ES2331238T3 - IMPROVEMENT ON THE GROUND. - Google Patents

Abstract

A cavity 16 is formed by repeatedly vibrating an elongate lance member into the ground, withdrawing it, and introducing additional material into the cavity prior to the process being repeated. The additional material is formed by mixing soil and ground amelioration material, particularly a cementitious binder. The cavity 16 will burst outwardly, such as at 38, as additional material is introduced and compacted. The process is repeated until heave 39 is detected in the ground, around the position being treated. <IMAGE>

Description

Improvement in the field.

The present invention relates to improvements in the terrain, particularly, but not exclusively, before the edification.

The document GB-A-2286613 describes a land improvement procedure which includes forcing one or more mandrels inside the land to be improved applying a vibratory force provided with at least one globally vertical component of the movement to the mandrel 10 up reach previously determined depths by extracting after that the drill chuck or the drills that have been formed on the ground, filling the drill or drills with a particulate material and, optionally, reintroducing the mandrel inside the hole to compact and move out the particulate material before refilling the drill again with a additional particulate material.

The document GB-A-2366819 describes a pillar formed by creating a vertical drill in the ground and filling the drill with particulate material such as stones. Be creates a vacuum at the top of the pillar by dropping a device on the pillar. The vacuum is filled with concrete. About him Pillar can form a concrete slab.

The present invention provides a land improvement procedure in which a matrix of locations are improved locally forming elongated cavities, introducing additional material between the cavities and providing improved shutter training at each location forming a depression on the surface and filling the depression with material characterized because the cavities are formed by repeatedly vibrate a spear element inside the ground in each location, extracting the spear element and returning to insert the spear element after it has been introduced additional material, to compact the additional material and the surrounding terrain, and because the additional material includes material of ground improvement and a surface layer of the terrain looks altered to mix the ground with a material to improve the land to form a pavement which interconnects the Shutter formations in improved locations.

In this report, the term "material of ground improvement "refers to a material which consists of, or includes, a binder capable of increasing cohesion in the material such as earth. The binder can be a material that It can set such as a cementitious material. Preferably, the binder is cement. Alternatively, it You can use asphalt as a binder. The material to improve the terrain can also incorporate additional granular material such such as pulverized fuel ash and material hydrophilic such as quicklime, to help control pressure Interstitial material and surrounding terrain. The term "improved land" is used to refer to land, preferably locally derived, within whose terrain it has been mixed ground improvement material.

The spear element can be entered repeatedly in the same position, until a elevation on the ground around that position.

The surface depressions are preferably formed by the impact from a weight that is dropped. The weight that is dropped can be a conical element provided with a nose relatively narrow, which forms a point of first contact with the ground and that widens from the nose. The weight that is drops can be widened to a width greater than the spear element, to widen out that way the part upper material compacted by the spear element.

An example will now be described in more detail of the present invention, by way of example only, and with reference to the attached drawings, in which:

- Figure 1 is an elevation of an element of lance for use with the process of the invention;

- Figures 2 and 3 illustrate the sequence of stages of a first part of the procedure;

- Figure 4 illustrates an elevation of a weight to use it in a second part of the procedure;

- Figures 5, 6 and 7 show the sequence of the stages of the second part of the procedure; Y

- Figure 8 illustrates the third part of the procedure and the final condition of the land.

The drawings illustrate a procedure of soil preparation according to the present invention. He procedure is primarily intended for bad ground the which has a low natural load bearing capacity. A Bad terrain can include, for example, peat. An expert reader you will understand that in many practical situations, you cannot make a clear delineation between a good terrain and a terrain bad, there is a continuous spectrum of terrain quality. Of course, the term "marginal terrain" is sometimes used to refer to the terrain which is between the terrain Good and bad. Therefore, the choice of technique to be will be used according to the quality of the land in its natural state, the nature of the burden imposed by the building to be built and other factors.

Figure 1 shows a lance element 14 for use it in the process of the invention. The lance is used to provide a local land improvement at each location of an array of locations across the area to be improved. In each location, lance 14 is directed into the field by vibration, to form an elongated cavity 16 (figure 2) on the ground 17. The lance 14 is then extracted and the cavity 16 it is filled with additional material 19. The additional material may be of particulate nature, such as stones, gravel or others mixtures of gravel and sand. Alternatively the additional material It can be material to improve the ground or improved land.

Preferably quicklime is included in the additional material. The presence of quicklime, which is highly hydrophilic, it causes the soil water to be extracted in large measurement of surrounding terrain 17, causing a reduction Significant local interstitial pressure. Therefore, the quicklime addition is particularly preferred in locations in which excessive interstitial pressure is expected to be a trouble. The reduction of interstitial pressure helps to overcome any tendency of fine-grained land to liquefy during the process.

The lance 14 has a conical trunk shape inverted In one example, the lance 14 may have a diameter of approximately 300 mm at its upper end and approximately 150 mm at its lower end 14A, with a length of approximately 3 m. The lance 14 is set to extend down, substantially vertically, from a vibrator arrangement 18 which applies a vertical swing to the lance 14 during the utilization. For example, the vertical swing can have a amplitude of approximately 25 mm and a frequency of 1500 cycles per minute, with a nominal impact per stroke in excess of 40 t. He angle of the lance cone 14 may be low, such as between 2nd and 5th.

As a consequence of the shape of the spear 14 and using vertical vibration, lance 14 will be directed inland from the ground substantially without impact on a horizontal direction between the surface of the lance 14 and the sides from cavity 16. That is, the main impact with the terrain will be at the bottom of the cavity 16 when the lance 14 is forced herself to delve into the ground.

The contact with the sides of the cavity 16 it will consist mainly of a pressure action, causing the ground material be pressed slightly laterally to form cavity 16, without dry impacts. Avoiding the impacts of this way is achieved in the technique to minimize the shocks that they can result in increased interstitial pressure, in water-laden terrain and, in extreme cases, can cause land liquefaction. Depressions formed by impacts they can cause significant and sudden increases in pressure interstitial, with the consequent alteration in the field to some considerable distance from the work point.

The lance 14 can be driven, by vibration, at any chosen depth without causing problems interstitial pressure, while the depth of compaction created due to the impact it must be limited due to the impact force and shock waves resulting from interstitial pressure.

Once the cavity 16 has been formed, it is removed lance 14. Additional material 19 is then introduced into The cavity. As described, the additional material may be in particles, but preferably includes an improvement material of the land or is improved land. This material introduction additional results in the intermediate situation illustrated in the figure 2.

Spear 14 is introduced again then inside the ground, in the same position, and vibrates down to cause the compaction of the additional material. This can result in the bulging of cavity 16, as depicted in 38 (figure 3), rising from the incapacity of the land surrounding 17 to contain the compaction forces created by the lance 14. The degree of bulge that occurs will depend on the size of the compaction forces down created by the vibration of the lance 14 and the natural capacity of the ground surrounding 34 to provide lateral containment of the material additional. The lance 14 is repeatedly vibrated, extracted and removed. re-enter after the additional material has been introduced, until cavity 16 is filled with material which has been properly compacted, with the resulting bulge of The cavity.

The compaction of the additional material in the cavity 16 is preferably continued until the terrain 17 is see that it rises upwards (indicated in 39) around the position of cavity 16. This elevation indicates that you cannot accommodate more additional material and that is not possible anymore compaction

The next stage of the procedure is provide a shutter formation (to be described) in each of the locations which have been improved as has been described earlier in this document. Shutter formation is provided by forming a depression in the surface and filling of depression with material which includes material to improve the terrain or improved soil. The depression is preferably formed by the impact from A weight that is dropped. A preferred device to use it as a weight that is dropped is represented in figure 4. The device 30 has a relatively narrow nose 32 which provides, in use, the point of first contact with the terrain, when the device is dropped 10. The device conicity down to the nose 32, on a part 34. A fork arrangement 36 allows the device 30 hang on a cable 37 to allow device 30 to be lifted by a crane and then dropped to the ground. He Device weight 30 is preferably at least 2500 kilos and preferably considerably more, such as for example 7500 kilos or 8000 kilos. Part 34 preferably widens in an angle of 14º or greater, that is to say greater than the denominated angle Morse of 14º. (The angle is measured between the central (vertical) axis of the device 30 and the conical outer surface of part 34). He Morse angle of 14º is generally considered the minimum angle required to prevent device 30 from being retained in the terrain, after being dropped. You can choose a angle between 14º and 20º, preferably approximately 17º.

Figure 5 schematically shows the device 30, before being dropped over location 40 the which has already been improved by the first part of the procedure, as described earlier in this document. Be it should indicate, and it is preferred, that the device 30 be considerably wider than lance 14 and therefore more width than mouth 42 of cavity 16.

The device 30 is then dropped to which is embedded in the material of the cavity 16 and then removed. The result is represented in figure 6. The compacted material previously introduced into cavity 16 has been widened out at 44. Depression 46 is then filled with material from ground improvement to ground level, indicated in 48.

After the additional material has been introduced into depression 46, another one is dropped again once the device 30 and then removed, to form a depression additional 30A. This results in a compaction out and towards below the surrounding terrain 26. In addition, additional material introduced before the fall is forced off into the field surrounding forming an improved body of land around the depression 30A.

The process is then repeated again, filling the depression with additional material, dropping the device 30 to form a depression (not shown) and filling the resulting depression again. It preferred that the additional material be introduced after each fall, but in some circumstances it may be appropriate to drop the device 30 more than once, before the additional material.

Figure 7 schematically shows three locations which have been treated in this way, through of the lance and then by means of device 30. The enhanced locations now form an array of pillars 49 of improved terrain, separated by 50 zones which are still in their original condition, but they have probably been improved to some extent, as a result of compaction, bursting, etc. This completes the second part of the procedure.

Additional stages are now performed for interconnect the structures which have been formed from the way described earlier in this document, across the entire area That is going to get better. A surface layer 52 of terrain 17 (the depth of which is indicated by dashed line 54 in Figure 7) is altered and mixed with material to improve the ground. This can be achieved using a device. motocultor, introducing the ground improvement material both before as after working with the motocultor. Alternatively, the surface layer material 52 can be extracted for mixed and reintroduce. In an additional alternative, the surface layer 52 can be altered for mixing in the ground improvement material before using the lance 14. It is preferred that the surface layer 52 be formed without extracting local land, in order to speed up the process and minimize the external environmental impact.

The surface layer 52 preferably forms before the cementitious binder introduced has set within depressions 46 (and in cavities 16, if they were filled with ground improvement material including a binder that can set), so that a structure is formed unit as shown in figure 8. Figure 8 shows a series of neighboring locations 40, interconnected by the layer surface 52. Surface layer 52 has been formed before setting of cementitious binder at locations 40 and by consequently, once the material has set, a single unit structure, consisting of support pillars 56 and a surface pavement 52. Naturally, the pillars 56 can be placed in two dimensions across the terrain and so both pavement 52 will cover the entire area that is being treated, with a support on each pillar 56. The result is a structure similar to a domed roof construction and with similar resistance and load bearing characteristics that appear from the unitary nature of the structure complete. The similarity with a vaulted roof is improved by the widening achieved at the top of the pillars 56, by utilizing weight 30. However, it is expected that the load bearing capacity is further increased by the presence of the land between the pillars 56, which will provide lateral stability to pillars 56 and support for pavement 52. The load bearing capacity of pavement 52 therefore it is expected to be greater than that of a pavement unsupported, by virtue of the support provided by the land by under and by the pillars 56.

Therefore a procedure has been described which can easily be used for good ground or bad. The procedure can be used to prepare the ground for large commercial buildings such as ships for retailers Ships for retailers may require a load relatively low on the ground over relatively large areas, with high loads around the edge of the building. By consequently, the unitary structure of pillar and pavement described earlier in this document can be used to provide a adequate land over an area of the building. May be desirable provide conventional pillar systems at the edges of the building, to improve the support of the building itself.

Many modifications and alterations can be perform at the stages described above, without leaving the scope of the present invention. In particular, the number and the distribution of the locations that will be treated by the spear can be varied according to the original quality of the land and the quality final required. The relative dimensions of the pavement and the Pillars can also be changed.

Additional stages can be incorporated into the procedure to further improve the behavior of the ground. For example, a large weight, in the form of a plate, can be dropped to provide additional compaction of the terrain, before the formation of the surface pavement layer. The weight can be a device of the type described in the application International Patent Number WO 99/09261, particularly with in relation to figures 9, 10 or 11 of that request. The weight is drops repeatedly as it travels through the terrain, so that substantially the entire area has been subdued to the impact on the part of the peso, thus consolidating additionally the ground before the formation of the layer of pavement. A final stage of passing a roller can be used on site, to further improve leveling and compaction

Claims (9)

1. A ground improvement procedure in which an array of locations is improved locally by forming elongated cavities (16) by introducing additional material (19) into the cavities and providing a shutter formation (48) at each location enhanced (40) by forming a depression (46) on the surface and filling the depression with a material, characterized in that the cavities are formed by repeatedly vibrating a spear element (14) within the ground at each location, removing the element lance and reintroduce the lance element after additional material has been introduced to compact the additional material and the surrounding terrain (17) and in which the additional material includes ground improvement material and a surface layer (52) of the land is altered to mix the ground with a ground improvement material to form a pavement (52) which interconnects the d formations and shutter in improved locations. 2. Method according to claim 1 characterized in that the additional material (19) introduced into the cavities is in the form of particles. 3. Method according to claim 2, characterized in that the additional material (19) comprises stones, gravel or other sand and gravel mixing material. 4. Method according to any of the preceding claims characterized in that the additional material (19) includes ground improvement material. 5. Method according to any of the preceding claims characterized in that the additional material (19) comprises soil mixed with soil improvement material. 6. Method according to claim any of the preceding claims in that the lance (14) is introduced repeatedly in the same position (40), until an elevation (39) is detected in the ground around that position. 7. Method according to any of the preceding claims characterized in that the surface depressions (46) are formed by impact from a weight that is dropped (34). Method according to claim 7, characterized in that the weight that is dropped (34) is a conical element provided with a relatively narrow nose (32) that forms a point of first contact with the ground and that widens from the nose. Method according to claim 8, characterized in that the weight that is dropped (34) widens up to a width greater than the lance element, whereby the upper part of the material compacted by the element is enlarged outwards (44). spear.