RU48333U1 - VIBRO PUNCHING INJECTION DEVICE - Google Patents

Abstract

The proposed technical solution relates to the field of construction and can be used both for the accelerated manufacture of foundation wells without excavation, and for the direct manufacture of vibroinjection rammed piles. Known vibration-proof device but the patent for utility model No. 40332 IPC E 02 D 7/18, taken by us as a prototype. However, this technical solution contains limitations that hinder the further expansion of the technological capabilities of the vibratory punching device. The problem is solved in that the vibro-punching injection device containing a working body, including a hollow forming body made in the form of a forming guide tube with a removable flange at one end and a forming working tip with an internal shock heel at the other, and a vibrating drive in the form of a vibro-shock mechanism with drummer, while the forming body and vibration-shocking mechanism are made with the possibility of kinematic communication with each other, and vibration-shocking fur the anism is made in the form of an unbalanced vibrator with a double-sided electromechanical drive, providing a reciprocating reciprocator in a vertical and reciprocating rotational horizontal plane of motion, rigidly connected to the vibrator, located inside the forming body, placed with the possibility of reciprocating movement relative to its guide in the vertical plane and reciprocating movement with it in a horizontal plane and mounted coaxially on the heel formoo a forming working tip, characterized in that the size-forming guide tube of the forming body is hollow and consisting of an inner - guide and external - size-forming shells, between which tubular concrete ducts are mounted, and the forming working tip has a connector in the horizontal plane, and the upper forming part has a length of size no more than 2 D, and is made with an internal impact heel and concrete channels, and the lower, piercing - in the form of a removable moving pe evernutogo cone whose base is provided with a shank guide closes the outlets betonoprovodyaschih channels immersion device, and kinematic connection of the shaping body and

the vibration-shocking mechanism is made constant and implemented by means of two movable guides spaced along the length of the striker, simultaneously ensuring alignment of the striker and the shock heel of the forming working tip, one-piece splined couplings, the fixed coupling halves of which are fixed: the upper one on a removable flange, the lower one on the inner side of the forming shell guide body, and both movable coupling halves - on the body of the drummer of the vibro-shock mechanism, while ensuring separate and of the reciprocating and reciprocating movements, the double-sided electromechanical drive of the unbalanced vibrator is made separate in the form of two independent drives of the same name consisting of two electric motors and two V-belt drives mounted on the pedestals of the same name on a removable flange of the forming body, so that the rotation axes of the same leading and driven belt drive pulleys are located in the same horizontal planes of the axis of rotation of the drive shafts of the unbalanced vibrator. 2. Vibro-punching injection device according to claim 1, characterized in that the forming body is provided with a slewing circle, the movable part of the cage of which is fixed on its flange, and the stationary part on the suspension of the lifting machine or on the guide carriage of the copier. Using the proposed technical solution allows you to: - replace such methods of construction of foundation wells and rammed piles as drilling, immersion vibrator casing pipes closed from below with a lost reinforced concrete shoe; drilling with rolling without excavation, immersion of the screw and casing with a double rotation system, followed by or simultaneous injection of wells with concrete, etc .; - create a unified series of highly productive low-energy vibro-puncture injection devices for the manufacture of homogeneous, compact, with excellent structural characteristics and high load-bearing capacity of vibro-injection reinforced concrete rammed piles with a diameter of 400 mm, 530 mm, 630 mm, 820 mm and 1020 mm, in accordance with SNiP II B .5 - 67 *; in all types of soil, and thereby - to ensure a high economic effect. For example, the estimated production cycle for the manufacture of the indicated piles with a depth of 12 m and a diameter of 630 mm in dry soils of density 3 category proposed by the device using the SB-170-1 concrete pump does not exceed 12 minutes. In this case, the total installed power of the drives is 15 kW

Description

The proposed technical solution relates to the field of construction and can be used both for the accelerated manufacture of foundation wells without excavation, and for the direct manufacture of vibroinjection rammed piles.

A device for tamping wells in the soil, containing a drive and a working body, comprising a housing, a working tip for breaking soil located at the lower end of the housing, a guide placed inside the housing in its longitudinal direction, a hammer made with the possibility of its movement along the guide, and the drive is made in the form of a linear pulsed motor consisting of a reactor and an armature with multipolar windings and a switching power supply, and the reactor with a multipolar winding is placed on the inner surface of the striker, and the anchor with a multi-pole winding on the outer surface of the guide (1).

However, this technical solution has low productivity and very limited technological capabilities (effective for diameters of not more than 200 mm), due to the relatively small amount of spring shock energy.

A new high-performance self-propelled crawler-mounted installation of the company "Bauer" for the device of bored piles is known, including a drilling tool for producing foundation wells with compacted walls without excavation, equipped with a special hole for supplying concrete to the bottom of the concrete mixture under pressure using an auxiliary tracked self-propelled concrete pump with the simultaneous lifting of the working body. After making concrete

the pile shaft is immersed armokarkas using a special vibrator. (2)

This technical solution has significantly limited functional and technological capabilities (the installation can perform piles with a diameter of only 450 to 600 mm and is used only on homogeneous compressible soils and is completely unacceptable for sandy soils with incompressible layers in the presence of gravel), is expensive and has an increased level of complexity and power consumption.

There is also a new, no less efficient Soilmec CM 120 machine manufactured by Soilmec, which is a modernized version of the domestic CM 120 machine equipped with a special double rotation system - a casing pipe and a hollow auger integrated into the inside of it, through which after immersion of the casing pipe and auger Before the design mark and the well is drilled, concrete is injected into it with the simultaneous lifting of both the casing and the screw. At the end of concreting (also with the help of an auxiliary concrete pump installation), an armature frame (also using a vibrator) is immersed in a well filled with concrete. (2)

However, along with obvious advantages over analogues (the possibility of application for almost all types of soils), this technical solution also has noticeable disadvantages and limitations. Designed to work with diameters of 350, 400 and 450 mm when using a double rotor, it is practically ineffective for use in highly adhesive soils (wet clays, etc.) and also has a high level of energy consumption and technical complexity

Also known is a vibro-punching device, which we have taken as a prototype, containing a working body, including a hollow, shaping body made in the form of a size-forming guide pipe with a removable flange at one end and a shaping working tip with an internal impact heel - on the other, and a vibro-drive in the form of a shock-absorbing mechanism with a striker, while the forming body and the vibration-shocking mechanism are made with the possibility of rigid communication with each other by means of a coupling coupling, one half-coupling otorrhea fixed to the removable flange of the forming body, and the other - on the body of the striker mechanism vibroudarnovraschayuschego, wherein vibroudarnovraschayuschy mechanism is configured in the form of unbalanced vibrator with a two-way electro-mechanical actuator, providing separate reciprocating

in the vertical and reciprocating rotational in the horizontal planes of motion, a drummer rigidly connected to the vibrator, located inside the mold body, placed with the possibility of reciprocating movement relative to its guide in the vertical plane and reciprocating with it in the horizontal plane and mounted coaxially on the heap working tip by means of roller bearings mounted on the body of the drummer according to the diameter of its sections through 120 degrees. with a turn relative to each other by 60 degrees. (3)

This technical solution has significant advantages over analogues, provides in comparison with them a significant expansion of technological capabilities and no less significant reduction in energy consumption.

However, this technical solution also contains limitations that hinder the expansion of the technological capabilities of the vibro-punching device.

They consist in the fact that the mechanical separation of a two-sided drive with one electric motor, along with a rigid but detachable coupling, allows the rotational movement to be transmitted to the forming body only at the stage of lifting it from a punched well.

The inability to use the rotating motion at the stage of immersion in the soil significantly limits the technological capabilities of the vibro-impact mechanism and vibro-punching device as a whole in increasing the productivity of work in the manufacture of foundation wells.

In addition, the efficiency of the double-sided drive circuit with one electric motor decreases with increasing diameter of the well. It requires the installation of an intermediate shaft, which, with the same functionality, complicates the design and reduces its reliability.

Finally, all bearing assemblies of a double-sided drive mounted on the housing of an unbalanced vibrator, when working on immersion of the vibratory punch device in the ground, are subject to significant dynamic loads, which leads to their premature failure, i.e. to reduce the life of the entire drive.

In addition, vibration-penetrating devices are highly effective in water-unsaturated soils of 1-3 density categories. In water-saturated soils or in dry loose sands, without immediate injection of concrete as the device rises from a punched well, it can be immediately covered with sand or covered with silt.

In addition, the dynamics of the reciprocating movements adversely affects the operation of the lifting mechanisms, causing torsional vibrations in the elements of its kinematic connections.

Thus, the task of creating the proposed technical solution is to further increase the efficiency of the vibratory punching device by eliminating these shortcomings, expanding technological capabilities and reducing energy consumption.

The problem is solved in that the vibro-punching injection device containing a working body, including a hollow forming body made in the form of a forming guide tube with a removable flange at one end and a forming working tip with an internal shock heel at the other, and a vibrating drive in the form of a vibro-shock mechanism with drummer, while the forming body and vibration-shocking mechanism are made with the possibility of kinematic communication with each other, and vibration-shocking fur the anism is made in the form of an unbalanced vibrator with a double-sided electromechanical drive, providing a reciprocating reciprocator in a vertical and reciprocating rotational horizontal plane of motion, rigidly connected to the vibrator, located inside the forming body, placed with the possibility of reciprocating movement relative to its guide in the vertical plane and reciprocating movement with it in a horizontal plane and mounted coaxially on the heel formoo a forming working tip, characterized in that the size-forming guide tube of the forming body is hollow and consisting of an inner - guide and external - size-forming shells, between which tubular concrete ducts are mounted, and the forming working tip has a connector in the horizontal plane, and the upper forming part has a length of size no more than 2 D, and is made with an internal impact heel and concrete channels, and the lower, piercing - in the form of a removable moving pe an erected cone, the base of which, equipped with a guiding shank, closes the outlet openings of the concrete-conducting channels when the device is immersed, and the kinematic connection of the shaping body and the vibro-shock mechanism is made constant and carried out by means of two movable guides spaced along the length of the striker, simultaneously ensuring the alignment of the striker and the shock heel of the shaping working handpiece, one-piece splined couplings, fixed coupling halves of which are fixed:

the upper one is on the removable flange, the lower one is on the inner side of the guiding shell of the forming body, and both movable half-couplings are on the body of the drummer of the vibration-shocking mechanism, while to ensure separate and combined reciprocating and reciprocating-rotational movements, the double-sided electromechanical drive of the unbalanced vibrator is made separate in in the form of two independent drives of the same name as part of two electric motors and two V-belt drives mounted on pedestals of the same name removable the flange of the forming body, so that the axis of rotation of the drive and driven belt pulleys of the same name are in the horizontal planes of the same axis of rotation of the drive shafts of the unbalanced vibrator, and the forming body is equipped with a slewing ring, the movable part of the cage of which is fixed to its flange, and the stationary on the suspension of the hoisting machine or on the guide carriage of the pile driver.

The proposed technical solution has significant advantages over the prototype and, having the presented structural elements and the connections between them, creates broad prospects for further expansion of functional and technological capabilities, with tangible energy saving, namely:

- to modernize the vibration-penetrating device according to the patent for utility model No. 40332, IPC E 02 D 7/18 (prototype);

- replace such methods of constructing foundation wells and rammed piles as drilling, immersion of casing pipes with vibrators below closed with a lost reinforced concrete shoe, drilling with rolling without excavation, immersion of the auger and casing pipe with a double rotation system, followed by or simultaneous injection of concrete wells;

- create a unified series of highly productive low-energy vibro-puncture injection devices for the manufacture of homogeneous, compact, with excellent structural characteristics and high load-bearing capacity of vibro-injection reinforced concrete rammed piles with a diameter of 400 mm, 530 mm, 630 mm, 820 mm and 1020 mm, in accordance with SNiP II B .5 - 67 *; in all types of soil, and thereby;

- reduce specific energy consumption indicators due to:

a) the use of separate independent electromechanical drives with two electric motors mounted on a shaping case free of oscillatory movements with horizontal axes of rotation of the belt drives in the same planes of the drive shafts of the unbalanced vibrator, as well as two movable guides of one-piece splined couplings that kinematically couple the vibro-shock mechanism with the immersed forming body that while maintaining all the advantages of the prototype, additionally This allows you to:

1 - to carry out both separate and combined reciprocating and reciprocating-rotational movements of the vibro-punching device, which will additionally and significantly facilitate its operation and reduce energy consumption for overcoming soil resistance;

2 - To reduce the alternating torsional stresses in the sections of the elements of the vibro-punching injection device from the torque by transmitting it with two spline couplings spaced along their length, which allows to reduce the size of these sections;

3 - release all bearing assemblies of the drives of the unbalanced vibrator from significant dynamic loads, which will increase their operational reliability, extend the service life and, therefore, reduce operational material costs;

4 - to exclude (due to the exclusion of the need for turning on and off, as well as the presence of a support-turning circle) premature wear of parts of the kinematic communication system of the forming body and vibration-shock mechanism, including parts of the service lifting mechanism, which will also reduce operating costs;

5 - to optimize the working conditions of V-belt drives, which will increase the efficiency of their work and reduce material costs for their operation.

b) the absence of oscillatory movements of the forming body in a vertical plane when the body is pressed into the ground, which eliminates its compaction, reduces the frontal resistance of the soil, and, as a result, reduces the energy consumption for overcoming it;

c) establishing the minimum length of the forming working tip, which reduces the resistance to immersion of the body in the soil on its side walls and makes this value calculated;

d) control the use of reciprocating movements when removing the forming body from a punched well dramatically reduces the resistance to rise;

- increase productivity by:

a) increase the speed of introduction of the device into the ground, in turn due to:

1. the lack of return movement of the forming body when immersed;

2. the ability to transfer the rotational motion to the forming body when immersed;

3. The optimal phase angle of the meeting of the striker with the fifth tip, at which the highest collision speed is ensured, and also due to the fact that the strike occurs at the optimal period of unbalance rotation.

b) accelerate the manufacture of vibroinjection rammed piles in all types of soil due to:

1. uniform supply of concrete mixture under controlled pressure under the working tip with its additional seal when lifting the device from a punched well;

2. Immersion of the armored carcass into the concrete-filled well with the device itself. As a result, significantly reduces the time and cost of manufacturing high-quality piles with increased bearing capacity, which creates a high economic effect.

The estimated technological cycle for the manufacture of this pile 12 m deep and 630 mm in diameter in dry soils of density 3 category proposed by the device using the SB-170-1 concrete pump does not exceed 12 minutes. In this case, the total installed capacity of the drives is 15 kW, which

corresponds to such a criterion of a utility model as “novelty”.

The figure 1 - shows a vibro-puncture injection device.

Vibro-punching injection device consists of a forming body 1 (Figure 1) and a vibro-shock mechanism 2, made with the possibility of constant kinematic communication between each other by means of two movable guides of one-piece splined couplings 3, the fixed coupling halves of which are fixed: the upper one on the removable flange 4, the lower one on the inner the side of the guide shell 6 * of the forming body 1, the movable coupling halves are on the body of the drummer 10 of the vibration-shocking mechanism 2.

The forming body 1 consists of a cone-shaped hollow part extending to the ground with the inner fifth of the forming working tip 5, forming a predetermined diameter of the well, and a hollow size-forming tubular guide 6, consisting of an internal-guide 6 * and an external - size-forming 6 ** tubular shells, providing a given depth of the well , and closed from above by a flange 4 with through holes for the striker 10 of the vibro-shock mechanism 2 and tubular concrete 11.

The forming working tip 5 has a connector in the horizontal plane, the upper forming part 5 * being hollow with an internal impact heel and concrete channels, and the lower 5 ** punching in the form of a removable inverted cone, the base of which closes the outlet openings of the concrete channels when the device is immersed .

Vibrating shock mechanism 2 includes an unbalanced vibrator 7 with two separate drives 8 and 9, provides both separate and combined reciprocating and reciprocating movements of the kinematically rigidly coupled to the vibrator hammer 10 located inside the forming body 1 with the possibility of movement with it in the horizontal plane and relative to its size forming guide 6 * in the vertical plane, coaxially fifth of the forming working tip 5 by means of slotted m uft 3.

The vibrator housing 7 contains two drive shafts 12, 13 and two driven shafts 14, 15 installed in the bearing support units, on which the unbalances 16 and 17 are mounted in pairs, and which are kinematically coupled to each other in pairs in the horizontal and vertical planes by the gear wheels 18 and 19.

The drive shafts 12 and 13 by means of belt drives 22 and 23 receive rotation from the electric motors 8 and 9 mounted on the pedestals 24 and 25 of the removable flange 4, respectively, so that the axis of the drive shafts 12 and 13 and the axis of the output shafts of the electric motors 8 and 9 are in the same parallel horizontal planes.

In this case, the driving pulleys 26 and 27 of the belt drives 22 and 23 are mounted on the output ends of the shafts of the electric motors 8 and 9, and the driven 28 and 29 are mounted on the ends of the driving shafts 12 and 13 of the vibrator 7, respectively.

The upper 20 movable and lower 21 stationary parts of the holder of the slewing ring 30, connecting the entire device with the lifting mechanisms of the pile rig or lifting machine (not shown in the figure), are mounted on the removable flange 4 of the forming body 1 and in the housing of the guide carriage of the copy machine or special GPM suspensions, respectively.

Vibro punch injection device operates as follows.

By means of a lifting machine or a pile driver, the device is displayed on the axis of the future well. In this position, when the drive motor 8 is started, the torque is transmitted through the belt drive 22 to the drive shaft 12 and then kinematically connected in a horizontal plane through the gears 18, the driven shaft 14. Thus, the rotation of the unbalances 16 creates a disturbing force, resulting in a reciprocating movement in the vertical plane of the whole mechanism 2, which through the hammer 10, guided by the splines x pa couplings 3, acts on the heel strike the tip 5 of the body 1, by immersing the latter in surrounding soil concentrically pushing and compacting it.

In this case, the electric motor 9 and, accordingly, the belt drive 23, the driving 13 and the driven 15 shafts, as well as the unbalances 17 mounted on them, which create a reverse-rotational movement in the horizontal plane to the entire mechanism 2, remain motionless.

The drive of this movement include, if necessary, to overcome the growing resistance of the soil when immersing the device.

In this case, when starting the engine 9, the torque through the belt drive 23 is transmitted to the drive shaft 13 and then kinematically connected in a vertical plane through the gears 19 of the driven shaft 15.

The unbalances 17 obtained in this way create a disturbing force, which causes the entire horizontal axis to rotate in the horizontal direction.

vibration-shocking mechanism 2, which through spline couplings 3 transmits this movement to the forming body 1.

Thus, the possibility of both separate and combined reciprocating and reciprocating rotational movements of the device during immersion, significantly accelerating this process, is realized.

Upon reaching a predetermined depth by means of the lifting mechanism, the device is removed from the punched well. At this moment, the concrete pump is turned on (not shown in Fig. 1) and the concrete mixture under pressure, lowering the lower conical part of the tip 5 **, starts to flow evenly along the concrete ducts 11 under the device tip, compacting under the influence of vibration and forming a uniform pile structure.

In parallel, during the operation of the electric motor 9, the rotational movement of the forming body 1 continues, which throughout the entire lifting of the device smooths the compacted walls of the formed well and additionally seals the concrete mixture filling the well, after which the armature frame is immersed in it.

The rotations of the forming body 1 in the rolling bearings of the slewing ring 30 sharply reduces torsional stresses in the sections of the elements of the vibro-punching injection device and its suspension elements to the lifting mechanisms (not shown in FIG. 1).

The positive effect of the use of this technical solution is expressed in increasing work efficiency due to: the abovementioned expansion of the technological capabilities of the device; increase the productivity of manufacturing foundation wells without excavation and vibroinjection reinforced concrete rammed piles, in the full range of rammed piles in accordance with SNiP II B.5 - 67 *, with a significant reduction in energy and material costs; providing compaction of the surrounding soil and, as a result, increasing the bearing capacity of piles; reducing the volume and cost of excavation and pile foundations in general.

Sources of information:

1. USSR copyright certificate No. 1818415, IPC E 02 D 7/20.

2. MV Lebedev and others. "New types of bored piles." Collection of scientific articles of the International scientific-practical conference, Penza, 2004

3. RF, Utility Model Patent No. 40332, IPC E 02 D 7/18 (prototype), 2004

Claims (2)

1. Vibro-punching injection device containing a working body, including a hollow shaping body, made in the form of a size-forming guide tube with a removable flange at one end and a shaping working tip with an internal impact heel - on the other, and a vibro-drive in the form of a vibro-shock mechanism with a striker, the forming body and the vibroimpact mechanism are configured to kinematically communicate with each other, and the vibroimpact mechanism is made in the form of an unbalanced an oscillator with a double-sided electromechanical drive, providing reciprocating in the vertical and reciprocating in the horizontal planes of motion rigidly connected to the vibrator drummer located inside the forming body, placed with the possibility of reciprocating movement relative to its guide in the vertical plane and reciprocating with it in the horizontal plane and mounted coaxially on the heel of the forming working tip, from characterized in that the size-forming guide tube of the forming body is hollow and consisting of an inner - guide and outer - size-forming shells, between which tubular concrete ducts are mounted, and the forming working tip has a connector in the horizontal plane, and the upper forming part is made with an internal impact heel and concrete-conducting channels, and the lower, piercing - in the form of a removable movable inverted cone, the base of which, equipped with a guide shank m, closes the outlet openings of the concrete-conducting channels when the device is immersed, and the kinematic connection of the forming body and the vibration-shocking mechanism is made constant and is carried out by means of two movable guides spaced along the length of the drummer, while simultaneously ensuring the alignment of the drummer and the shock heel of the forming working tip, one-piece splined couplings, the fixed coupling halves of which fixed: upper - on a removable flange, lower - on the inside of the guide shell of the mold the main body, and both movable coupling halves - on the body of the drummer of the vibro-shock mechanism, while to ensure separate and combined reciprocating and reciprocating-rotational movements, the two-sided electromechanical drive of the unbalanced vibrator is made separate in the form of two independent drives of the same name consisting of two electric motors and two V-belt drives mounted on the pedestals of the same name on a removable flange of the forming body, so that the axis of rotation of the same leading and lead Wash pulleys of belt drives are located in the same horizontal planes of the axis of rotation of the drive shafts of the unbalanced vibrator. 2. Vibro-punching injection device according to claim 1, characterized in that the forming body is equipped with a slewing circle, the movable part of the cage of which is fixed on its flange, and the stationary part on the suspension of the lifting machine or on the guide carriage of the copier.