BE1012865A3 - Apparatus for measuring the diameter of a grout column or silt retainingwall at various heights in situ - Google Patents

Abstract

The invention concerns an apparatus for measuring the width of a structuresuch as a grout column, silt retaining wall or similar at various heights. Itconsists of: (a) a hollow cylindrical body (1) to be lowered into the groutcolumn or silt retaining wall, containing a magnetic piston (3) and pistonrod (2) that can be made to move under the influence of compressed air oroil; (b) at least two measuring legs with hinge mounts (8) that also have ahinged connection to the piston rod (2); (c) various means at differentlevels by which the position of the said magnetic piston can be recorded andread off relative to the said cylindrical hollow body<IMAGE>

Description

       

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   ti (Device for measuring the diameter of a grout column or a sludge retaining wall M in situ and at different heights
This invention relates to a device for measuring the width of a structure in situ and at different heights, such as a grout column, a sludge retaining wall and the like.



   The structures whose width must be measured can be of various types. They can be cylindrical or substantially cylindrical, but can also have an elongated shape. The first category includes z. G.
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 the o..a. and such. . - ... r. Grout columns -ground under high to very high cement mixture grout columns, totgroutrne, ngs 1 is mixed with the soil and thus forms the grout column in which, if necessary, at a later stage, a qf more,
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 reinforcing bars can be provided., "". ",". .



   It is-. It is therefore clear that the size of the column to be formed will correspond to the size of the vertical or inclined cylindrical space created by the use of the high to very high pressure injection.



   Silt retaining walls have been created in a fairly analogous way, but have mainly elongated dimensions.



   Measuring at different heights of the width of such structures is an extremely important problem

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 for which no sufficient solution has been found so far. The existing measurement techniques can be summarized as follows: a) The excavation method gives very clear results, but is not feasible in all circumstances. This method is also not immediately practicable since the setting time must be taken into account. This method is very expensive; b) Placing z. g. piezzo meters. The measurement is performed from the outside. This method makes it possible to form an idea of the depth at which the beam can play an influence. Disadvantages are:
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 - voorhe, id ggrd, p - - o.

   Rlevert;, ppievert; a eau 4epaaleni, 2, 9 is only "2 a, it is agitated beforehand which is: jn. '.'. '',. '". -c '. r r, e s d <n yields S3 \. '.



  -. is just an s and r e. "" The Ritter of the piezzo-electric is not always on the, desired, "rtmoaeiii jtofr ,. ")" "scene:"; : ss' \ e) nc''mt wo''c! sehenden c) The width of the rhat 'verd-' Tole '' - 'i e r ej width e ^ d approximate as held' n t '. - ".". - ""



  The invention is considered to be reliable in such a way that it is possible to implement a device for prescribing a method which is capable of realizing that: in addition, additional boreholes are required Close to the piezzo-electric measuring device.
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  To make this "conforming", the device according to the invention comprises

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 a) a hollow cylindrical body to be lowered into the grout column or sludge retaining wall, made of non-magnetizable material in which a magnetic piston with piston rod can be moved with compressed air or oil under pressure; b) at least two measuring legs hingedly mounted at the bottom of the hollow cylindrical body, each of which is hingedly connected to the piston rod, such that the piston rod causes a displacement of the measuring legs;

   c) means at different levels on said cylindrical hollow
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 body to control the position of said magnetic piston. always zen., Always mentioned above. and "" T .. ". "'.-' = - ''" "=.. r '-'a .'-.' er'rj Other details will be added, hereinafter)" "-. for in situ and at different diameters of a grout column or a sludge retaining wall according to the invention. This description is only given by way of example and does not limit the invention.



   The reference numerals relate to the accompanying figures.
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  Figure 1 is a device according to the invention.



  .. I '
Figures 2 and 3 schematically illustrate the open and the closed position of the measuring legs from the device according to the invention.



   The device represented by these figures

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 contains a cylindrical body 1 of non-magnetizable material. A resistant and highly suitable material is, for example, an alloy based on aluminum.



   In the cylindrical body 1 which in turn can be mounted in a housing B, also shown in Figures 2 and 3, which is also non-magnetizable, a longitudinally displaceable piston rod 2 is mounted.



   A magnetic piston 3 is present on this piston rod 2, while sensors 4 are present in the wall of the cylindrical body 1 at regular distances from each other.



   In the example described here, each time is gone
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 same-height '' -.- '. ..-- '<r' <The magnetic piston 3 with piston rod 2 is driven via compressed air lines 5 and z Consider m Consider ',' .. '' '\ /'.- c' '' 'srf. working position ,.



  -. "." "" - '' t - '' ',. 'j''n2 de. movement obtained by increasing the magnetic through the compressed air line 6.



  four sensors are provided. In a technically advantageous and exemplary embodiment, as illustrated by the
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 In the figures, the lower end of the cylindrical body 1 is hingedly connected in two diametrically opposed points 7 to two measuring legs 8, which in turn are hingedly connected in 9 to a connecting arm 10 which is hinged in 11 is connected to the head 12 at the end of the piston rod 2.



   It will be clear that in certain

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 the device can contain more than two, for example three, measuring legs.



   In the upper part of the device d. i. of the cylindrical body 1 a sleeve 13 is provided for attaching the device to a rod, or a weapon iron 14, for example, with the intention of the device in a structure as intended above for forming a grout column or a sludge retaining wall to let and to position.



   A space 15 is also provided in the upper part of the device for receiving the electronic
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 - ")" 3. " d n'-t. . r'-ir '.'-) "' n '., \ / c'."



  The <. '.' V -.- r,, -e - ii '' (D¯P,? (F (e. -F, e. 9th (.; {., R \ n!? Ss'1rpg 1, 0, 1, 3, 7, 1, 1, 1, 1, 1, 2, 1, 1, 1, 1, 1,,,,,,,,,,,,,,,,. reliable '// i' -j oc '). cp brsc'ven de t ", <ff. oc ---', ... 'r"' \ -., <-, - "r -med) and so on a "Rom. Inverter", to be measured at different heights.



   The magnetic powered with compressed air
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 piston3za! r? '' '-.- --3 t''rscn' lp undergo displacement determined by; "", - "" /. "j) a measuring legs With an angle formed between the measuring legs 8 and corresponding. c t: Z. t. function The same applies to the measurement of the width of an elongated structure intended, for example, for forming a sludge retaining wall.



   With every movement of the measuring legs

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 corresponds to a corresponding displacement of the piston rod 2 with magnetic piston 3.



  Since a number of sensors 4 occur on this body along the length of the cylindrical body 1, it is clear that the passing of the magnetic piston 3 along these sensors will generate a signal which can be immediately converted into useful information.



  A displacement of the measuring legs between the fully closed and the fully open position thereof supports a course of the magnetic piston.



  Hetelectronic = <"-." "". r "'. basis, is from the measurement of the position of the magnetic piston 3 basis ttgtyandemetmg r'.":! .. f)) - ". -.:. l f'¯ '; (, -; 1? r - 'r .. - \ 1: -' ... t:. "" in the,.



  . b) The DE code itself, magnetic information, 7, 7 information, "C". "" -: f-- "." b) The DE code in numerical value at a given moment.



  When measuring the diameter of a '-f .-'. '.' "'.'" '-' '' T '. "J' 'cj) gnen" 9., A', roll. When measured, the measuring structure must be carried out several times each time after the measuring legs are turned. This creates a very precise image of the column, for example. Since the are carried out in a liquid grout mixture or bentonite, the measuring legs can

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 operating principle that can be moved quickly, allowing multiple measurements to be taken in good conditions.



   The different possible electronic schemes, which are the conversion of the position of the measuring legs, that is, of the magnetic piston t. o. enabling the sensors do not form part of the invention.



   From the description of the device it appears that a new and highly original solution has been found for solving the problems described in the preamble.


    

Claims (1)

 EMI8.1   Device for measuring the width of a structure such as o. A grout column, and the like, in situ and at different heights, characterized in that it comprises a) a hollow cylindrical body to be lowered into the grout column or sludge retaining wall made of non-magnetizable material in which a magnetic piston (3) with piston rod (2) can be moved under the influence of compressed air or oil under pressure b) at least two measuring legs hingedly mounted below the hollow cylindrical body are hingedly connected to the piston rod (2), with '/' . "..." ..-. 3rs. '') 'F'B means means c) .... -.... . ) body to the position of bedoe) the magnetic piston t. o. each time 2. 2. Device 1, with the. "" -. - characteristic that the above-mentioned means are formed by ... '' '.' .. ''. 'r., i <sensors which at the time of passing magnetic piston and an electronic signal