RU208375U1 - LOADING DEVICE FOR LIFTING AND INSTALLING THE FINISHED BOXES INTO DESIGN POSITION - Google Patents

Abstract

The utility model relates to the field of construction of retaining structures. In particular, it can be used in the construction of multi-tier retaining walls from box gabions on highways. The technical task of the PM is to develop a load gripping device, the use of which will reduce the time and labor costs for the construction of retaining multi-tier walls from ready-made box gabions, performed directly on the sections of the walls, which will reduce these works practically to installation operations. racks, four areal gabion clamps, four hydraulic cylinders, differs in that the areal gabion clamps one at a time are pivotally connected by pins to the lower ends of the vertical L-shaped racks, which are also pivotally connected by pins to the ends of the transverse beams; the longitudinal flat frame is placed on the transverse beams and is rigidly bolted to them. Each hydraulic cylinder is pivotally connected by pins to the upper end of the vertical L-shaped rack and to the transverse beam in its middle part, and can also be connected by a flexible hydraulic line to a portable pumping station. All structural elements of the device are made of aluminum.

Description

The utility model (hereinafter referred to as the PM) refers to the construction of retaining structures. It, in particular, can be used in the construction of multi-tiered retaining walls from box gabions on highways.

Known factory-made gabion structures made of steel mesh of double twisting box-shaped, mattress, cylindrical and other shapes. (Gabion mesh products. GK "Gabion" M; 2013). [one]

In transport construction, box-shaped gabions are most widely used, due to their qualities such as strength, flexibility, reliability, stability, durability and water permeability. From such gabions, mainly gravitational retaining walls are erected along highways laid in foothill and mountainous areas. (Guidelines for the use of gabion structures in road and bridge construction FSUE "Soyuzdorproekt" M 2001). [2]

The disadvantages in the technology of constructing such retaining walls, especially multi-tiered ones, are the significant costs of manual labor and time when filling the gabions collected at the object from reamers with stone and installing them in the design position on the wall, incl. on high.

The technical task of the PM is the development of a load-gripping device, the use of which will reduce the time and labor costs for the construction of retaining multi-tiered walls from ready-made box-shaped gabions, carried out directly on the wall sections, which will reduce these works to almost installation operations.

The presence of such a device is currently unknown to the authors of the PM, or it does not exist.

The specified technical problem is solved due to the fact that the load-gripping device for lifting and installing finished box-shaped gabions in the design position consists of four transverse beams, a longitudinal flat frame, four vertical L-shaped struts, four areal gabion clamps, four hydraulic cylinders, differs in that areal gabion clamps one by one pivotally connected by pins to the lower ends of the vertical L-shaped struts, which are also pivotally connected by pins to the ends of the transverse beams; the longitudinal flat frame is placed on the transverse beams and is rigidly bolted to them. Each hydraulic cylinder is pivotally connected by pins to the upper end of the vertical L-shaped rack and to a cross beam in its middle part, and can also be connected by a flexible hydraulic line to a portable pumping station.

Moreover, all structural elements of the device are made of aluminum.

The design of the device is shown in the figure, where it is indicated: in Fig. 1 is a view of the working position of the device on the gabion; in fig. 2 - top view of the device on the gabion; in fig. 3 - end view of the position of the device on the gabion; in fig. 4 - the position of the rigid longitudinal frame on the transverse beams; pos. 1 - gabions; pos. 2 - vertical posts; pos. 3 - longitudinal frame; pos. 4 - cross beams; pos. 5 - gabion clamps; pos. 6 - hubs of pins with clamps; pos. 7 - hydraulic cylinders; pos. 8 - pins; pos. 9 - platform for the pumping station; pos. 10 - contour of the top of the gabion; pos. 11 - bolts.

The PM is carried out in accordance with the technological regulations in the following sequence.

At the factory (or in the workshop), according to the working drawings, the elements of the device (pos. 2, 3, 4, 5, 6 and pins 8) are made. The finished elements are delivered to the working site near the place of extraction or delivery of the stone and as close as possible to the retaining wall being erected. Here they arrange at least two low shelving made of metal or thick boards covered with tin. The dimensions of the rack must exceed the dimensions of the bottom of the gabion, because on the shelves, gabion boxes will be assembled from reamers (delivered from the manufacturer) and filled with stone.

In parallel with the assembly of the device on one rack, on the second rack, gabion 1 is being prepared according to the requirements of the Methodological Recommendations. [2]

The assembled device with the divorced hydraulic cylinders 7 to the required width with racks 2 and clamps 5 is lowered by a crane onto the finished gabion 1 (Figs. 1 and 3). In this case, the beams 4 must lie on the gabion 1 (Figs. 1 and 3). Then the upper ends of all struts 2 by the pistons of the hydraulic cylinders 7 are bred until the clamps 5 are tightly pressed with a calculated force to the side faces of the gabion 1 (Figs. 2 and 3). Gabion 1 together with the device is lifted by a crane to a height of 10-15 cm above the rack and kept for 3-5 minutes to check the reliability of the operation of clamps 5 and hydraulic cylinders 7. After making sure of the reliability of the device, gabion 1 with the device is loaded by crane onto an onboard vehicle and taken to retaining wall. Here, the gabion 1 is lifted with the second crane using the device from the car and installed in the design position on the wall (Figs. 1 and 2). After that, the clamps 5 by the racks 2 of the device are removed by hydraulic cylinders 7 from the gabion 1. Then the device is lifted up and away from the gabion with a crane. After that, it is lowered into the body of the car. The slinger removes the sling from the crane hook. The car with the device in the back is sent for the next gabion. Workers at this time on the wall connect the installed gabion with a wire with the previously installed adjacent and lower gabions (Fig. 2).

Using this technology, using a device, two or one cranes and one on-board vehicle, a multi-tiered retaining wall is being erected from box-shaped gabions.

Another work technology is also possible.

Thus, the proposed design of the device allows for loading by crane onto an on-board vehicle of finished box-shaped gabions, assembled from reamers and filled with stone on working platforms (racks), and after bringing such gabions to the wall, lift them from the vehicle with a crane and install them in the design position on the wall. ... Due to this, labor and time costs are reduced for performing, in fact, installation operations directly at the facility. The proposed PM can also be used in the construction of retaining walls located in front of the abutments of bridges, stream-guiding, regulating and other protective structures both on dry lands and in river beds.

Used sources

1. Gabion mesh products GK "Gabion", M; 2013.

2. Guidelines for the use of gabion structures in road and bridge construction FSUE "Soyuzdorproekt", M; 2001.

3. Technical instructions and an album of typical structures and technologies for the protection of the roadbed by gabion structures from erosion, NCC "Akademkniga", M; 2002.

Claims (2)

1. A load-gripping device for lifting and installing finished box-shaped gabions into the design position, consisting of four cross beams, a longitudinal flat frame, four vertical L-shaped racks, four areal gabion clamps, four hydraulic cylinders, characterized in that the areal gabion clamps are hinged one at a time connected by pins to the lower ends of the vertical L-shaped struts, which are also hingedly connected by pins to the ends of the transverse beams; the longitudinal flat frame is placed on the transverse beams and is rigidly bolted to them; each hydraulic cylinder is pivotally connected by pins to the upper end of the vertical L-shaped rack and to a cross beam in its middle part, and can also be connected by a flexible hydraulic line to a portable pumping station. 2. The device according to claim 1, characterized in that all its structural elements are made of aluminum.

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