the transport bridge 11 are again raised.

After carrying out the described actions, the crane is ready for further work on the construction of the structure, already as a tower-type crane based on one of the external planes of this structure.

Personnel access to the removable crane structure during such operation of the device is carried out through the transport bridge 11, which can be rotated towards the horizontal planes of the building under construction and lowered onto them.

In the process of raising the elevation level of the building under construction, further sequential installation of the following removable metal nesting elements 14 of the structure is carried out, as a result of which a whole vertical line of these elements 14 is formed, along which the device can move through the described operations with the supporting elements 13 up or down to enable further construction works.

Dismantling the proposed crane in the transport position is carried out in the reverse order.

Claims (1)

Claim A crane containing a self-propelled chassis, on the frame of which a tower is mounted with the possibility of forced rotation in a vertical plane, including a telescopic column, on the end section of which is mounted a telescopic boom with a cargo hoist with the possibility of forced rotation in a vertical plane. that, in order to improve operational characteristics, the tower includes a glass connected with the frame with its bottom part with a longitudinal through groove, at least two to complementary telescopic columns rigidly connected to the end parts of the corresponding telescopic columns from the latter and to the root parts of the connecting elements mounted on the latter with the possibility of forced rotation around their longitudinal axis, supporting elements for interaction with the nesting elements of the structure, and connecting with the lower telescopic column the elements are installed with the possibility of placement in the specified glass, and their supporting elements are in the groove of the glass. H) FIG. 2 Compiled by S. Romanov Editor M. Blanar Tehred M. Morgenthal Corrector S. Cherni Order 3179 Circulation Subscription VNIIIPI of the State Committee for Inventions and Discoveries under the State Committee for Science and Technology of the USSR 113035, Moscow, Zh-35, Raushskaya nab., 4/5 Production and Publishing Combine Patent, Uzhgorod, 101 Gagarin St.