RU36393U1 - Piling Indentation Machine - Google Patents

Description

Piling Indentation Machine

The utility model relates to construction, namely to construction equipment, and is intended for indentation of piles.

The principle of the device installations for pushing piles is that the pushing force is transmitted to the pile by winches with a system of cable blocks or hydraulic jacks, under the action of which the pile is immersed in the ground.

Reactive forces arising during indentation are perceived by the unit’s own weight and load.

A known installation for immersion piles into the ground by indentation, including a crane, front and rear frames with hydraulic supports, a pile mast, a loader with a cable-block system of indentation and weight. Ineffective use of its own weight affects the insufficient pressing force of the installation, in addition, the installation has low resistance to tipping over and the difficulty of moving on soft soils. Ganichev I.A. The device of artificial foundations and foundations, Moscow: Stroyizdat, 1981, p. 42.

The installation according to the Russian patent No. 2106455, 09.21.95., In which the installation is equipped with a rigid plate fixed to the crane chassis with the ability to move along the chassis, is also equipped with a rigid plate mounted to increase the rollover stability and maneuverability on the construction site. The productivity of pile-in by using this installation still remains low .. The mass of the load limited by the dimensions of the rigid plate does not significantly increase the crushing force, and, consequently, the productivity of the installation and the increase in the mass of the load will lead to a decrease in tipping stability when moving the installation on the construction site.

 - uvJij Ot Ir

 1

Ml E02D 7/20

These disadvantages are resolved in the installation according to patent No. 2206664. In this installation, to increase the pressing force and maneuverability when moving around the construction site, the turret platform and the running platform of the tower rail with a section of the rail track are used, which, with the help of the grips of the traveling trolleys, have the ability to rise above the surface and rotate in the right direction at the moment when the running platform is supported by retractable hydraulic supports. This installation is the closest in technical essence and the achieved result and adopted as a prototype.

Experience with the use of plants of this type has shown that the indentation effort of the installation on some soils is sometimes insufficient, for example, sand layers, refractory clay loams, etc. Therefore, it becomes necessary, under certain soil conditions, to drill the leading wells first and only after that to push the piles. To carry out these works, special drilling devices (stand-alone) are used, with the help of which several leading wells are drilled at the construction site and after dismantling, they are dismantled. At their subsequent use, they are again visited at the installation and dismantled again. This circumstance significantly reduces the productivity of work, since it takes a lot of time to install and dismantle the drilling device, and with such preliminary drilling of several wells at once, some of them often creep.

The technical task of the proposed utility model is to, while maintaining the maneuverability of the installation, the force of indentation and the stability of the installation to overturn when it moves along the construction site, increase its productivity.

This technical problem is solved by the fact that the installation for immersion of piles by indentation, including the rotary and running platforms of the towed crane with a load and a mast, as well as with grips of the rail on the undercarriage, sliding hydraulic supports and a loader with a cable-block pressing system, the installation additionally contains mounted on a pile mast with the ability to move along it and the mechanism of well drilling.

The proposed utility model differs from the prototype in that: it further comprises a drilling mechanism;

the drilling mechanism is mounted on a pile mast with the possibility of longitudinal movement along it.

The presence on the installation of a drilling mechanism mounted with the ability to move along the pile mast, eliminates its dismantling, because It is a component in the mast design and does not interfere with the operation of the pressing mechanism when it is inoperative - the drilling mechanism and the pressing mechanism have the ability to work alternately. As a result, time for installing and removing drilling equipment is excluded, which leads to a significant reduction in the time for the whole process of pile work at the construction site.

The essence of the claimed utility model is expressed by a combination of signs sufficient to solve the problem, which consists in increasing the productivity of the installation while maintaining the pressing force, maneuverability and stability of the installation to overturn when it moves around the construction site.

The applicant does not know the installation for pushing piles into the soil, characterized by a combination of the declared features, which indicates the compliance of the claimed object with the criterion of "novelty.

Fig. 1 depicts a general installation; naris2 - view 1-1 on fig. 1; nar.Z.- vvd2-2 in fig. 1.

Installation for immersion piles indentation contains chassis 1 and rotary

2 platforms of a tower crane with a rail track section 3, a cargo frame 4, which is mounted on a rotary platform 2 using a rigid triangular system consisting of struts 5 and racks 6. The running trolleys 7 of the traveling platform 1 are equipped with rail track grips (not shown in the figure ) Captures can be performed

removable. The pile mast 8 is equipped with a boreny mechanism 9, which is installed in the inner space of the pile mast and, with the help of a cable 10 thrown through the block 11, is connected to the winch 12 and has the ability to move along the pile mast 8. The drilling mechanism has a working body 13, which can be made in in the form of a drill, vibration probe, flap, etc. The operation of the drilling mechanism is controlled using the remote control (not shown in the figure). A loader 14 with a cable-block system 15 is mounted on the pile mast. The pile mast is pivotally mounted on the cargo frame 4, on which the movable frame 17 is mounted using rollers 16 and the load 18 is fixed on it, consisting of separate removable sections 19. Moving the movable frame 17 is carried out using a hydraulic cylinder 20. Coaxial to the running and rotary platforms in the central circle of the latter, a hydraulic support 21 is installed, two other hydraulic supports 22 and 23 are installed at the edges of the cargo frame from the side of the mast. The alignment of the piles vertically is carried out using hydraulic cylinders 24 mounted in the same plane at an angle to each other. Cases of hydraulic cylinders are mounted on a pile mast, and rods on racks 6 of a rigid triangular system. The pile mast is equipped with a hinge device 25, with the help of which it can be folded along the length of the L-shaped so that its upper part will be directed towards the load frame. The piles are pressed into the ground under the action of the force created by the mass of the installation and the load and the efforts of the power winch 26, transmitted using the cable-block system 15 to the loader 14.

Installation works as follows.

The drilling mechanism and the indentation mechanism (loader) work alternately. To carry out the drilling of the well, the working body 13 of the drilling mechanism 9 is installed using a cable 10 and a winch 12 at the design point where the pile should be pressed, and included in the work. The standard process of drilling a well is carried out, i.e., the working body is immersed (drill, vibration probe, bailer, etc.) of the drilling mechanism in the ground

one of the known methods until a leading well is drilled to the required depth. Then the drilling mechanism is turned off and lifted using a cable 10 and a winch 12 along the pile mast 8 up and left in the upper position. Pile 27 is lowered into a drilled well and, using a power winch 26 and a rope-block system 15, is pressed into the ground. The maximum pushing force of the pile is achieved by moving the movable frame 17 with the load 18 to the position where the axis drawn through the center of gravity of the load coincides with the axis of the pressed pile. After the piles are pressed into the soil, the drilling mechanism is turned on again and the next leading well is drilled in the soil at the required location, into which the pile is then pressed. Further, the process of well formation and pile indentation is repeated until the necessary pile field is formed.

The pile can be lifted and installed on the pile mast before or after the formation of the leading squash. Before lifting the piles to the pile mast, the movable frame with the load 18 is moved by the hydraulic cylinders 20 to the extreme position close to the rotary platform 2, providing maximum installation stability. Hydro bearings 22 and 23 are lowered to the ground. Loader 14 rises to its original height. Pile 27 with a cargo winch (not shown in the drawings) rises to the pile mast 13, is brought into the head of the loader and is fixed on the pile mast. After that, the hydraulic supports 22 and 23 rise from the ground and the installation moves to the point of indentation. The alignment of the piles together with the pile mast vertically is carried out by changing the length of the shields of the hydraulic cylinders 24.

The installation moves along a construction site on a rail track. If it is necessary to change the direction of movement of the installation, immediately below the undercarriage 1 leave a section of the rail track 3 with a length not exceeding 1/3 of the length of the undercarriage and fix it on the undercarriages 7 using grips. Lower the hydraulic supports 21.22 to 23 ka soil and raise the installation together with the crane rail section 3. The running platform 1 is turned in the desired direction, after which the hydropores 21, 22 and 23 lower it onto the soil,

Thus, it is possible to immerse piles in any soil, anywhere in the construction site and increase the productivity of the installation.

Claims (1)

Installation for immersion of piles by indentation, including platforms of a tower crane, slewing and running, with grips of a rail track, a load and a mast, retractable hydraulic supports and a loader with a cable-block system of indentation, characterized in that it additionally contains a mast mounted on the mast with the possibility of movement along it is a well drilling mechanism.