RU46018U1 - MACHINE FOR DIPPING PILES OR PILED FOUNDATIONS UNDER CONTACT NETWORK SUPPORT (MS-2) (OPTIONS) - Google Patents

Abstract

The utility model relates to the construction, more specifically, to machines for constructing piles or pile foundations from a railway track under supports during the arrangement and repair of the contact network of railways, for drilling wells under the supports of the contact network in thawed and seasonally frozen soils up to group IV, for the formation wells under the supports of the contact network in the forever frozen and fractured and collapsible rocky soils of V-IX groups. The technical task of the claimed utility model is to reduce the load on the undercarriages of the base platforms, increase the ease of use, the ability to control and control the vertical immersion of piles or pile foundations under the supports of the contact network, regardless of the longitudinal slope of the track, which increases the reliability and quality of driving piles or pile foundations. The task of option 1, 2, 3 is solved by creating a machine for immersing piles or pile foundations under the supports of the contact network, containing two permanently coupled railway platforms, including a power plant, a cab with controls, brake, working and loading equipment, while the first platform includes movement mechanisms, a cabin with control devices, operating equipment controls, movement mechanisms and brakes, a table for laying piles or pile foundations, a rotary support the construction on which the working equipment is mounted, including a rotary truss, a retractable truss, a guide frame with a load carriage mounted on it with a working body, in which the second

the platform includes a diesel-electric unit, a crane with a grip, a loading bay. Also, the rotary truss of the slewing ring device is made with the possibility of additional blocking from involuntary rotation of the working equipment. The guide frame is equipped with a rotary carriage, to which the frame, which is a guide for the freight carriage, is mounted with the possibility of sliding, wherein the rotary carriage consists of a plate, a rotary plate and a turning hydraulic cylinder controlled by a hydraulic distribution system and a vertical control means capable of determining a deviation from verticality through a plumb line. The swivel carriage is fixed to the free part of the retractable truss by means of a swivel joint, the plate and the swivel plate are interconnected in the lower part by means of a swivel joint, and in the upper part by means of a swivel cylinder. In addition, the rotary carriage is configured to rotate the guide frame in both directions by 3 °. In addition, the loading area for storing pile elements and / or pile foundations is made with power sides. In addition, the working body is removable in the form of a vibro-loader with a gripping device providing lateral clamping of piles or pile foundations, or in the form of screw-cutting equipment with a diameter of 325 mm or with a diameter of 620 mm, or in the form of pneumatic-impact equipment for the development of rock.

Description

The utility model relates to construction, and more specifically, to machines for constructing piles or pile foundations from a railway track under supports during the arrangement and repair of the contact network of railways, for drilling wells under the support of the contact network in thawed and seasonally frozen soils up to group IV, for well formation under the supports of the contact network in the permanently frozen and fractured and collapsible rock soils of groups V-IX.

The invention is known "Machine for the construction of pile foundations for the support of the contact network" (patent RU No. 2081243, E 02 D 7/16, publ. 1997.06.10), including a self-propelled railway platform mounted on it a swinging frame on which is mounted sliding in horizontal plane frame with a mast mounted on it with the possibility of rotation in a vertical plane with a working body. The mechanism for extending the frame and moving along with it the electric cables and sleeves consists of a hydraulic cylinder, sprockets interacting with the drive and support rails mounted respectively on the retractable and rotary frames, and a drum enveloped by electric cables and sleeves. The hydraulic cylinder is fixed by the housing and the rod, respectively, on the retractable and swing frames.

The disadvantage of this technical solution is the limitation of the length of the immersed foundations to 4.5 m.

A useful model is known “Device for vibro-immersion of pile foundations of contact network supports” (RU patent No. 19511, B 61 D 15/00, publ. 2001.09.10), including a self-propelled railway platform containing a power plant, a cabin with controls and control devices, a vibro-loader with a mechanism for gripping pile foundations mounted on a rotary support device and loading and loading equipment in which the device for loading pile foundations is made in the form of a crane-crane equipped with interchangeable equipment. The interchangeable equipment of the crane is made in the form of a drill or in the form of a tamper.

The disadvantage of this technical solution is the limitation of the length of the immersed foundations to 4.5 m. The placement of interchangeable equipment on the crane makes it difficult to use this equipment due to the instability of this system.

Known utility model "Machine for immersion piles or pile foundations under the support of the contact network (MS-1) (options) and a vibrator for it" (RU patent No. 39614, E 02 D 7/16, B 61 D 15/00, publ. 2004.08.10), including a self-propelled railway platform containing a power plant, controls and controls, loading and charging equipment, a slewing ring, a working body in which the working body, made in the form of interchangeable equipment, is mounted on a movable carriage moving along a guide frame placed on the support rotary device.

The disadvantages of this machine are heavy loads on the undercarriage of the base platform, the lack of control and management of vertical immersion

piles or pile foundations, regardless of the longitudinal slope of the path, which affects the quality of driving. There is noise and vibration at the driver’s workplace, which impairs ease of use.

This technical solution is the closest to the claimed utility model, i.e. prototype.

The technical task of the claimed utility model is to reduce the load on the undercarriages of the base platforms, increase the ease of use, the ability to control and control the vertical immersion of piles or pile foundations under the supports of the contact network, regardless of the longitudinal slope of the track, which increases the reliability and quality of driving piles or pile foundations.

The task of option 1 is solved by creating a machine for immersing piles or pile foundations under the supports of the contact network, containing two permanently coupled railway platforms, including a power plant, a cabin with controls, brake, working and loading equipment, while the first platform includes movement mechanisms, a cabin with control devices, controls for working equipment, movement mechanisms and a brake, a table for laying piles or pile foundations, a rotary support device A property on which working equipment is mounted, including a rotary truss, a retractable truss, a guide frame with a load carriage mounted on it with a working body, in which the second platform includes a diesel-electric unit, a crane with a grip, a loading platform.

In addition, the working body is made replaceable.

In addition, the working body is made in the form of a vibrator with a gripping device that provides lateral clamping of piles or pile foundations.

In addition, the working body is made in the form of screw-cutting equipment with a diameter of 325 mm or with a diameter of 620 mm.

In addition, the working body is made in the form of pneumatic impact equipment for the development of rock.

In addition, the rotary truss of the slewing ring device is made with the possibility of additional blocking from involuntary rotation of the working equipment.

In addition, the guide frame is provided with a rotary carriage, to which the frame, which is a guide for the freight carriage, is mounted with a possibility of sliding, wherein the rotary carriage consists of a plate, a rotary plate and a turning hydraulic cylinder controlled by a hydraulic distribution system and a vertical control means configured to determine deviations from verticality by means of a plumb line.

In addition, the swivel carriage is fixed to the free part of the retractable truss by means of a swivel joint, the plate and the swivel plate are interconnected in the lower part by means of a swivel joint, and in the upper part by means of a swivel cylinder.

In addition, the rotary carriage is configured to rotate the guide frame in both directions by 3 °.

In addition, the loading area for storing pile elements and / or pile foundations is made with power sides.

The task of option 2 is solved by creating a machine for immersing piles or pile foundations under the supports of the contact network, containing two permanently coupled railway platforms, including a power plant, a cabin with controls, brake, working and loading equipment,

the first platform includes movement mechanisms, a cabin with control devices, operating equipment controls, movement mechanisms and brakes, a table for laying piles or pile foundations, a rotary support device on which working equipment is mounted, including a rotary truss, a retractable truss, a guide a frame with a load carriage mounted on it with a working body, in which the second platform includes a diesel-electric unit, a crane with a grip, a loading platform, and The main frame is equipped with a swivel carriage, to which the frame, which is the guide for the freight carriage, is mounted with the possibility of sliding, and the swivel carriage is movably fixed on the free part of the sliding truss, while the swivel carriage consists of a plate, a swivel plate and a swing hydraulic cylinder controlled by a hydraulic distribution system and means of vertical control, configured to determine deviations from verticality.

In addition, while the rotary carriage is fixed to the free part of the retractable truss by means of a swivel joint, the plate and the rotary plate are interconnected in the lower part by means of a swivel joint, and in the upper part by means of a swing hydraulic cylinder.

In addition, the vertical control means is made in the form of a plumb bob located on the side surface of the plate.

In addition, the rotary carriage is configured to rotate the guide frame in both directions by 3 °.

In addition, the loading area for storing pile elements and / or pile foundations is made with power sides.

In addition, the rotary truss of the slewing ring device is made with the possibility of additional blocking from involuntary rotation of the working equipment.

The task of option 3 is solved by creating a machine for immersing piles or pile foundations under the supports of the contact network, containing two permanently coupled railway platforms, including a power plant, a cab with controls, braking, working and loading equipment, while the first platform includes movement mechanisms, a cabin with controls for working equipment, movement mechanisms and brakes, control devices and heating and ventilation systems, a table for laying piles or piles of foundations, a rotary support device on which working equipment is mounted, including a rotary truss, a retractable truss, a guide frame with a load carriage mounted on it with a working body, in which the second platform includes a diesel-electric unit, a crane with a grip, a loading platform with power sides, while the working body is removable, the rotary truss is made with the possibility of additional blocking from involuntary rotation of the working equipment, and the guide frame is equipped with on a rotary carriage, to which the frame is a sliding guide, which is a guide for the cargo carriage, wherein the rotary carriage consists of a plate, a rotary plate and a turning hydraulic cylinder controlled by a hydraulic distribution system and a vertical control means configured to determine a vertical deviation made in the form of at least one plummet located on the side surfaces of the plate of the rotary carriage.

In addition, the rotary carriage is fixed to the free part of the retractable truss by means of a swivel joint, and the plate and the rotary plate are interconnected in the lower part by means of a swivel joint, and in the upper part by means of a swing hydraulic cylinder.

In addition, the rotary carriage is configured to rotate the guide frame in both directions by 3 °.

In addition, the working body is made in the form of a vibrator with a gripping device that provides lateral clamping of piles or pile foundations.

In addition, the working body is made in the form of screw-cutting equipment with a diameter of 325 mm or with a diameter of 620 mm.

In addition, the working body is made in the form of pneumatic impact equipment for the development of rock.

Figure 1 shows a machine for immersion piles or pile foundations under the supports of the contact network (MS-2).

Figure 2 shows the guide frame.

Figure 3 shows the rotary carriage.

The machine for immersing piles or pile foundations under the supports of the contact network (MS-2) according to option 1 (Fig. 1) contains two permanently coupled railway platforms 1 and 2, the first platform 1 includes travel mechanisms 3, a cabin with controls 4, supporting - a rotary device 5, on which working equipment 6 is mounted, including a rotary truss 7, a retractable truss 8, a guide frame 9 with a load carriage 10 mounted on it with a working body 11, a table for laying piles or pile foundations 12, in which

the second platform 2 includes a diesel-electric unit 13, a crane with a grip 14, a loading area with power sides 15.

In addition, the working body 11 is made removable. The working body 11 is made in the form of a vibro-loader with a gripper providing lateral clamping of piles or pile foundations, or in the form of screw-cutting equipment with a diameter of 325 mm or with a diameter of 620 mm, or the working body is made in the form of pneumatic-shock equipment for the development of rock .

In addition, the rotary truss 7 of the slewing device 5 is made with the possibility of additional blocking from involuntary rotation of the working equipment.

The guide frame 9 (FIG. 2) is provided with a rotary carriage 17 (FIG. 3), to which the frame 16, which is a guide for the load carriage 10, is mounted with a possibility of sliding, and the rotary carriage 17 is movably, for example, by means of a hinge, fixed on the free part retractable truss 8, while the rotary carriage 17 consists of a plate 18, a rotary plate 19 and a hydraulic cylinder of rotation 20, moreover, the plate 18 and the rotary plate 19 are interconnected movably in the lower part, for example, by means of a hinge, and in the upper part by idrotsilindra pivot 20 controlled by a control system and gidroraspredelitelnoy verticality means adapted to determine deviations from verticality by plummet 21. Rotatable carriage 17 is pivotable guide frame 9, on both sides 3 °. Loading bay for storage of pile elements and / or pile foundations 16 is made with power sides.

The machine for immersing piles or pile foundations under the supports of the contact network (MS-2) according to option 2 (Fig. 1) contains two permanently coupled railway platforms 1 and 2, the first platform 1 includes movement mechanisms 3, a cabin with controls 4, supporting - a rotary device 5, on which the working equipment 6 is mounted, including a rotary truss 7, a retractable truss 8, a guide frame 9 with a load carriage 10 with a working body 11 installed on it, a table for laying piles or pile foundations 12, in which the second platform 2 includes starts the diesel-electric unit 13, a crane with a grip 14, a loading platform with power sides 15. The guide frame 9 (figure 2) is equipped with a rotary carriage 17 (figure 3), to which the frame 16, which is a guide, is mounted with the possibility of sliding for the load carriage 10, and the rotary carriage 17 is movably, for example, by means of a hinge joint, fixed on the free part of the retractable truss 8, while the rotary carriage 17 consists of a plate 18, a rotary plate 19 and a hydraulic cylinder 20, and the plate 18 and the rotary plate 19 are connected between each other in the lower part is movable, for example, by means of a swivel joint, and in the upper part by means of a turning hydraulic cylinder 20, controlled by a hydraulic distribution system and vertical control means, configured to determine deviations from verticality by means of at least a plumb line 21.

In addition, the rotary carriage 17 is configured to rotate the guide frame 9 in both directions by 3 °. Loading bay for storage of pile elements and / or pile foundations 15 is made with power sides. The rotary truss 7 of the rotary support device 5 is made with the possibility of additional blocking from involuntary rotation of the working equipment. The working body 11 is made removable. The working body 11 is made in the form

a vibratory driver with a gripping device providing lateral clamping of piles or pile foundations, or in the form of screw-cutting equipment with a diameter of 325 mm or with a diameter of 620 mm, or the working body is made in the form of pneumatic-impact equipment for the development of rock.

The machine for immersing piles or pile foundations under the supports of the contact network (MS-2) according to option 3 (Fig. 1) contains two permanently coupled railway platforms 1 and 2, the first platform 1 includes travel mechanisms 3, a cabin with controls 4, supporting - a rotary device 5 on which working equipment 6 is mounted, including a rotary truss 7, a retractable truss 8, a guide frame 9 with a load carriage 10 mounted on it with a working body 11, a table for laying piles or pile foundations 12, in which the second platform 2 on starts the diesel-electric unit 13, a crane with a grip 14, a loading platform with power sides 15. The guide frame 9 (figure 2) is equipped with a rotary carriage 17 (figure 3), to which the frame 16, which is a guide, is mounted with the possibility of sliding for the load carriage 10, and the rotary carriage 17 is movably, for example, by means of a hinge joint, fixed on the free part of the retractable truss 8, while the rotary carriage 17 consists of a plate 18, a rotary plate 19 and a hydraulic cylinder 20, and the plate 18 and the rotary plate 19 connected with each other in the lower part is movable, for example, by means of a swivel joint, and in the upper part by means of a rotation cylinder 20, controlled by a hydraulic distribution system and vertical control means, configured to determine deviations from verticality by means of a plumb line 21. A loading platform for storing pile elements and / or pile foundations 16 is made with power

sides. The rotary truss 7 of the rotary support device 5 is made with the possibility of additional blocking from involuntary rotation of the working equipment.

In addition, the rotary carriage 17 is configured to rotate the guide frame 9 in both directions by 3 °. The working body 11 is made removable. The working body 11 is made in the form of a vibro-loader with a gripper providing lateral clamping of piles or pile foundations, or in the form of screw-cutting equipment with a diameter of 325 mm or with a diameter of 620 mm, or the working body is made in the form of pneumatic-shock equipment for the development of rock .

The machine for immersion piles or pile foundations under the supports of the contact network (MS-2) according to options 1, 2, 3 works as follows.

All the mechanisms and systems of the machine are serviced by a power plant located on the outer end of the second (motor) platform of the machine 2 and which is a diesel-electric unit 13. The diesel-electric unit 13 is controlled from the cab of the machine 4. The working body 11 of the machine is a vibrator, providing capture and rigid connection of the immersed element with the vibrator and their immersion in the ground due to vibration immersion, or screw-cutting equipment with a diameter of 325 mm or with a diameter of 620 mm, or pneumatic ud molecular weight equipment for the development of rock.

The placement and design of the hitch of the working body 11 allows you to manipulate it in such a way that it ensures that the working body 11 is guided by the marks of the element (piles or pile foundations) and the depth of immersion is provided for by the applicable building codes. Pile loading or

pile foundations to the loading platform 16 of the machine and feeding them to the table for laying piles or pile foundations 12 for capturing them, for example, with a vibrator, is carried out by a crane 14 equipped with a gripper.

The crane 14 is controlled from the remote control, and the table is controlled from the remote control on a crane frame. Technological movement of the machine is carried out using two movement mechanisms, brake and signal equipment. The movement control unit is concentrated in the cab of the machine 4. The movement mechanism is driven by one (outer) wheel pair of each undercarriage of the main platform of the machine 1 and consists of axial two-speed gearboxes connected to electric motors and mounted with them on a common frame.

Braking of the machine is carried out by regular brakes of the railway platforms, equipped with air compressors and control devices. The machine is equipped with two types of brakes: automatic and non-automatic direct acting. (The first type of brake is intended for train mode, movement in a train and provides emergency braking of both the machine as a whole and automatic braking of each platform in the event of a gap in the grip when moving self-propelled. The second type is designed to brake the car during technological self-propelled movement, which reduces cycle time due to reduced brake release time.)

The working equipment 6 of the machine is mounted on a rotary support device 5, providing its rotation by 90 degrees on both sides of its longitudinal axis, and includes a rotary 7 and a retractable truss 8, a rotary carriage 17, a guide frame 9 and a load carriage 10. Rotate the rotary truss 7 is carried out by two hydraulic cylinders with a chain pulley block, to prevent

spontaneous turning of the equipment from the transport position in the event of a hydraulic drive failure, the machine is equipped with a rotation blocking system that allows turning only at certain positions of the vibrator of the retractable truss 8. The guide frame (Fig. 2) is equipped with a rotary carriage 17, to which the frame 16, which is movably mounted, is 16 rail for the freight carriage 10, has a slide cylinder 21, a tip 23, a feed mechanism including a feed hydraulic cylinder 22 and a load carriage 10. Rotary carriage 17 movably, for example, by means of a swivel, is fixed on the free part of the sliding truss 8, while the rotary carriage 17 consists of a plate 18, a rotary plate 19 and a turning cylinder 20, and the plate 18 and the rotary plate 19 are interconnected movably, for example by means of a swivel, and in the upper part by means of a turning cylinder 20, controlled by a hydraulic distribution system (not shown) and a vertical control means configured to determine the deviation about t verticality made, for example, in the form located on the side surface of the plate 18 of the rotary carriage 17 of the plumb line 21 (Fig.3). The frame 16 is welded from two beams of the I-beam section, connected to each other by cross members. On the lower shelves of the beams there are planed guides that allow the frame to move in the grooves of the plate 18 of the rotary carriage 17 under the action of the slide cylinder 21, in the upper part of the frame 16 there is a platform for installing and fixing the head 23. In addition, the rotary carriage 17 is arranged to rotate the guide frame 9 in both directions by 3 °, which allows the frame 16c to be mounted by the load carriage 10 in a vertical position regardless of the longitudinal slope of the track. In the middle position, the rotary plate 17 is fixed by spring-loaded cylindrical stops on the plate, the control of which

is carried out from the ground by means of a lever-pull system (not shown in the figures) mounted on the side surfaces of the plate 18, trunnions with articulated bearings are welded in the same place and for installing the rotary carriage 17 in the detachable supports of the retractable truss 8 and trunnions for articulating the rods of tipping cylinders , in the upper part of the rotary plate 19 there are eyes for fastening the slide cylinder body 21, and in the lower part there are eyes for fixing the frame 16 during transportation as part of a freight train.

To ensure the stability of the machine when folding the equipment to the working position, a frame with two hydraulic jacks is pivotally mounted on the front end of the rotary truss, which is tilted by means of hydraulic cylinders, and at the opposite end is a counterweight. When hydraulic jacks are activated, their heels rely on the edge of the railway track.

The installation of the working body 11 at the required distance from the axis of the railway track of the corresponding given elevation of the elements is achieved by moving the retractable truss 8, carried out using a hydraulic cylinder. A hydraulic unit is installed on the root part of the root farm, which ensures the operation of actuators. A rotary carriage 17 is movably mounted on the free part of the truss (for example, by means of a swivel joint), to which the frame 16, which is a guide for the freight carriage 10 with a vibro-loader, is movably connected. The rotation of the rotary carriage 17 is carried out using two hydraulic cylinders and allows you to install the frame 16 with the working body 11 in working and transport condition. The shift of the frame 16 relative to the rotary carriage 17 when unfolding the equipment in the working position allows it to be lowered into the ground and unload the metal structures of the working equipment and the first (main) railway platform 1 in

the process of sinking piles or pile foundations. The shift of the frame 16 relative to the rotary carriage 17 is carried out using a hydraulic cylinder. In the transport position, the frame 16 and the pivoting carriage 17 are rigidly connected to each other using clamps. The lifting of the cargo carriage 10 with a vibro-loader during the capture of pile elements from the table and its lowering until the elements stop in the ground are carried out using a feed mechanism - a hydraulic cylinder and a chain pulley. The pile element is immersed without using a feed mechanism.

The cab of machine 4 is equipped with a powerful heater with an electric fan, which together with the insulation of the cab floor allows the machine to be operated at low freezing temperatures.

The vertical installation is carried out by the operator using the control handle of the turning hydraulic cylinder 20 of the guide frame 9. Through the supply hydraulic cylinder 22, the liquid passes through the high pressure hoses and enters the turning hydraulic cylinder 20. The reference is a plumb line 21. The plumb line adjusts the vertical position of the guide frame 9 using the pivot carriage 17 The control device is, for example, at least one plumb line 21.

An additional pumping station with a hydraulic unit is additionally installed on the motor platform; electrical equipment can be installed on both the main and the motor platform.

Using the MS-2 machine, piles and pile foundations of all types of contact network supports are immersed with a length of 5.5 m with an immersion depth of 6.65 m from the level of the rail head and a length of 8 m with a cross section of 35 × 35 cm with an immersion depth of 9.15 m.

Compared with the prototype, the MS-1 machine, the MS-2 machine reduces the load on the undercarriage of the base platforms, is equipped with a device that provides

the verticality of the immersed piles and pile foundations, including on the longitudinal and transverse slopes of the track, as well as by means of additional blocking the turn of the farm and the loading platform for storing pile elements and / or pile foundations, made with power boards, for transporting foundations and piles, which increases reliability and quality of driving piles or pile foundations.

Claims (22)

1. A machine for immersing piles or pile foundations under the supports of the contact network, containing two permanently coupled railway platforms, including a power plant, a cabin with controls, brake, working and loading equipment, while the first platform includes movement mechanisms, a cabin with control devices, operating equipment controls, movement mechanisms and brakes, a table for laying piles or pile foundations, a rotary support device on which the working equipment is mounted e comprising a rotatable farm sliding farm guide frame installed thereon cargo carriage with the working body, wherein the second platform comprises a diesel-electric unit crane with a gripper, a loading platform. 2. A machine for immersing piles or pile foundations under the supports of the contact network according to claim 1, characterized in that the working body is removable. 3. A machine for immersing piles or pile foundations under the supports of the contact network according to claim 2, characterized in that the working body is made in the form of a vibro-loader with a gripping device providing lateral clamping of piles or pile foundations. 4. A machine for immersing piles or pile foundations under the supports of the contact network according to claim 2, characterized in that the working body is made in the form of screw-cutting equipment with a diameter of 325 mm or with a diameter of 620 mm. 5. A machine for immersing piles or pile foundations under the supports of the contact network according to claim 2, characterized in that the working body is made in the form of pneumatic-impact equipment for the development of rock. 6. A machine for immersing piles or pile foundations under the supports of the contact network according to claim 2, characterized in that the rotary truss of the rotary support device is made with the possibility of additional blocking from involuntary rotation of the working equipment. 7. A machine for immersing piles or pile foundations under the supports of the contact network of claim 1, characterized in that the guide frame is provided with a rotary carriage, to which the frame is a sliding guide, which is a guide for the cargo carriage, and the rotary carriage is movably fixed on the free part of the retractable trusses, while the rotary carriage consists of a plate, a rotary plate and a turning hydraulic cylinder controlled by a hydraulic distribution system and a vertical control means configured to determination of deviation from verticality using a plumb line. 8. A machine for immersing piles or pile foundations under the supports of the contact network according to claim 7, characterized in that the rotary carriage is mounted on the free part of the retractable truss by a swivel, and the plate and the rotary plate are interconnected in the lower part by means of a swivel, and in the upper part using a turning cylinder. 9. A machine for immersing piles or pile foundations under the supports of the contact network according to claim 8, characterized in that the rotary carriage is configured to rotate the guide frame in both directions by 3 °. 10. A machine for immersing piles or pile foundations under the supports of the contact network according to claim 1, characterized in that the loading platform for storing pile elements and / or pile foundations is made with power sides. 11. A machine for immersing piles or pile foundations under the supports of the contact network, containing two permanently coupled railway platforms, including a power plant, a cabin with controls, brake, working and loading equipment, while the first platform includes movement mechanisms, a cabin with control devices, operating equipment controls, movement mechanisms and brakes, a table for laying piles or pile foundations, a rotary support device on which the working equipment is mounted including a rotary truss, a retractable truss, a guide frame with a load carriage mounted on it with a working body, characterized in that the second platform includes a diesel-electric unit, a crane with a grip, a loading platform, and the guide frame is equipped with a rotary carriage, which, with the possibility of sliding, is mounted a frame, which is a guide for the freight carriage, while the rotary carriage consists of a plate, a rotary plate and a rotation cylinder controlled by a valve system control means and the second vertical position adapted to determine deviations from verticality. 12. A machine for immersing piles or pile foundations under the supports of the contact network according to claim 11, characterized in that the rotary carriage is mounted on the free part of the retractable truss by means of a swivel joint, and the plate and the rotary plate are interconnected in the lower part by means of a swivel joint, and in the upper part using a turning cylinder. 13. A machine for immersing piles or pile foundations under the supports of the contact network according to claim 11, characterized in that the vertical control means is made in the form of a plumb bob located on the side surface of the plate. 14. Machine for immersing piles or pile foundations under the supports of the contact network according to item 12, characterized in that the rotary carriage is configured to rotate the guide frame in both directions by 3 °. 15. A machine for immersing piles or pile foundations under the supports of the contact network according to claim 11, characterized in that the loading area for storing pile elements and / or pile foundations is made with power sides. 16. A machine for immersing piles or pile foundations under the supports of the contact network according to claim 11, characterized in that the rotary truss of the rotary support device is made with the possibility of additional blocking from involuntary rotation of the working equipment. 17. A machine for immersing piles or pile foundations under the supports of the contact network, containing two permanently coupled railway platforms, including a power plant, a cabin with controls, brake, working and loading equipment, while the first platform includes movement mechanisms, a cabin with controls for the worker equipment, movement mechanisms and brakes, control devices and heating and ventilation systems, a table for laying piles or pile foundations, a slewing ring on which om mounted working equipment, including a rotary truss, a retractable truss, a guide frame with a load carriage mounted on it with a working body, characterized in that the second platform includes a diesel-electric unit, a crane with a grip, a pump station with a hydraulic unit, a loading platform with power sides, while the working body is removable, the rotary truss is made with the possibility of additional blocking from involuntary rotation of the working equipment, and the guide frame with abzhena rotary carriage, to which the frame is mounted with the possibility of sliding, which is the guide for the cargo carriage, while the rotary carriage consists of a plate, a rotary plate and a turning hydraulic cylinder controlled by a hydraulic distribution system and vertical control, made with the possibility of determining deviations from verticality, made in the form of at least one plummet located on the side surfaces of the plate of the rotary carriage. 18. A machine for immersing piles or pile foundations under the supports of the contact network according to claim 17, characterized in that the rotary carriage is mounted on the free part of the retractable truss by means of a swivel joint, and the plate and the rotary plate are interconnected in the lower part by means of a swivel joint, and in the upper part using a turning cylinder. 19. A machine for immersing piles or pile foundations under the supports of the contact network according to claim 17, characterized in that the rotary carriage is configured to rotate the guide frame in both directions by 3 °. 20. A machine for immersing piles or pile foundations under the supports of the contact network according to claim 17, characterized in that the working body is made in the form of a vibro-loader with a gripping device providing lateral clamping of piles or pile foundations. 21. A machine for immersing piles or pile foundations under the supports of the contact network according to claim 17, characterized in that the working body is made in the form of screw-cutting equipment with a diameter of 325 mm or with a diameter of 620 mm. 22. A machine for immersing piles or pile foundations under the supports of the contact network according to claim 17, characterized in that the working body is made in the form of air-shock equipment for the development of rock.