KR20030055704A - The tamping method which uses the vibrating hammer and that system - Google Patents

Abstract

The present invention relates to a compaction method and compaction apparatus using a vibration hammer.

The present invention is the first compacting process for compacting by the compaction equipment is installed flat plate compaction plate; A second compaction step of compacting the ground, which has undergone the compaction process, into a compaction plate on which a compacting rod is installed; By performing the third compaction process of compacting again by using the flat plate compaction plate on the ground which has undergone the compaction process, it is possible to easily compact the dredged landfill, sandy soil, alluvial and waste landfill, There is an effect to reduce the vibration and noise generated during the compaction process.

In addition, by installing a vibration tamper on a crane with a low height leader, it is possible to prevent shortening of construction period and inadequate construction while reducing the influence of wind blowing on construction sites such as plains and deltas. It is effective to reduce the construction cost.

And because the weight of the equipment is light, there is an effect that can quickly and easily enter and move the equipment on the soft ground.

Description

Compaction method using vibratory hammer and its device {The tamping method which uses the vibrating hammer and that system}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a compaction method using a vibration hammer and a device thereof, and in particular, a vibration tamper (hereinafter, referred to as "a crane") in heavy equipment such as a low center crane, excavator, bulldozer, etc. Vibratory hammer "and a compaction plate at the lower end of the vibration hammer to facilitate the entry and movement of the equipment on the soft ground, and a rod-shaped compaction rod at the bottom of the compaction plate installed at the lower end of the vibration hammer. Dredging reclamation ground is installed by combining a plurality of rods, touching the compaction rods with the ground to be compacted, and then tightening the gaps between the soil and rock particles forming the ground by applying vibration and impact force by a tamper. , Sand, alluvial and landfills can be easily compacted, and vibration and noise generated in the process of compacting the ground can be reduced. It would be.

In general, alluvial lands that form low plains, triangles, valleys, etc. are called soft grounds.

If the building is built on such a soft ground, the ground is destroyed or consolidation settlement occurs due to the load of the building, and the ground is improved to stabilize or stabilize the ground directly or indirectly to prevent it.

For example, when roads and railroads are made on soft ground, the pile up is most frequently performed. The improvement of soft ground, which is the basis of pile up, is mainly by sand draining the clay layer by consolidating and dehydrating clay layers. Increase strength.

In recent years, sand drain is also applied by applying various high-concentration agents to the sand drain to chemically harden the surrounding ground or to harden the sand drain to consolidate the clay layer and strengthen the sand drain.流 工 法) is used.

Such ground improvement works are mainly applied to the pile of soil, and most of them take a method of supporting the foundation ground by type of concrete piles without ground improvement.

In addition, when the foundation ground of an already installed structure is weakened due to various reasons or the damage is expected due to the excavation of adjacent ground, it is necessary to reinforce the ground itself in the state that it is impossible to directly reinforce the concrete pile. The technique is used.

This injection method is to stabilize cement by injecting cement and chemical liquid into the ground at high pressure, but it is effective in the sandy ground but it is difficult to inject clay or silty fine ground of silt. There is no.

Particularly effective methods for clay ground include electroporation method for applying dehydration and electrochemical stability by applying DC voltage to the ground, and sintering method for excavating smoke passages in the ground and melting and solidifying the surroundings with high heat. This is but not used well.

On the other hand, by directly pressing the surface layer in addition to this method, by using a compacting method to reduce the voids between the particles to strengthen and stabilize the ground.

This compacting method is to compact the ground in order to increase the density of the sandy ground and increase the stability, and the apparatus or machine used in this method is called a compacting machine (tamping machine).

Compaction machines used in this process include roller systems such as load rollers, tandem rollers, compaction rollers and vibration rollers, and vibration compactors, rammers and tampers.

Load rollers are commonly found at road construction sites, and are used for finishing pavement and foundation work. Compaction rollers are used for compacting soil due to the large number of protrusions on the roller part. Used.

In addition, the vibrating roller is a compacting effect by the vibration of the roller portion, although the effect is comparable to that of the 15t roller, even if it is a relatively light weight of 2 to 4t, the vibratory compactor is a flat plate (平板 狀).

The rammer is a compact hand-operated machine that can harden a relatively narrow portion by impact.

On the other hand, vibration compactors, rammers, and tampers, which are used to lay foundations using large grains of coarse stone, are compacted by adding mechanical forces other than steel wheels or the weight of the impact plate to the final part to be compacted. At the same time, the structural parts are made to be strong, and at the same time, the shock absorber is installed to form durability so that vibration is not transmitted to other parts except the working device.

Vibration compactor is a machine for compacting by vibrating a round cylindrical iron wheel or striking plate (vibration plate, compaction plate), which is a compaction device, by vibrating compaction. Compaction capacity is variable by weight and vibration force.

The rammer is equipped to use the explosive energy of the internal combustion engine to compact it by the falling weight generated when the machine itself leaps and falls freely, and it supports manpower and the limits of the internal combustion engine to obtain the power to leap. Due to the weight limit, it is made compact and easy to compact and move in narrow places.

The tamper generates the vibration as the spring attached to the upper part expands while the piston moves up and down linearly by the up and down motion of the connecting rod, and the gas jumps by the expansion and contraction of the lower spring. At the same time, the free fall impact force is transmitted to the striking plate, and at the same time, the expansion and extension of the upper spring and the lower spring elongate alternately, and the vibration and shock are continuously transmitted to the striking plate.

The method of compacting the ground using such a compaction machine generally includes a layer compaction method, a dynamic compaction method, a large vibration hammer compaction method, and the like.

In the present invention, the compaction method and the compaction apparatus used in the method will be described as an example.

1 is an exemplary view schematically showing the structure of a compaction apparatus according to the prior art, the compaction equipment 100 is a crane 110 to match the compaction position while moving on the ground, the wire winding portion 120 and the arm portion It consists of 130 and the compaction unit 140.

In this case, the crane 110 is provided to have a good orbit with a light weight while moving well, and there is a power generating unit, a control unit and an operation unit, and a steering device necessary for movement.

The arm portion 130 has a plurality of beams (131, 132, 133) having a predetermined length is connected to one is fixed to one side of the crane 110, the height is lowered on the wire 121 wound on the wire winding part 120 To be controlled by

The compaction unit 140 includes an impact piston having two pressure surfaces, not shown, an accumulator, an inlet tube for supplying pressure fluid to the impact hammer, a return tube for guiding pressure fluid out of the impact hammer, a high pressure and A pressure connected to the main valve for reciprocating the shock piston and reciprocating the shock piston, the inlet pipe being driven by an internal pressure, and guiding the low pressure to alternately act on the at least one pressure surface of the shock piston. Vibration unit 142 is provided with a known vibration hammer 141 consisting of a control pressure valve connected to control the main valve during the return of the impact piston, so that the control valve can be restrained when the preset value is exceeded. It is connected to and fixed to the hook 122 provided at the end of the wire 121 is vertically stretched via the upper end of the arm portion 130 in a state connected to the.

In addition, the lower end of the vibration hammer 141 is coupled to replace the compaction plate 143 having a predetermined area.

The compaction device operates the crane 110 to move the compaction unit 140 to the compaction position of the ground where compaction construction is required, and then, when the operation unit is operated, the impact generated from the vibration hammer 141 is fixed to the lower portion thereof. As the vibration generated from the vibrator 142 is transmitted together with the plate 143 to the ground, the ground can be efficiently pressed and compacted.

2 and 3 is an exemplary view showing the continuous compaction and the block crossing compaction construction using such a compaction device, when the tamper body is stable, the compaction unit 140 is moved to a to f in consideration of the situation of the ground.

At this time, the lap length of the tamper band is about 10 cm, and then the surface is cleaned up before the first voltage and the second voltage construction.

This construction sequence first takes the form of surface clearance → ground elevation measurement → setting the tamper position of the tamper → first voltage operation → surface clearance → second voltage clearance → ground elevation measurement → finish.

However, since the height of the arm portion 130 rotatably installed on the crane 110 in the process of compacting the ground is several tens of meters or more, the work is not efficient due to the influence of the wind blowing on the plain or delta. The slow progress of the compaction work led to the problem of lengthening the construction period, as well as the uneconomical problem of additional costs.

In addition, when the compaction plate that performs the compaction work is in the form of a flat plate, and there are gravel, amber stones, lumps, and construction wastes in the ground, the gaps between the rocks and the like are not completely filled even when the compacting work is performed. After the compaction work is completed, after the compaction work is completed, the ground falls or cracks due to seasonal changes in the process of using it as a road or a runway, and when the building is barked on the ground where the compaction work is completed, There was a problem such as cracking or even collapse of the building due to the destruction of the ground or consolidation settlement.

The present invention has been created to solve the above problems, by mounting a vibratory hammer in a crane having a low height leader, and equipped with a compaction plate at the lower end to fill the ground to enter and move the equipment to the soft ground. In addition, the plurality of compaction rods are coupled to the lower portion of the compaction plate installed at the bottom of the vibratory hammer, and the ground is formed by applying vibration and impact force by hydraulic pressure after contacting the ground to be compacted. By filling the voids between the soil and rocks, the dredged landfill, sandy soil, alluvial and waste landfills can be easily compacted, and vibration and noise generated during the ground compaction can be reduced. It is an object of the present invention to provide a compaction method using the vibration hammer and the device.

The present invention for achieving the above object is the first compacting process to compact by the compaction equipment is installed flat plate compaction plate; A second compaction step of compacting the ground, which has undergone the compaction process, into a compaction plate on which a compacting rod is installed; The object of the present invention is to provide a compaction method using a vibratory hammer, characterized in that to perform a third compaction step of compacting again using a flat plate compaction plate on the ground subjected to the compaction process.

In addition, the first compacting process for compacting the ground using a flat plate compaction plate of the compaction equipment; A second compaction step of compacting the ground by using the compaction plate 60 on which the compaction rod 61 is installed on the ground where the compaction process is completed; A third compaction step of compacting the ground using a flat plate compaction plate on the ground where the compaction process is completed; A fourth compaction step of compacting the ground using a compaction plate 60 having a compaction rod 61 on the ground where the compaction process is finished; The object of the present invention is to provide a compaction method using a vibratory hammer, characterized in that to perform a fifth compaction process of compacting the ground using a flat plate compaction plate on the ground after the compaction process.

In addition, to provide a compaction method using a vibratory hammer, characterized in that the ground is compacted by alternately compacting the plate-shaped compaction plate of the compaction equipment and the compaction plate with a compaction rod installed on the bottom several times in sequence. This is achieved.

In addition, the object to provide a compaction method using a vibration hammer characterized in that the step of compacting the ground using a compaction equipment consisting of a compaction plate having a rod-shaped compaction rod detachably provided by the binding means in the lower portion. Is achieved.

On the other hand, the vibration hammer is mounted on a crane having a low height reader, and the compaction equipment is installed to be detachably attached to the lower end, the compaction plate is installed using a binding hole on the lower end of the vibration hammer, The object is achieved in the lower part of the compaction plate by providing a compaction device using a vibration hammer, characterized in that the rod-shaped compaction rod is installed to be detachable by the binding means.

In addition, the binding means is to provide a compaction device using a vibratory hammer, characterized in that the ball is formed on the inner surface of the insertion hole formed in the compaction plate, and formed by fixing the ring-shaped fixing groove on the top of the compaction rod. The object is achieved.

In addition, the binding means is to form a female screw on the inner surface of the insertion hole formed in the compaction plate, to form a male screw on the top of the compaction rod to provide a compaction device using a vibration hammer, characterized in that the screw is coupled to achieve the object. do.

In addition, the binding means is inserted into the formed hole formed in the compaction plate is inserted into the compaction rod having a through hole at the top, and the object is provided to provide a compaction apparatus using a vibration hammer, characterized in that the pin is inserted into the through hole fixed. .

In addition, the object of the compaction bar is to provide a compaction device using a vibratory hammer, characterized in that the lower portion of the compaction plate is configured in the form of a lattice or radial and the lattice and the radial form.

1 is an exemplary view schematically showing a compaction apparatus according to the prior art.

Figure 2 is an illustration showing a continuous compaction construction using a compaction apparatus according to the prior art.

Figure 3 is an exemplary view showing a compaction construction across the compartment using a compaction apparatus according to the prior art.

4 is an exemplary view showing a configuration of a compaction apparatus according to the present invention.

5 is a perspective view of a compaction plate used in the compaction apparatus according to the present invention.

Figure 6 is a bottom perspective view of the compaction plate used in the compaction apparatus according to the present invention.

7 is a cross-sectional view taken along the line A-A of FIG.

8 is a perspective view of the compaction bar provided in the compaction apparatus according to the present invention.

Figure 9 is a longitudinal cross-sectional view showing a coupling state of the compaction bar provided in the compaction apparatus according to the present invention.

10 is a perspective view of another compacting bar provided in the compaction apparatus according to the present invention.

Figure 11 is a longitudinal cross-sectional view showing a coupling state of the other compaction bar provided in the compaction apparatus according to the present invention.

12 is a perspective view of another compacting bar provided in the compaction apparatus according to the present invention.

Figure 13 is a longitudinal cross-sectional view showing a coupling state of another compaction bar provided in the compaction apparatus according to the present invention.

<Brief description of symbols for main parts of the drawings>

10: crane 30: leader 40: vibratory hammer

50: binding sphere 60: compaction plate 61: compaction bar

61b: retaining groove 61d: through hole 61e: male thread

66: insertion hole 70: ball fastener 80: split pin

90: compaction equipment

Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings.

The compaction apparatus 90 using the vibration hammer according to the present invention, as shown in Figures 4 to 8, the crane 10, the support portion 20 is installed to be rotatable in front of the crane 10, and the support portion ( 20 is assembled with a binding hole 50 at the lower end of the vibration hammer 40 and the vibration hammer 40 provided on one side of the leader 30 and the vertically fixed to have a predetermined height at the free end of the (20) It is composed of a fixed flat plate compaction 60.

Here, the crane 10 is a crawler body 11 installed in the lower portion of the crane body 11 to move the crane body 11 to the working position and the crane body 11, the various operation devices are not shown And, it is composed of a power generating unit 13 installed in the rear of the crane body (11).

The support portion 20 is hinged to the support 21, the lower end protruding forward and downward of the crane body 11, the upper end is connected to the hydraulic cylinder 22 is to be rotated at a predetermined angle have.

The leader 30 guides the vertical movement while supporting the load of the vibratory hammer 40 and the compaction plate 60, and a pulley part 31 is provided on the upper part to catch the wire.

The vibratory hammer 40 includes an impact piston having two pressure surfaces (not shown), an accumulator, an inlet pipe for supplying pressure fluid to the impact hammer, a return pipe for guiding the pressure fluid out of the impact hammer, and a high pressure. And a main valve for guiding the low pressure to alternately act on at least one pressure surface of the shock piston, the main valve reciprocating the shock piston, an inlet pipe, driven by an internal pressure, and acting on a control pressure valve. It is intended to have a configuration known as a control pressure valve connected to control the main valve during return of the impact piston so that the control valve can be restrained when the pressure exceeds a preset value, and wires not shown. The top is connected to.

The compaction plate 60 is to crush the gravel and amber stones and lumps in the upper or the ground of the soft ground to fill the gap between the particles of the soil and rock that forms the ground, the compaction plate (60) A plurality of compaction rods 61 protruding to the bottom of the) is formed separately or integrally.

Here, the compaction plate 60 is provided to have a predetermined thickness in a square shape, the edge is provided with an auxiliary compaction plate 62 having a form that is expanded upward.

In addition, the compaction plate 60 is welded or the like so that the reinforcing member 63 has a lattice shape in a space provided by the upper portion of the compaction plate 60 and the inner surface of the auxiliary compaction plate 62 in order to increase the strength while reducing the load. It is fixed by means of.

In addition, wire fixing holes 63a are formed at both corners of the reinforcing member 63 to facilitate the manufacture and transportation of the compaction plate 60, and a plurality of fastening holes are formed in the center of the reinforcing member 63. The flange 65 which has is provided integrally.

In addition, the compaction plate 60 forms a plurality of insertion holes 66 having a radial or lattice form or a mixture of radial and lattice forms so that the compaction rod 61 can be installed or separated.

The compaction rod 61 is a compaction rod body 61a having a predetermined length filled therein, and an upper end portion thereof is formed with a fixing groove 61b having a ring shape and a locking ring 61c integrally formed at the upper end thereof. Easily crushed amber stone and ingots are provided in a pointed form.

The compaction rod 60 has a diameter of about 10 to 100 cm, and preferably has a length of 10 to 20 cm, and can be used to have a cross section of a rectangle and a polygon other than a circle.

In addition, one side of the insertion hole 66 is provided with a fastener 70 having a ball 72 to which the elastic force of the elastic member 71 is applied, so that the compaction rod body 61a is fitted into the insertion hole 66. It is provided to prevent separation. At this time, in order to prevent the ball 72 to fall into the inner side can be used to be provided with a separation prevention or the like is inserted into the upper end of the insertion hole (66).

Method for compacting the soft ground using the compaction equipment of the present invention configured as described above is as follows.

First, by operating the hydraulic cylinder 22 by operating a non-illustrated operation device in the crane body 11, the support 20 rotates counterclockwise around the support 21 so as to be in front of the support 21. The vertically connected reader 30 is inclined.

While the leader 30 is inclined, the compaction plate 60 installed at the bottom thereof is spaced apart from the compaction surface, and moves to the place where the ground compaction is driven by driving the endless track 12 in the spaced apart state.

When the hydraulic cylinder 22 is operated in reverse after moving to a place for ground compaction, the support unit 20 rotates clockwise around the support 21 to make the inclined leader 30 perpendicular to the ground. , The compaction plate 60 provided at the lower end of the vibration hammer 40 abuts on the ground.

In this state, while operating the vibration hammer 40, the impact force and vibration force is the first compaction of the ground through the flat plate compaction plate provided at the bottom.

Subsequently, the first compaction is completed, and the second compaction is performed once again using the compaction plate 60 in which the compacting rod 61 of the present invention is installed.

At this time, by the impact force and vibration force transmitted to the compaction plate 60 and the compaction rod 61, the gravel or amber stone and stone in the upper or inside of the soft ground is pulverized, the compaction plate 60 is the entire upper surface of the ground As the compaction rod 61 is inserted at a predetermined depth in the state of pressing, the grinding ratio is not high, and the pores are reduced to sufficiently compact the soft ground.

When the compaction rod 61 provided at the lower end of the compaction plate 60 is damaged in the process of compacting the ground as described above, the compaction rod body 61a using a tool such as a wrench in the state of lifting the compaction plate 60 upward. ), And pulling the wrench in the distal direction of the compaction rod body 61a, the elastic member 71 of the ball fixing part 70 is compressed and the ball 72 is separated from the fixing hole 61b. 61 is removed from the insertion hole 66, and replaced with a new one.

The new compaction rod 61 is replaced by the compaction plate 60 in the process of compacting the ground by fixing the ball 72 in the press-fitted state by the elastic force of the elastic member 71 in the fixing hole 61b formed at the upper end thereof. Since the compaction rod 61 is prevented from being separated.

Meanwhile, as another example of compacting the ground, first, the ground is first chopped using a flat plate compaction plate of the compaction equipment, and then the ground is ground using the compaction plate 60 in which the compaction rod 61 is installed on the ground first compacted. Minced by car

Next, the tertiary ground is compacted by using a flat plate compaction plate on the ground where the second compaction is finished, and the fourth compaction is performed on the compaction plate having the compaction rods again on the ground ground to the third ground.

Next, the ground becomes uneven with 4th compaction and firmly solidifies the soft ground through the 5th compaction process using a flat plate compaction plate again.

In addition, the plate-like compaction plate and the compaction plate installed on the lower portion of the compaction can be efficiently compacted according to the softness of the ground by performing the compaction operation alternately several times.

On the other hand, in the present invention, but the fixing means to form a ball fastener 70 in the inner side of the insertion hole 66 in the compaction plate 60 to fix the compaction rod 61, as shown in Figs. A through hole 61d may be formed at the upper end of the compaction rod 61, and the split pin 80 may be inserted to prevent separation.

In addition, the other binding means according to the present invention, as shown in Figure 12, 13, forms a female screw on the inner surface of the insertion hole 66 formed in the compaction plate 60, the male screw on the top of the compaction rod 61 It can be used to form a screw (61a).

In addition, the present invention was provided with a compaction plate at the bottom of the vibration hammer, but the compaction work, but the same compaction work can be performed even if the compaction plate is connected to the lower end of the hydraulic hammer for the pile driving generally used.

The present invention by using a compaction plate having a flat bottom plate and a compaction plate protruded to a predetermined length to repeat the ground alternately by compacting the ground gravel, amber stone and stone and construction waste in the ground is broken By reducing the gaps between the soil and rocks that are being formed, it is possible to reduce the vibration and noise generated while efficiently compacting the soft ground, and the vibration hammer is mounted on a crane with a low leader. It is effective to shorten the construction period and reduce the construction cost by allowing the entry and movement of equipment to the inside quickly and being less affected by the wind blowing during construction.

Claims (9)

A first compacting process of compacting by compaction equipment with a flat compacting plate; A second compaction step of compacting the ground, which has undergone the compaction process, into the compaction plate 60 in which the compacting rod 61 is installed; The compaction method using a vibration hammer, characterized in that for performing the third compaction step of compacting again using a flat plate compaction plate on the ground after the compaction process. A first compaction process of compacting the ground by using a flat compaction plate of compaction equipment; A second compaction step of compacting the ground by using the compaction plate 60 on which the compaction rod 61 is installed on the ground where the compaction process is completed; A third compaction step of compacting the ground using a flat plate compaction plate on the ground where the compaction process is completed; A fourth compaction step of compacting the ground using a compaction plate 60 having a compaction rod 61 on the ground where the compaction process is finished; The compaction method using a vibration hammer, characterized in that for performing the fifth compaction step of compacting the ground using a flat plate compaction plate on the ground after the compaction process. Compaction method using a vibratory hammer characterized in that the ground is compacted by alternately compacting the flat plate compaction plate of the compaction equipment and the compaction plate 60 having the compaction rods 61 installed on the lower part in order. . The method according to claim 1, wherein Compaction method using a vibration hammer characterized in that the ground compaction using a compaction equipment consisting of a compaction plate 60 having a rod-shaped compaction rod (61) provided detachably by a binding means to the lower portion. The vibration hammer 40 is mounted on the crane 10 having the reader 30 having a low height, and the compaction apparatus 90 is installed at the lower end thereof so that the compaction plate 60 is detachably installed. ) Is installed using the binding hole 50 at the lower end of the vibration hammer 40, the lower portion of the compaction plate 60 is configured by installing a rod-shaped compaction rod 61 to be detachable by the binding means. Compaction device using a vibration hammer. The method of claim 5, The binding means for inserting and fixing the compaction rod 61 into the compaction plate 60 forms a ball fixture 70 on the inner surface of the insertion hole 66 formed in the compaction plate 60, Compaction device using a vibratory hammer, characterized in that configured to be detachable by forming a ring-shaped fixing groove (61b) on the top. The method of claim 5, The binding means for inserting and fixing the compaction rod 61 into the compaction plate 60 is an insertion hole 66 formed in the compaction plate 60 to insert a compaction rod 61 having a through hole 61d formed at an upper end thereof. Compaction device using a vibration hammer, characterized in that configured to be fixed by inserting the split pin 80 in the through-hole (61d) of the compaction rod 61 exposed by the insertion hole (66). The method of claim 5, The binding means for inserting and fixing the compaction rod 61 into the compaction plate 60 forms a female screw on the inner surface of the insertion hole 66 formed in the compaction plate 60, and the male screw (top) of the compaction rod 61. 61e) compaction apparatus using a vibration hammer, characterized in that configured to be screwed. The method according to claim 5, wherein The compaction rod (61) is a compaction apparatus using a vibratory hammer, characterized in that formed in the form of a lattice form or a radial form and the lattice and the radial form in the lower portion of the compaction plate (60).