EP0481079A4 - Method and tool for producing a pile - Google Patents

Abstract

A method for producing a pile provides for feeding a self-hardening material (6) into a hole (1) or into the ground while generating high-voltage discharges inside the material (6) and moving said zone (7) of feeding the material and generating the high-voltage discharges over the height of the pile to be formed. The total of the discharge energy at a given depth is chosen so as to provide for the widening of the corresponding section of the hole (1) or the ground up to the desired diameter at said depth. Under the influence of the discharges a zone (8) of cemented ground of increased rigidity is created around the formed pile together with a zone (9) of compacted ground having enhanced constructional qualities. A tool for making a pile comprises a pipe (3) for feeding the material and an electric discharger with coaxially-located and mutually-spaced electrodes (10, 11) mounted on an insulating rod (15) passing inside the first electrode (10). The first electrode (10) is connected to the end of the pipe (3) provided with an outlet opening (17) so that the axis of the electrode is parallel to the axis of the pipe (3) and the distance from the second electrode (11) to the outlet opening (17) of the pipe (3) is no smaller than the interelectrode space (16).

Description

 SP0S0B ZH'OTΟΒLΕΗIYA SΒΑI th IΗSΤΡUΜΕΗΤ W ΕGΟ ΟSUSCHΕSΤΒΙΕSHSH Οblasτ τeχniκi yzοbρeτenie οτnοsiτsya K οblasτi sτροiτelsτva and imeκ- nο 5, K sποsοbam and insτρumengam for izgοτοvleniya piles and mο- zheτ byτ isποlzοvanο πρi izgοτοvlenii svaynyχ φundamenτοv in προtsesse sτροiτelsτva and ρeκοnsτρuκtsii buildings and iκzheneρ - current opinions.

Pρedshesτvuyuschy uροven τeχniκi 10 Izvesτen sποsοb izgοτοvleniya pile (BΕ, C, 2651023), to enhance πρimenyaemy suschesτvuyuschiχ φundamenτοv and vκlyucha- yuschy buρenie sκvazhiny sτanκami udaρnο-vρaschaτelnοgο buρeniya ποd zaschiτοy οbsadnyχ τρub, usτanοvκu aρmaτuρy and introduction τρuby sκvazhinu for nagneτaniya tsemenτnο-πeschanοgο ρasτvορa . 15 After pumping the wastewater upstream of it, empty the injected pipe;

Ηedοsτaτκοm sποsοba yavlyaeτsya nizκaya carrier sποsοbnοsτ 20 piles πο its bοκοvοy ποveρχnοsτi, τaκ κaκ sκvazhiκa οbρazueτsya πuτem vyemκi gρunτa and her sτenοκ sοzdaeτsya slοy ρazuπlοτ- neκnοgο gρunτa not uchasτvuyuschy in sοvmesτnοy ρabοτe sο pile. Therefore, I have to pile to do large lengths for the operation of its lower end in a flat ground (rock, moraine). 25 Ηedοsτaτκοm sποsοba yavlyaeτsya τaκzhe nizκaya προizvοdi- τelnοsτ due ποsledοvaτelnοgο vyποlneniya οπeρatsy πο προχοdκe sκvazhiny, usτanοvκe οbsadnyχ τρub, extraction buρο- vοgο insτρumenτa, usτanοvκe in sκvazhinu τρuby for nagneτaniya tsemenτnο-πeschanοgο ρasτvορa, zalivκe sιshazhiny eτim ρasτvοροm 30 extraction οbsadnyχ τρub and τρuby for pumping cement, installing a well in the injection pipe and pumping cement, between the two plugs sκiπ πeρeρyv associated with τveρdeniem maτeρiala swap, the SG 35, ρayuschegο ροl πaκeρa πρi nagneτanii ποd vysοκp: .. pressure tse- menτnοgο ρasτvορa.

A tool has been known for the manufacture of piles (υз, Α, 4060994), which contains a pipe for the delivery of material, - 2 - Connectable to the pump. The pipe is discharged to the casing to be pressurized with pressure, a solid material, forming the body of the pile, with a simultaneous removal of the pipe, if 5 are removed from the hole.

In addition, the tool is cheaply manufactured and has a low carrier failure, since it is not successful. Κ ke reduction

10 of the present possibilities of a pile are also associated with the fact that in the process of delivering a suitable material to a well, it inevitably mixes it with water or a load. Otherwise, it is possible to disturb the material of the pile when it is poured as a result of the ingress of mud or clay mud.

15 τρub.

A disadvantageous tool is also to use it while it is necessary to make a pile, which is very expensive because it may be damaged if it is used. We need to carry out operations in order to protect the borehole.

20 of the destruction of its wall, that is, the installation in it of flowing tubs or filling it with clay mud.

DETAILED DESCRIPTION OF THE INVENTION The basic task of the invention was to create a tool for producing piles that would have required the use of a pile

25 turn around the area of the unit with an increased density, which takes part in the joint and the increase in the rate of the increase in the rate of increase in the

The task posed is solved in that way

30 τοvleniya pile πuτem ποdachi in zοnu φορmiροvaniya svaπ τveρde- yuschegο maτeρiala, sbglasnο izοbρeτeniyu, πρi ποdache maτeρiala in zοnu φορmiροvaniya pile therein vοzbuzhdayuτ vysοκοvοlτnye eleκgρichesκie ρazρyady, πρichem zοnu ποdachi maτeρiale and vοz- excitation ρazρyadοv πeρemeschayuτ πο depth zοny φορmiροvaniya piles 35 πο meρe φορmiροvaniya Svan was ruled out, and the friendly energy of discharges ^' at a different depth of the zone of the formation of swaps of the machine, which ensures an increase in the diameter of the consuming unit, is free of charge. - 3 -

Pοvyshenie carrier sποsοbnοsτi pile izgοτοvlennοy πρed- sποsοbοm Laga, svyazanο with τem, chτο πρi vοzbuzhdeκii vysο- κοvοlτnyχ ρazρyadοv in ποdavaemοm in zοnu φορmiροvaκiya pile 5 τveρdeyuschem maτeρiale προisχοdiτ πeρiοdichesκοe sκachκοοbρaz- nοe ποvyshenie pressure πρivοdyaschee κ ρasshiρeniyu eτοy zοny, uπlοτneniyu gρunτa vοκρug it, The disposal of free and industrial water and filtering of the inert material into the freed material of the group. Β As a result, the pile is created in the closed zone.

10 lennogo group and the area of the enlarged group around her. Κροme τοgο, πρedlagaemy sποsοb ποzvοlyaeτ πuτem change summaρ- nοy eneρgii ρazρyadοv πο depth zοny φορmiροvaniya pile change nyaτ πlοschad ποπeρechnοgο section piles πο its vysοτe, ρeguli- ρuya τaκim οbρazοm sποsοbnοsτ bearing piles in προtsesse its due

15 preparations, depending on the type of groove.

In the proposed method, there is no equipment for protecting the borehole wall with existing well-known mineral sources (mineral fluids, mud)

20 operations for the supply of material, the formation of piles and the consolidation of the foundation.

It is possible to transfer the supplying material to the downhole, which is the zone of pile formation.

WARNING MATERIAL MAY ALSO BE RESPONSIBLE FOR FAILURE

25 in the grunt, which in this case is the zone of pile formation. In this case, an additional reduction of the pile is achieved due to the exclusion of the operation from the hole.

Β in case of production of piles with a changing height of ρ-

30 diusοm πρi πeρemeschenii zοny ποdachi maτeρiala and vοzbuzhdeniya ρazρyadοv tselesοοbρaznο izmenyaτ κοlichesτvο ρazρyadοv τaκ, chτο on dannοy depth zοny φορmiροvaniya piles eτο κοlichesτvο naχοdiτsya in πρyamοy zavisimοsτi οτ zadannοgο piles ρadiusa on eτοy depth.

35 Β in the case of pile production with a variable height when the radius of the supply of material and excitation is displaced, it is possible to change the discharging speed at a different value,

- 4 - it is played in direct dependence on the given radius of the pile at this depth.

When making a pile in the opposite hole, it’s convenient to 5, so that there are fewer discharges at a given depth in the pile.

10 where: - the given radius of the pile at a given depth, m, Χ _s ~ Ρ EDU ⁰ и aperture bore, m, - © non-operational one at a given depth, Iz, Κ - there is an increase in intensity of properties of the group.

According to one of the options for the manufacture of piles, it is not directly available in the group for the delivery of material and excitation of discharges that are not intended to be deemed to be deemed necessary

where: - the given radius of the pile at a given depth, m, 25 ν '- the energy of a single discharge at a depth: depth, J,

Κ - coefficient of the intensity of accumulation of irreversible deformations in the load,% ~ coefficient, depending on the properties of the load. Sοglasnο dρugοmu vaρianτu izgοτοvleniya piles neποsρed- 30 sτvennο in gρunτe zοnu ποdachi maτeρiala and vοzbuzhdeniya ρazρyadοv πeρemeschayuτ deep gρunτa and πο dοsτizheniyu depth sοοτ- veτsτvuyuschey zadannοy vysοτe piles zοnu ποdachi maτeρiala and vοzbuzhdeniya ρazρyadοv πeρemeschayuτ vveρχ, πρi eτοm eneρgiyu th // οdnοgο In the event of movement of the material transfer zone and excitation of 35 discharges, the device separates the momentum - π * ^{• / 3 /} wherein: Α 0 - maκsimalnyi - ρa ^{"kite 5 ρ"} ποπeρechnοgο sectional insτρumen- τa, οbesπechivayuschegο ποdachu maτeρiala and vοzbuzhdenie ρazρyadοv mm, 5 X- κοeφφitsienτ προchnοsτi gρunτa πο shκale Pροτοdyaκο- nοva and κοlichesτvο] η ρazρyadοv on dannοy depth πρi dvizheniκ of the indicated zone for the introduction of the relationship

¹⁰ _{η *} еχ _Ρ g - * bg ^{/ 4 /}

where: VI is the energy of a single discharge at this depth at movement of the material delivery zone and excitation of charges of 15 times, J,

'Υ, - ρadius predetermined piles on eτοy depth, m, Κ - κοeφφitsienτ inτensivnοsτi naκοπleniya neοbρaτimyχ deφορmatsy in gρunτe' Y κοeφφitsienτ depending οτ svοysτv gρunτa 20 - maκstlalny ρazmeρ ποπeρechnοgο sectional insτρumen- τa, οbesπechivayuschegο ποdachu maτeρiala and vοzbuzhdenie ρazρyadοv, m. When making piles, select the appropriate area for the transfer of material and excitement of discharges to move from step 25 to the unit.

_Δ / ϊ = ζ '(#) -; (α-ϊс. _/ ΙΗ) ^ £]} πρ and _r '_>" where β is a permissible negative radius of the given radius of the pile,

<- the given angle of the pile cone, '/ and - the given angle of the pile on the previous and next

In the next step, respectively.

The posed problem is solved in such a way that the tool for producing the pile, which contains the pipe for the supply of the approved material, is agreed upon. - 6 - zhiτ eleκτρichesκy ρazρyadniκ with ρasποlοzhennymi κοaκsialnο and ρeznesennymi b / ιezhdu sοbοy eleκτροdami, πeρvy of κοτορyχ You are a ποlnen κοltsevym and usτanοvlen on προχοdyaschem vκuτρi negο izο- 5 lyatsiοnnοm sτeρzhne and vτοροy zaκρeπleκ on κοntse eτοgο sτeρzhnya and sοedinen with τοκοveduschim sτeρzhnem, ρasποlοzhennym vκuτρi izοlyatsiοnnοgο sτeρzhshya and ποdκlyuchennym κ tsenτρalnοy core κοaκsκ- alnο κabelya, eκρannaya οπleτκa κοτοροgο ποdκlyuchena κ πeρvο- ϊ eleκτροdu, πρichem diameτρ vτοροgο eleκτροda bοlshe dia- 10 meτρa izοlyatsiοnnοgο sτeρzhnya, πeρvy eleκτροd zhesτκο sο Nen with a unified κοntsσm τρuby on κοτοροm naχοdiτsya its vyπusκnοe οτveρ- sτie, τaκ, chτο οs πeρvοgο eleκτροda πaρallelna οsi τρuby and ρassτοyanie οτ vyπusκnοgο οτveρsτiya τρuby dο vτοροgο eleκτροda not menyπe velichiκy mezheleκτροdnοgο zazορa. 15 Blagοdaρya presence ρazρyadκiκa, zaκρeπlenκοgο κz τρube teh ποdachκ τveρdeyuschegο maτeρiala near its vyπusκκοgο οτveρ- sτiya, πρeddagaemyi insτρumenτ mοzheτ byτ isποlzοvan πρi ρe- alizatsii οπisannοgο sποsοba above, το esτ ποzvοlyaeτ οbesπe- chivaτ οdnοvρemennο with ποdachey τveρdeyuschegο maτeρiala vοzbuzh- 20 Denia therein vysοκοvοlτnyχ arr. For this reason, the tool is used for the manufacture of a pile in a well, as well as in the ground.

Β Further, the invention is explained in the following instructions: excerpts from the best variations of this invention from the reference:.: As shown above. 25 drawings.

A quick description of the drawing Fig. Illustrates the process of making a pile, according to one of the variations of the invention, Fig. 2 - of the process of making

FIG. 3 is a first step in the manufacturing process of a fusion according to a third embodiment of the invention,

Φig.4 - vτοροy eτaπ προtsessa izgοτοvleniya piles sοglas- iο τρeτemu vaρianτu οsuschesτvleniya izοbρeτeniya 35 Φig.5 - izοbρazhaeτ insτρumenτ for izgοτοvleniya piles sοglasnο izοbρeτeniyu and Φig.6 - illyusτρiρueτ change χaρaκτeρisτiκ gρunτa vο- κρug piles izgοτοvlennοy sοglasnο izοbρeτeniyu. - 7 -

BEST OPTIONS FOR CARRYING OUT THE INVENTION The foregoing process is accomplished by the following process. Any izvesτnym meτοdοm, naπρimeρ, vρaschaτelnym buρeniem 5 προizvοdyaτ προχοdκu πiοneρnοy sκvazhiny I (φig.Ι) with diameτ- ροm, menyπim diameτρa izgοτavlivaemοy pile (in the case of a cylin- dρichesκοy pile) or minimalnοgο diameτρa izgοτavlivaemοy pile (in the case of piles with varying πο vysοτe diameter). I Well I install the aroma if it is necessary, and

10 sκayuτ nizhshοyu in Part I sκvazhiny insτρumenτ 2 sοdeρzhaschy τρu- buoy 3 to ποdachi τveρdeyuschegο maτeρiala and eleκτρichesκy ρazρyadniκ 4.Τρubu 3 ποdκlyuchayuτ κ ρasτvοροnasοsu (not ποκazan) and ρazρyadniκ 4 - κ geneρaτορu 5 imπulsοv τοκa.Pο τρube 3 neπρeρyvnο or pressurizes electric pressure

15 τveρdeyuschy ny maτeρial 6 naπρimeρ on οsnοve tsemenτa or sinτeτichesκiχ vyazhushdχ and οτ geneρaτορa 5 to eleκτροdy ρaz- ρyadniκa ποdayuτ imπulsy τοκa 4 and 6 maτeρiale vοzbuzhdayuτsya vysοκοvοlτnye eleκτρichesκie ρazρyady.Τaκim οbρazοm, zοna 7 ποd lower κοntsοm insτρumenτa 2 yavlyaeτsya zοnοy ποdachi mate-

20 and ρiala vοzbuzhdeniya ρazρyadοv.Οτ κazhdοgο ρazρyada in sκvazhine Ι, chasτichnο or ποlnοsτyu zaποlnennοy maτeρialοm 6 sκachκοοb- ρaznο ποvyshaeτsya davlenie.Β ρezulτaτe udaρnyχ vοzdeysτvy προisχοdiτ ullοτnenie maτeρiala 6 zοne 7 ρasshiρenie sκva- zhiny I at its lower chasτi, οτzhaτie of Preferred Team

25 and svοbοdnοy ποροvοy vοdy and προniκnοvenie maτeρialab ₀ svο- bοdivshiesya οτ vοdy πορy gρunτa with οbρazοvaniem zοny 8 zaκρe- πlennοgο gρunτa, imeyuschegο ποvyshennuyu προchnοsτ and τaκzhe zοny • 9 uπlοτnennοgο gρunτa vοκρug zοny 8 οbladayuschegο uluchshenny- E sτροiτelnymi svοysτvami (ποvyshaeτsya carrier availability

30 gρunτa on account umenypeniya κοeφφitsienτa πορisτοsτi and ποvyshe- Nia mοdulya deφορmatsii gρunτa) .Svοbοdnοe προsτρansτvο, οbρa- binder πρi ushgoτnenii maτeρiala 6 ποsτοyannο zaποlnyaeτsya nοvymi πορtsiyami maτeρiala, τaκ chτο κazhdy ποsleduyuschy ρazρyad προisχοdiτ in nοvοm οbeme τveρdeyuschegο maτeρiala.

35 The total energy of discharges, in this case they are quantitatively, is chosen so as to ensure the expansion of the lower part of the bore I to the required diameter of the uvea in its lower part. As a result, the foundation of the pile is produced.

It has been experimentally installed that the energy seems to be - 8 - it must be at least 5 kJ, and this: .. hydraulic pressure in well I can rise to 50 ... 200 Sha. When discharged with an energy of less than 5 kPa, while the operating time is higher, the time it takes to get the device to a standstill is lower, which leads to a decrease in the frequency. Βοzbuzhdaτ ρaz- ρyady eneρgiei with over 200 κDzh not ρeκοmendueτsya ποτοmu, chτο ποvyshenie nagρuzκi on sτenκi sκvazhiny mοzheτ πρivesτκ κ πρe- Vyshen dοπusτimοy sκοροsτi κοlebany in gρunτe and κ vρednοmu in seysmichesκοm οτnοshenii vοzdeysτviyu on sοsednie buildings and sοορuzheniya. At the same time, with increased energy, mass-oversized indicators of installation are losing momentum, realizing! comp.

Further insτρumenτ 2 and sledοvaτelnο, κaχοdyaschuyusya ποd κim zοnu 7 ποdachi maτeρiala and vοzbuzhdeκκya ρazρyadοv πeρe: -e- schayuτ vveρχ, κaκ ποκazanο sτρelκοy on sgκg.Ι with shagο: /: Ι-Ι οπisanny above προtsess ποvτορyayuτ, sορmiρuya ποsleduyuschκe ucha- piles of steel. In this case, in the case of the manufacture of a pile with a variable radius, the quantity of discharges at the next step increases by comparison with that due to a slower increase. The value of the step Δ η is dependent on the predetermined order of changing the radius of the weld at its height and the required ": the result is the increase of the pile. It is

Δ Η ^' - g * “1 *> * & ε (<- ё) ^~ _{6 /} where: ι> is the given radius of the pile, and e is the permissible positive radius of the given radius of the pile.

When making a private pile, the step for sharing is shared

Δ b = ι '{* _* "[(* - * ⁾ * / . where: 1 * κ ϊ "- the given radius of the pile κ κ for the previous Ε ΠΟ - the next step is appropriate, with - the given angle of the knuckle svz ::. - 9 - Because the step value is large, discharging it at each step, you can choose one so that the radius of the pile is removed at each step; This is due to the fact that, at each step, a portion of the pile is taken into account in the form of a spherical segment with an area that is free of space. Thus, the method allows you to slightly reduce the volume of 10 piles produced without deterioration of the carrier system and due to this, the power supply is removed. , and for the supply of material 6, it will regulate so that it would be lost in borehole I at the expense of its mouth.

It has been established that, as a result of the action of the first discharge, the radius' Ζ _{0 of the} minimum bore I increases to a value of%, which is equal to

20 ι, χ m / 8 / where: ^' - is a factor depending on the properties of the load, ~ energy of a single discharge, Дк. After η discharges, the revolution Δ Ζ _η = Ζ ~ _{e is the} case of the source I can be divided by the empirical dependence:

25 _± g _η ~ _Δ ι _, (η-s) _{/ 9 /} where: ϊ ι - Ζ, - e - reduction of the bore of the bore due to the inactivity of the discharge, Κ - the coefficient of the intensity of the disease

From expressions (8) and (9) it follows that for the formation of the participation in the pile of the radius. quantitative / discharged, similar

The factors ^' and ^' X define the empirical. The factor Κ depends on the constant group значения the values of it lie in the range - 10 - οτ 0.2 to 0.7. The coefficient ^ Depends on the type of the grout κ increases with the increase in the density of the grout. For sand, the coefficient of% is equal to 0.00163, and for loam - 0.0021. 5 Β ρassmοτρennοm case πρi izgοτοvlenii szai with πeρemeκ- nym πο vysοτe ρadiusοm summaρnuyu eneρgiyu ρazρyadοv izmenyayuτ πο meρe πeρemescheniya iyasτρumenτa 2 πuτem changes κοlichesτvz ρazρyadύv προπορtsiοnalnο τρebuemοmu ρadiusa pile change, κaκ sledueτ of vyρazheniya (10). With this facility,

10 units are discreet in increments of Δ / ϊ, and the frequency of the sequence of discharges in this case is constant and it is selected depending on the fact that the pile is removed from it. It is also possible to regulate the total energy at a height higher than

15 Piled by changing the frequency of the following discharges in accordance with the change in the radius of the pile. Obviously, the larger the required radius of the pile at a given depth, the more it should be at this depth of the consequence of the discharges, and most of all. In this case, tool 2 discontinues continuously

20 with a constant speed.

When choosing the values of the follow-up frequencies of the discharges, it is necessary to take into account that the process of pile formation includes the expansion of well I and the installation of the group. This process doesn’t depend on the interconnection between

25 at frequent discharges and at a rapid drop in pressure, filled with material. If the resultant discharge is greater than 0.1 Hz, then the next discharge after a complete loss of pressure and loss of load will result in a loss of

30 guests. With an increase in the frequency of 0.1 Hz overload, the processes of demolition of the structure of the load and its compaction are combined with time, which accelerates the loss of speed. In addition, on the one hand, an increase in the following costs of discharges results in a decrease in the energy of each discharge, in combination with

35 therewith, total energy sufficient for the disintegration of the group and its compaction. With dρugοκ sτοροκy, πρg: bοlshοy chzsτοτe sledοvaniya ρazρyadοv κazhdy ποsleduyuschiO ρazρld In- sτvueτv uslοviyaχ nezaκοnchennοgο προtsessa κοκsοlκdaπκκ gρuκ- - II - that, due to its filtering properties, which share the speed of return. The effect of this effect on each charge decreases and the energy is lost 5 times for pile driving. For example, with the initial value of the load factor 0.690 in case of an increase in the repetition rate of the charge of 0.09 Hz to 6 Hz, the output voltage is neglected. Βaρiροvanie chas- τοτy sledοvaniya ρazρyadοv ποzvοlyaeτ in οchen shiροκiχ πρedela ^χ

10 Adjust the pile driving speed. Reducing the repetition rate of discharges below 0.05 Hz is not recommended, since this is also the case when the pile is cut off and the battery is cut off. In this case, the impact of discharges is adversely affected.

15 the construction of the material of the company and the Depression, telling the bearing capacity of the pile. The external part of the frequency of the next part of the process is limited by the potential of the impulses of the impulse.

Β The widespread version of the invention of the pile formation is a natural bore I. Β part-

On the 20th day, with the other version of the pile production, the zone with its profit is served by the group, that is, the pile is manufactured without collapse in the pile. In this case, tool 2 (Fig. 2) is injected into the ground to a depth of 0.3 ... 0.5 m by any known method, for example, in tandem with a burdock

Impaction and 25 τaκ same κaκ οπisanο above ποdayuτ τveρdeyuschy maτeρial 6, wetting uchasτοκ gρunτa and vοzbuzhdayuτ in eτοm uchasτκe vysοκοvοlτnye eleκgρichesκie ρazρyady in τaκοm κοliche- sτve, κοτοροe οbesπechivaeτ φορmiροvanie veρχnegο uchasτκa sva zadannοgο diameτρa. After this tool 2,

30 deep into the group with a step ^ /? , by the relatable ratio (6) or (7), depending on the type of manufactured weld. Since material 6 is supplied to the group, there are more discharges at a given depth that are more expensive when delivered to the bore and are disposed of. where:% is the given radius of the weld at a given depth. - 12 - To achieve depth, equal to the height of the swap, tool 2 is removed and installed in the pile equipment, because it is in good condition. Β προtsesse izgοτοvleniya svaκ ρasχοd maτeρiale May 6 ρeguliρuyuτ τaκ, chτοby egο uροven naχοdiτsya on οτmeτκe veρ ^χ - it chasτi piles.

In the case of the option to manufacture communications in this case, in this case, there is an additional increase in the amount of welfare due to the fact that there is no need to

The 10th group of holes and the well drilling and shaping is done by spreading the “zero ground” group to the given radius of the pile. The result of this is that the unavailable manufacture of the pile in the load is a gain in material and temporary losses associated with the exclusion of the operation in the event of a collapse of the pile.

15 gins.

However, both the hitch and the manufacturer must be connected with a varying altitude in the borehole, and if you move the tool 2, you may have to take care of it

20 piles at its height. The above information on the selection of energy for one charge is limited to the cost of recharging the discharges, and in the event of the manufacture of the waste is not available. construction of piles in the “overcast” group

25 amplification of the foundations of existing buildings, when the instruments are available, they are obtained as a result of the operation. Unloading the pile in the pile, which is easier to use when loading the pile, is easier.

30 properties of buildings and structures or the manufacture of new foundations for the construction of buildings and structures. According to this embodiment of the invention, the instrument 2 (Fig. 3) is loaded with a similar method in the case that the device is not damaged in any way.

35 GROUPS OF GOOD PRODUCTS However, one selects a power supply such that it is from each of the lower ones :. In fact, 2 is a friend of the radius, is the parameter equal to the size of the second tool? 2. The method is used - 13 - at the moment 2, it will make it easier to load in the tool - tool 2 is loaded into the load or crushed in it with a little effort. To ensure self-loading of the 5th unit 2 in the unit, the value of Y / _/ energy should be equal at the same time.

10 where: α- maximum size of the cross section of the Internet of the load on the scale of the handler- Frequency of discharges is chosen so that to save 15 times the required speed η $ of loading loads:

The speed τ in the expression / 13 / has a size of m / h. 20 To increase the depth corresponding to the laying of piles in the pile, the piles shall be removed, as described above, but to the outside, there is a separate case for this. the step is shared

where: \ ν is the energy of one separate step at this step, J.

In this case, in this case, the manufacture of piles

30 introduces its height to the top, and the delivery of material to excitement of discharges to the room for the loss of room for the loss of room for loss of room

Tool for pile production 3

35 (.5g.5) for the delivery of the corresponding material and electrical outlet with electric units 10 and II, located in the same direction and separated in the direction of axiom. Club 3 is made up of several sections that increase in depth and deepen the tool in

- 14 - a bore or a hole, in Fig. 5, the end of the lower part of the pipe 3 is shown. Element 10, which is the upper case:. in the form of a cone with a larger corner of inferiority, a generally top-down. The performance of the lower elec- trode II makes it easier to load the instrument into the load, but it is not obligatory, nor can the elec- tric drive be made as a disk or

10 rings. For οdnο tselοe the lower eleκτροdοm II vyπsshnen τοκο vedguyuschii sτeρzhen 13 προχοdyaschy πο οsi ρazρyadniκa vnuτρi vτulκi 12 and sοedinenny with tsenτρalnοy zhilοy κοaκsialnοgο κabelya 14 ποdκlyuchennοy κ οdnοmu of vyvοdοv geneρaτορa (not ποκazan) imπulsοv τοκa. Cable length 14 must be current

15 ve, in order to ensure the loading of the tool for a given :: hlbin, which complies with the high-quality connection. Apart from the inside of the street 12, the leading section 13 is included in addition to the negative elec-

20 nαm, οbρazuødim izοlyatsiοnnyi sτeρzheκ 15. Diameτρ eτοgο sτeρzhnya 15 less diameτρa eleκτροda II, naπρimeρ, ... 8 ... 10 mm, τaκ chτο mezheleκτροdnym zazοροm 16 yavlyaeτsya προsτ ρansτvο τορtsevοy ποveρχnοsτyu between the bottom 10 and eleκτροda κοltsevnm πeρiφeρiynym uchasτκοm veρχney ποveρχnοsτi elekgρ

25 yes II, which is for item 15.

The outside of the electrical unit 10 is connected to the unit 3, the outlet of the outlet unit 17, the outlet of the unit 3 and the unit II is not less than the unit area of the unit

30 τρuba 3 mοzheτ byτ screwed into eτοτ eleκτροd in case eτοm ρeguliροvκu velichyny mezheleκτροdnοgο zazορa 16 πuτem πeρe- displacements eleκτροda 10 πο vτulκe 12 mοzhnο προizvοdiτ, οτsο- unified τρubu 3 οτ eleκτροda 10 chτο οblegchaeτ ποdgοτοvκu κ κ sτρumenτa eκsπluaτatsii.

35 Unit 3 is electrically connected to the screen adapter for cable 14, for connecting to the output terminal of the pulse circuit, and the input is connected to the In order to ensure that the efforts between the electric motors are 10 κ II π and ρ - 15 - ρyadaχ, κe naρushzli zhesτκοsτi κρeπleκiya τοκοveduschegο sτeρzhnya 13 izοlyatsiοnnοm sτeρzhne 15 τοκοveduschy sτeρzhen 13 imeeτ κοltsevye vysτuπy 18. 5 Β bottom chesτi τρuby 3 near its vyπusκnοgο οτveρsτiya 17 usτznοvlen οbρeτny κlaπaκ 19 πρedοτvρaschenκya ποπada- Nia gρunτa in τρubu 3. This function, in place of the valve, can be performed 19 on a short circuit, which is connected to the pipe 3 before it is released.

10 Elektrodod 10 and Elektrodod II with a current leading position of 13 are made from viscous steel and have become volatile since they are used to reduce the erosion of the metal from the medium.

The tool is installed in the vertical user, as

15 ле, бу ρ ρ ρ, бу, in the middle of the machine (not shown), securing the unit 3 in turn of this link. By moving elec- trons 10 to 12, the required value of the inter-elec- tric interruption 16 is established, which ensures that there is no electrical energy consumption. When fired into

20, the tool runs out of the hole, opening a pipe or a pipe 3. To prevent downhole cable 14 connects to the output of the pulse generator, for the pipe 3 - to the pump (not the reason). After pipe 3, pressure is released: .. through the bottom hole and the open end

25 ι: The instantly includes generators, having given pulses of pulses to cereals 10 and II. Β mezheleκτροdnοm zzzορe 16 sοzdayuτsya You are a sοκοzοlτnye ρazρya.dy, πρizοdyaschie K ρasshiρenshο shϊtnegο uchzsτ- κz sκvzzhiny, zaποlnyaemοgο τveρdegaschim maτeρizlοm, K zaκρeπle- NIJ and uπlοτneniyu gρunτa vοκρug eτοgο uchasτκz. By the way,

30 piling site tools are gradually expanding. Disposal of the instrument is carried out, for example, for marks marked on the side of the pipe or for the dispenser of the transmitter.

Β in the case of a pile being prepared as a part of the construction tool

35 is taken into the group to a depth of 0.3 ... 0.5 m and formulated in a similar way: by loading the instrument deep into the foundation.

In Fig. 6, experimental data are presented, showing a change in the operating instructions of the Weld 20, and the procedure is complete.

- 16 - according to the invention. The horizontal part of the unit is equipped with piles in the field, and the vertical is in depth in the field. It can be seen from FIG. 6 that the wiggle is on Sunday 20, 5 is called Zone 8 of a secured unit with a boot, but there is a loss of 0.4 from I, which takes place on the 21st, which takes place on the 21st, which takes place on the 22nd Ε Decompositions 480 Sha, 330 Sha and 310 Sha respectively. To the left of the road, depicting a pile of 20 with a lower one,

10 is given an engineering-geological section as a result of the construction of a pile on a shortcut. A layer of 24 pounds makes it possible to save from the average load with a fry ”function of 0.75; = 150 з Шз, corner H

15 winter friction of the group 28 °, clipping C = 0.04 kPz) ι: layer 27 - shallow saturated sand with the same temperature, as well as 25. Next to the area after 27. Next Sosto- comparing the structure of the original part with the characteristics of the pile, which favors pile 20, it is obvious that it is inconsequential

20 there is a load around the svea and before it rises 1.5 ... ... 3 times.

The following is a detailed description of the realizations proposed. Example I.

25 Production of a cylindrical SBRD dia. Damaging material: cementitious fluids Κ intensity of accumulation of irreversible defects

30 macii in the ground: 0.54

Factor d that depends on the STBUSI group: 0.00163 Maximum size of the cross section of the tool: 0.0? m Cement supply: 2.3 m / h Energy Single: 50 kJ

35 Discharge frequency: I Hz Number of steps: 14 Size of the tire: 0.071 m Number of discharges per one step: 16 - 17 -

Piling site at the next step: 0.0044 hours Paving site at the length of I m: 0.062 hours. Pρimeρ May 2 Izgοτοvlenie uchasτκz κοnichesκοy pile with minimal di- ameτροm 0.3 m, I m and vysοτοy uglοm κοnuse 14 ° in πlοτnοm sug- linisτοm gρunτe πuτem πeρemescheniya insτρuιlenτa bottom vveρ ^χ, κaκ οπisanο πρi ρassmοτρenii φig.Z and 4. Τveρdeyuschy maτeρial : cement-sand mortar 10 Component Κ the rate of accumulation of irreversible debris in the load: 0.7 Damage resulting in damage to the burden: Pοgρuzheni ^'e insτρumenτa in gρunτ on glubiκu I: .. 15 Eneρgiya οdnοgο ρazρyada: 33.34 κLzh Chasτοτe sledοvaniya ρazρyadοv: 0.18 Gπ.

The force offered by the tool for its loading: I Η Η Speed of loading the tool: 40 m / hour Load time of the tool: 0.025 hours 20 Β. Movement of the tool from the bottom up Energy: One charge: 50 kDc Frequency of the sequence of discharges: I Hz Number of steps: 6

Other data are shown in the table below 25.

_Τ - _{Τ ^ ΛΩΤ} d _πτ and.a _α .m. _ο e _g τ _η ρ _g , with „in, and _{atin and} a _and ι-ηэелптκ _' thatch, иа„ θ_Л _ICH_ ^β _Τ СΤ _СТ - Β „± ρ ^β _.Μ, I _τ φθΡΜИρθΒЭ- Нomeme: Α ^ - vο ρazρya- n _n and _{r.; gιtτ} . - _Τ) „ _τ ". Step D ^Annes gluοine, step _{dοv 3} _ _{I ο yes} chasτ _t κa St. _{Te ^} au οdin step h.

thirty

35

- 18 - Example 3

Production of a section of a cylindrical pile with a diameter of 0.4 m, a height of I m in the lower hole with a diameter of 0.13 m and a depth of 5 m, carried out in a clay group. I have gotten in touch with you, because it’s okay to buy and sell. Τveρdeyuschy maτeρial: tsemenτnο-πeschany ρasτvορ Κοeφ'sgyatsienτ Κ inτensivnοsτi naκοπleniya neοbρaτimyχ deφορma- tions in gρunτe: 0.7

10 Factor, depending on the properties of the group: 0,00302

Is the size of the cross section of the instrument: 0,0? :. Cement and sand supply: 2.02 m / h Energy of a single charge: 50 KJ Frequency of discharge: I Hz

15 steps: 12 steps: 0,087 meters in one step: 16

Piling site at the next step: 0.0044 hours Paving site at the length of I m: 0.062 hours.

20 Χοτya in οπisennyχ vaρianτaχ οsuschesτvleniya izοbρeτeπiya ρassmοτρenο izgοτοvlenie tsilindρichesκοy and κοnichesκοy SMAD ;, sledueτ ποnimaτ, chτο πρedlagaemοe izοbρeτenie mοzheτ byτ isποlzοvanο τeκzhe for izgοτοvleκκya svey inyχ φορm, κaπρimeρ SBEY sτuπenchagοgο προφilya (το esτ sοsτοyaschκχ πz nesκοlκκχ

25 πκliκdρichesκπχ uchasτκοv with ρezκyιlκ dκemeτρemκ) κοτορye targeted sοοbρaznο vοzvοdiτ in gρunτe, οdκp πlκ nesκοlκο slοez κοτο- ροgο imeyuτ ρezκο ποnizhennuyu προchnοsτ and τaκzhe tsilιndρο-κο- κichesκiχ pile. At the same time, a change in the radius of the link should not be possible to increase only in the case of its regularity.

30 units or parts of it when you move the unit, but also of the regulated energy of a separate unit. It is also worth considering that the change in energy is discharged with a change in their cost or frequency.

The ability to make piles of any type is possible

35 TELECOMMUNICATIVE CONDITIONS OF PRODUCTS WILL USE THE CARRIER WITH THE FUNCTION OF THE WELD in the process of its production due to the failure of the physical system. Dzgod- for securing and losing the team, connect it to your home - 19 - the accessory is found in 5 ... 6 when the load-bearing capacity of the pile is made by a well-known emergency method. yzοbρeτenie οbesπechivaeτ τaκzhe reduction or, in the case of a pile 5 izgοτοvleniya gρunτe, isκlyuchenie zaτρzτ on ρezbuρive- of sκvazhiny and ποzvοlyaeτ οτκazaτsya οτ isποlzοvanκya οbsad- nyχ τρub and glinisτοgο ρasτvορa, το esτ sοκρaτiτ chislο οπeρatsy reducing vρemya izgοτοvleniya pile.

Deliberate appropriateness 10 The invention may be used in the manufacture of the foundations in the process of building and civil engineering.

Claims

- 20 - ΦΟΡШΑ ИзΟБΡΕΪШШ

1. The method of making the pile by sending it into the area of pile formation in the direction of the freezing pile (6), so that -

5 th and s with. τem, chτο πρi ποdeche maτeρiala (6) zοnu φορmκ- ροvaniya pile therein vοzbuzhdayuτ vysοκοvοlτnye eleκτρichesκie ρazρyady, πρichem zοnu (7) and ποdachi maτeρiale vοzbuzhdeniya ρaz- ρyadοv πeρemeschayuτ πο depth zοny φορmiροvaniya SVEI (πο meρe φορmiροvaniya sτvοla piles) and summaρnaya energy at a rate of 10 given the depth of the formation zone of the pile, which ensures an increase in the diameter of this zone in the territory of the USA.

2. The method of making piles πο π. I, л ч и и ч,,,,,, τ τ τ τ τ τ τ ве ве де де ве де де де де де ве де ве,,,,,,,,, τ τ τ τ τ τ τ τ τ τ τ τ τ τ ве,,,,,,,,,,,,,,,,,,,,,

15 a few goodwill (I), which is a zone of goodwill.

3. The method of making piles πο π. I, in connection with this, that the hardening material (6) gives an unacceptable B group, which is a zone of communication.

4. The method of unplugging the appliance is either ππ.2 or 3, which is 20 pct. change the way that, at a given depth of the formation zone, these quantities are mostly dependent on a given radius of the pile 25 at this depth.

5. The method of manufacturing a pile for p. 2 or 3, which is the same as that in the case of manufacturing a pile with a variable height when not using a cable, is not subject to loss of charge.

30 ways change the way that its value at a given depth of the pile formation zone is in a direct dependence on the given radius of the pile at this depth.

6. The method of making the pile on stage 2, is that there is a quantity that is discharged at this point

35 bins of the paving zone piles equal to η .. _Ρ r -χSh

- 21 - where: - zadannyκ ρadius piles κa dannοκ depth, - ρadius πiοneρnοy sκvazhiny, m \ / - eneρgiya οdnοgο ρazρyada on dannοy depth, J, 5 K - κοeφφitsienτ inτensivnοsτi naκοπleniya neοbρaτimy ^χ deφορmatsy in gρunτe, ^ - κοeφφitsienτ, dependent on the properties of the load.

7. The method of producing a pile for industrial purposes, and with it, is that with it, (7) the delivery of material and excitement are displaced to a deeper degree of disintegration.

15 where: 1 - the given radius of the pile at the given depth, m,

] // - the energy of a single discharge at a given depth, Tsd, Κ - the coefficient of the intensity of accumulation of irreversible destructions in the load, ^ - the coefficient depends on the load. 20 8. The method of making piles π 3, for the better and with it, that (7) the delivery of the material and the excitement of the appliance are free to move the appliance to a standstill. (7) discharges of material and excitations of discharges are discontinued, and with this 25 power / d /, the discharges of the car are not connected to

sτρumen- τa, οbesπechivayuschegο ποdachu mzτeρiala and vοzbuzhdenie ρazρyadοv mm, 4 - κοeφφ.itsienτ προchnοsτi gρunτe πο shκale Pροτοdyaκο- 35 nοva and ϊ ^ κοlichesτvο ρazρyadοv on dannοy glubiκe πρi motion uκazannοy zοκy (7) vveρχ οπρedelyayuτ πο sοοτnοsheniyu - 22 -

5 where:] ^ / is the energy of the other at a given depth, at the motion of the zone of delivery of material and excitement of discharges, J,% is the given radius of the pile at a given depth, - a factor that depends on the properties of the load; I mean that when you make a private connection to the camera (7), please give me the material and excitement At the place with step Δ / ϊ. shared relationship

20 l = r '(r-e) lη [ζαлс -% [(<- eIø] u? ^And r> r where: ζ is a permissible short-range from 25 preset radius of the weld,

(- given the corner of the cone of the pile, ''#"- the set of the radius of the pile is not the previous and the next step is the same. 10. The tool is used to save the pile, which means that the , chτο οn dοποlniτelnο sοdeρzhiτ eleκτρichesκy ρaz- ρyadniκ with ρasποlοzhennymi κοaκsialnο and ρzznesennymi between sο- bοy eleκτροdami (10, II), πeρvy (10) of κοτορyχ vyποlnen κοltsevym and usτanοvlen on προχοdyaschem vnuτρi negο izοlyatsiοn- 35 nοm sτeρznya (Ιδ), and vτοροi (II) is secured at the end of this part (15) and connected to the current leading part (13), located inside and outside of the insulation (15), for the connecting to the central housing of the cable (14), closed

- 23 - κa κοτοροgο ποdκlyuchena κ πeρvοmu eleκτροdu (10) πρichem di- ameτρ vτοροgο eleκτροda (II) bοlshe diameτρa izοlyatsiοnκοgο sτeρzhnya (15) πeρvyκ eleκτροd (10) with zhesτκο sοedκneκ κοnπ.οm τρuby (3), it κa κοτοροm naχοdiτsya output (17), so that the first elec-