RU39614U1 - MACHINE FOR DIPPING PILES OR PILED FOUNDATIONS UNDER CONTACT NETWORK SUPPORT (MS-1) (OPTIONS) AND VIBRO LOADER FOR IT - 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 expand the functionality of the device, increase the immersion power, including providing the possibility of immersion of piles 8 m long, foundations and anchors of all types up to 5.5 m long due to their lateral clamping, more powerful vibrator. The problem is solved by creating a machine for immersing piles or pile foundations under the supports of the contact network according to options 1, 2, 3, 4, including a self-propelled railway platform containing a power plant, control and monitoring tools, loading and charging equipment, slewing-rotary device, the working body, in which the working body, made in the form of replaceable equipment, is mounted on a movable carriage moving along a guide frame placed on a rotary support device. The working body is made in the form of a vibro driver with a gripping device that provides lateral clamping of piles or pile foundations.

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. The working body is made in the form of pneumatic impact equipment for the development of rock. The problem is also solved by creating a vibrator, containing a vibrator with a guide, a gripping device in which four hydraulic cylinders are installed in the gripping device, the rods of which are rigidly connected to the wedges interacting with the clamping crackers, guide rails are fixed under each hydraulic cylinder, wedges are located in the vertical grooves of which this wedges have grooves located obliquely. In addition, the grooves of the guide strips and wedges are made in the form of a "dovetail". In addition, the clamping crackers are made with replaceable jaws.

Description

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 season-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 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.

Known utility model "Device for vibration dipping pile foundations of supports of the contact network" (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.

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

The invention is known as “Vibrating driver” (RU patent No. 2077636, E 02 D 7/18, publ. 1997.04.20), comprising a drive, a housing with eccentric shafts housed in it on one axis, combined into separate groups, and a group with hollow eccentric shafts connected by a gear to the camshaft of the drive. And the eccentric shafts of the other group are also hollow, connected by a gear transmission to the camshaft and combined in pairs with

eccentric shafts of the first group by means of an axis passing through their cavities, rigidly fixed in the housing.

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

The technical task of the claimed utility model is to expand the functionality of the device, increase the immersion power, including providing the possibility of immersion of piles 8 m long, foundations and anchors of all types up to 5.5 m long due to their lateral clamping, more powerful vibrator.

The task of option 1 is solved by creating a machine for immersing piles or pile foundations under the supports of the contact network, including a self-propelled railway platform containing a power plant, control and monitoring equipment, loading and charging equipment, a slewing ring, a working body, in which the working body mounted on a movable carriage moving along a guide frame placed on a rotary support device, while the working body is made in the form of interchangeable equipment.

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.

The task of option 2 is solved by creating a machine for immersing piles or pile foundations under the supports of the contact network, including a self-propelled railway platform containing a power plant, control and monitoring tools, loading and charging equipment, a slewing ring, a working body, including a vibrator with a device capture, in which the vibrator is mounted on a movable carriage moving along a guide frame placed on a slewing ring, while in the device for four hydraulic cylinders are installed, the rods of which are rigidly connected to the wedges, and the wedges interact with clamping crackers.

In addition, under each hydraulic cylinder, guide rails are fixed, in the vertical grooves of which there are wedges. In addition, the wedges have slots located obliquely. In addition, the grooves of the guide strips and wedges are made in the form of a "dovetail".

In addition, the clamping crackers are made with replaceable jaws. In addition, the working body is equipped with replaceable equipment. 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.

The task of option 3 is solved by creating a machine for immersing piles or pile foundations under the supports of the contact network, including a self-propelled railway platform containing power

installation, controls and controls, loading and charging equipment, slewing ring device, working body, in which the working body contains a rotator, auger, cutting head, rest, while the auger is connected to a rotator and a cutting head, and the working body is mounted on a movable a carriage moving along a guide frame placed on a rotary support device, and a lunette is rigidly mounted on the guide frame.

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

The task of option 4 is solved by creating a machine for immersing piles or pile foundations under the supports of the contact network, including a self-propelled railway platform containing a power plant, control and monitoring tools, loading and charging equipment, a slewing ring, a working body, which is additionally introduced compressor equipment, the working body contains a rotator, a clip, an air manifold, a drill rod, a hammer with a casing and a drill bit, while the rotator is connected to the drill oh rod cage, the air manifold is mounted on the shank of the drill rod under the cage, the drill rod connected to the hammer, and the actuator is mounted on a movable carriage that moves along the guide frame, the rail frame are rigidly mounted backrest and compressor equipment is located in an extra train platform.

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 a screw-cutting device with a diameter of 325 mm or with a diameter of 620 mm.

The problem is also solved by creating a vibrator, containing a vibrator with a guide, a gripping device in which four hydraulic cylinders are installed in the gripping device, the rods of which are rigidly connected to the wedges interacting with the clamping crackers, guide rails are fixed under each hydraulic cylinder, wedges are located in the vertical grooves of which this wedges have grooves located obliquely.

In addition, the grooves of the guide strips and wedges are made in the form of a "dovetail".

In addition, the clamping crackers are made with replaceable jaws.

Figure 1 shows a machine for immersing piles or pile foundations under the supports of the contact network (MS-1) according to option 1.

Figure 2 shows a machine for immersion piles or pile foundations under the supports of the contact network (MS-1), equipped with a vibration absorber according to option 2.

Figure 3 shows a machine for immersing piles or pile foundations under the supports of the contact network (MS-1), equipped with replaceable screw-cutter type equipment according to option 3.

Figure 4 (a, b) shows: a) a machine for immersing piles or pile foundations under the supports of the contact network (MS-1), equipped

replaceable equipment for pneumatic shock type for the development of rock, b) replaceable equipment for pneumatic impact type for the development of rock according to option 4.

Figure 5 presents the vibrator for a machine for immersing piles or pile foundations under the supports of the contact network (MS-1).

A machine for immersing piles or pile foundations under the supports of the contact network (MS-1) according to option 1 (Fig. 1), including a self-propelled railway platform 1, containing a power plant 2, control and monitoring means 3, loading and charging equipment 4, 5, rotary support device 6, a working body 7, in which the working body 7 is mounted on a movable carriage 8, moving along a guide frame 9 placed on the rotary support device 6, while the working body 7 is made in the form of interchangeable equipment.

The working body 7 is made in the form of a vibro driver with a gripping device that provides lateral clamping of piles or pile foundations (Fig. 5) or screw-cutting equipment with a diameter of 325 mm or with a diameter of 620 mm (Fig. 3) or pneumatic-impact equipment for developing rock rocks (figure 4).

The machine for immersing piles or pile foundations under the supports of the contact network (MS-1) according to option 2 (figure 2) contains a self-propelled railway platform 1, containing a power plant 2, control and monitoring means 3, a slewing ring 6, a working body, including a vibratory driver with a device for capturing piles or pile foundations 7 and loading and loading equipment 4, 5, containing a device for loading pile foundations 4 and a table for

their supply 5, in which the vibrator 7 is mounted on a movable carriage 8, moving along the guide frame 9, which is placed on the support-rotary device 6, while four hydraulic cylinders 10 are installed in the device for capturing the vibrator (figure 5), the rods 11 of which are rigidly connected with wedges 12, which interact with clamping crackers 13. Under each hydraulic cylinder 10, guide rails 14 are fixed, in the vertical grooves of which there are wedges 12 having grooves located obliquely. The grooves of the guide strips 14 and the wedges 12 are made in the form of a "dovetail". The clamping crackers 13 are made with interchangeable jaws.

The working body 7 is made in the form of replaceable equipment of the screw-cutting type (Fig. 3) with a diameter of 325 mm or with a diameter of 620 mm for drilling leader wells and an air-shock type for developing rock formations (Fig. 4).

The machine for immersing piles or pile foundations under the supports of the contact network according to option 3 (Fig. 3) contains a self-propelled railway platform 1, comprising a power plant 2, control and monitoring means 3, loading and charging equipment 4, 5, and a slewing ring 6, the working body 7, containing the rotator 8, the screw 9, the cutting head 10, the rest 13, while the screw 9 is connected to the rotator 8 and the cutting head 10, and the working body 7 is mounted on a movable carriage 11, moving along the guide frame 12, placed on the support rotary device 6, and on the guide frame 12 is fixedly mounted lunette 13.

The working body 7 is made in the form of a vibro-loader with a gripper providing lateral clamping of piles or pile foundations (Fig. 5) or pneumatic-impact equipment for the development of rock (Fig. 4).

The machine for immersing piles or pile foundations under the supports of the contact network according to option 4 (Fig. 4) includes a self-propelled railway platform 1 containing a power plant 2, control and monitoring means 3, loading and charging equipment 4, 5, and a slewing ring 6, the working body 7 contains a rotator 8, a clip 9, an air manifold 10, a drill rod 11, an air hammer 12 with a casing 13 and a drill bit 14 and compressor equipment 15, while the rotator 8 is connected to the drill rod 11 of the clip 9, the air collector 10 is mounted on x the core of the drill rod 11 under the yoke 9, the drill rod 11 is connected to the hammer 12, and the working body 7 is mounted on a movable carriage 16 moving along the guide frame 17, and the lance 18 is rigidly mounted on the guide frame 17, and the compressor equipment is located on an additional railway platform 18.

The working body 7 is made in the form of a vibro driver with a gripper providing lateral clamping of piles or pile foundations (Fig. 5) or screw-cutting equipment with a diameter of 325 mm or with a diameter of 620 mm (Fig. 3).

The vibro driver (Fig. 5) contains a vibrator 1 with a guide 2, a device for capturing piles or pile foundations 3, two unbalanced shafts mounted on one vibrator 1 are mounted on one

horizontal axis and connected to each other by means of catching gears (not shown), while the capture device of the vibro-driver 3 consists of two halves, in the upper half of which four hydraulic cylinders are installed with their rods down 10, and in the lower half a clamping device is mounted, to the lower half body gripping 3, directly under each hydraulic cylinder 10, guide rails 11 are fixed, in the vertical grooves of which there are wedges 14, rigidly connected to the rods of hydraulic cylinders 10 having grooves, located obliquely, with which the clamping crackers 12 interact with interchangeable jaws 13. The grooves of the guide bars 11 and the wedges 14 are made in the form of a “dovetail”.

The principle of operation of the utility model for options 1, 2, 3, 4 is as follows.

All the mechanisms and systems of the machine for immersing piles or pile foundations under the supports of the contact network (MS-1) (Fig. 1) are serviced by a power plant 2 located on the front of the machine of the railway platform 1 and which is a diesel-electric station. The control of the station is concentrated in the cab of the machine 3. The working body 7 according to option 2 is made in the form of a vibratory driver with a gripper 3 (figure 5), providing lateral clamping of piles or pile foundations and rigid connection of the immersed element with the vibrator and their immersion in the ground due to the vibration effect .

In option 3, the working body is replaceable equipment made in the form of screw-cutting equipment (Fig. 3) with a diameter of 325 mm for drilling leader wells, with a diameter of 620 mm for

drilling wells for the installation of solid supports of the contact network, according to option 3 - replaceable equipment made in the form of pneumatic impact equipment (figure 4) for the development of rock.

The working body 7 is mounted on a movable carriage 8, moving along a guide frame 9, which is mounted with the possibility of sliding on a swivel bracket placed on a support-rotary device 6, which provides a turn of the working equipment at an angle of 90 degrees on both sides of its longitudinal axis. The rotation of the bracket using two hydraulic cylinders allows you to set the guide frame 9 in the vertical (working) and inclined (transport) positions. The guide frame 9 is used to move the carriage 8 with the vibrator 7 when capturing the element from the desktop 5 and when they are immersed in the ground. The movement of the carriage 8 is performed by the feed mechanism in the form of a feed hydraulic cylinder and a chain pulley, and the pulley is made so that the force is transmitted to the carriage 8 with one chain thread, and the lifting force is two. The loading of foundations and piles on the platform and feeding them to the table for gripping with a vibro-loader is carried out by a crane 4 equipped with a gripper.

The vibrator 9 (Fig. 5) contains a vibrator 1 with a guide 2 and a gripper 3. In the vibrator body on spherical roller bearings, two unbalanced shafts connected to each other are mounted by means of engaging gears located on one horizontal axis. This connection ensures that the unbalanced shafts rotate in different directions at the same speed and ensures their synchronization. On each unbalanced shaft mounted

two unbalances, the drive of which is carried out from its hydraulic motor through a gear transmission (not shown in the drawing).

During the course of the rods of the hydraulic cylinders 10 downward, the wedges 14 are lowered together with them and the clamping crackers 12 are moved in a horizontal plane in the direction of the pile. When replacing the jaws 13, the gripper 3 can be used when immersing the pile foundations.

The power of the vibration absorber is increased by 50% due to an increase in the mass of unbalances.

Replaceable drilling equipment of the screw-cutting type to the device for vibro-immersion of piles or pile foundations (Fig. 3) is intended for drilling leader wells under the supports of the contact network of railways in difficult geological conditions. The equipment provides effective drilling of both thawed and frozen soils with rock inclusions up to 30% and sizes up to 60 mm. To connect the rotator 8 to the hydraulic system of the machine are high-pressure hoses and couplings. Protection of the rotor 8 hydraulic motor against overloads is carried out using a block of safety valves configured for a pressure of 35-1.0 MPa. In the axial direction, the screw 9 on the shaft of the rotator 8 and the cutting head 10 in the end sleeve are fixed with axes. Lunette 13 is designed to provide directional drilling and unloading of the screw 9 outside the well.

Replaceable equipment such as pneumatic impact equipment for the development of rock to the device for vibro-immersion of piles or pile foundations (figure 4) is designed to develop wells under the supports of the contact network in fractured and collapsible rocky soils

V-IX groups according to the classification of SNiP. The equipment consists of a working body 7 and compressor equipment 15. The latter is installed on an additional railway platform 18, coupled to the SM-1 device from the side of the loading and charging device 4, 5, and secured in accordance with Chapter 5 “Technical conditions for loading and securing cargo” (as unpacked loads with flat supports). Compressor equipment includes two compressor stations, the synchronous operation of which is provided by check valves. To connect the rotator 8 of the working body 7 with the drill rod 11 is a clip 9. The drill rod 11 is used to transmit from the rotator 8 to the hammer 12 of rotation and feed force. The air manifold 10 is mounted on the shank of the drill rod 11 under the yoke 9 and is connected to the housing of the rotator 8 by means of rods. To connect to the air manifold 10 of the air sleeve, a rotary flange is used, due to which they provide the necessary orientation of the air sleeve during transport and working positions of the equipment, as well as when moving the working body 7 from one position to another. The outer surface of the hammer 12 is closed by a casing to increase the speed of the air flow in the annulus of the well and thereby effectively remove drilling products from the well.

The placement and design of the hitch of the working body 7 to the base railway platform allows you to manipulate it in such a way that provides guidance of the working body to the marks of immersion of the elements and achieve the depth of immersion.

Management of all operations, except for the operation of the crane and the desktop, is carried out from a closed, sealed cabin of the machine 3.

Due to the interchangeable equipment, the machine is multifunctional, allowing it to be used both in the development of wells for a separate method of mounting contact network supports, and for solid supports in various soil categories.

The claimed utility model is distinguished by the presence of a belt-driven vibrator of increased power, providing immersion of piles up to 8 m, foundations and anchors of all types up to 5.5 m long due to their lateral clamping, increased immersion depth of the elements, a universal gripping device, equipping the working body with replaceable equipment.

Claims (18)

1. A machine for immersing piles or pile foundations under the supports of the contact network, including a self-propelled railway platform containing a power plant, control and monitoring equipment, loading and charging equipment, a slewing rotary device, a working body, characterized in that the working body, made in the form of interchangeable equipment, mounted on a movable carriage moving along a guide frame placed on a slewing ring. 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 made in the form of a vibro-loader with a gripping device providing lateral clamping of piles or pile foundations. 3. 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 made in the form of screw-cutting equipment with a diameter of 325 or 620 mm. 4. 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 made in the form of pneumatic impact equipment for the development of rock. 5. A machine for immersing piles or pile foundations under the supports of the contact network, including a self-propelled railway platform containing a power plant, control and monitoring means, loading and charging equipment, a slewing rotary device, a working body, including a vibrator with a gripper, characterized in that the vibrator is mounted on a movable carriage moving along the guide frame placed on the slewing device, while even in the capture device of the vibrator is installed even Hydraulic cylinders, the rods of which are rigidly connected to the wedges, and the wedges interact with clamping crackers. 6. A machine for immersing piles or pile foundations under the supports of the contact network according to claim 5, characterized in that under each hydraulic cylinder there are fixed guide rails, in the vertical grooves of which there are wedges, while the wedges have grooves located obliquely. 7. A machine for immersing piles or pile foundations under the supports of the contact network according to claim 6, characterized in that the grooves of the guide strips and wedges are made in the form of a "dovetail". 8. A machine for immersing piles or pile foundations under the supports of the contact network according to claim 5, characterized in that the clamping crackers are made with replaceable jaws. 9. A machine for immersing piles or pile foundations under the supports of the contact network, including a self-propelled railway platform containing a power plant, control and monitoring means, loading and charging equipment, a slewing ring, a working body, characterized in that the working body contains a rotator, a screw, a cutting head, a rest, while the screw is connected to a rotator and a cutting head, and the working body is mounted on a movable carriage moving along a guide frame placed on a rotary support device e, wherein the rail frame are rigidly mounted backrest. 10. A machine for immersing piles or pile foundations under the supports of the contact network according to claim 9, 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. 11. A machine for immersing piles or pile foundations under the supports of the contact network according to claim 9, characterized in that the working body is made in the form of a screw-cutting device with a diameter of 325 or 620 mm. 12. A machine for immersing piles or pile foundations under the supports of the contact network according to claim 9, characterized in that the working body is made in the form of air-shock equipment for the development of rock. 13. A machine for immersing piles or pile foundations under the supports of the contact network, including a self-propelled railway platform containing a power plant, control and monitoring equipment, loading and charging equipment, a slewing rotary device, a working body, characterized in that a compressor is additionally introduced into it equipment, and the working body contains a rotator, a clip, an air manifold, a drill rod, a hammer with a casing and a drill bit, while the rotator is connected to a drill rod, a clip, an air llektor mounted on the shank of the drill rod under the cage, the drill rod connected to the hammer, and the actuator is mounted on a movable carriage that moves along the guide frame, the guide frame for the backrest is rigidly mounted, and a compressor disposed in an extra equipment railway platform. 14. A machine for immersing piles or pile foundations under the supports of the contact network according to item 13, 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. 15. Machine for immersion piles or pile foundations under the supports of the contact network according to item 13, wherein the working body is made in the form of a screw-cutting device with a diameter of 325 or 620 mm 16. A vibro driver containing a vibrator with a guide, a gripping device, characterized in that four hydraulic cylinders are installed in the gripping device, the rods of which are rigidly connected to the wedges interacting with the clamping crackers, guide rails are fixed under each hydraulic cylinder, in the vertical grooves of which there are wedges, this wedges have grooves located obliquely. 17. The vibro driver according to claim 16, characterized in that the grooves of the guide bars and wedges are made in the form of a "dovetail". 18. The vibro driver according to claim 16 or 17, characterized in that the clamping crackers are made with replaceable jaws.