FR2519431A1 - Seismic prospecting appts. - where a row of boxes, each contg. explosive charge and detonator fired electrically, is lowered by cable down hole drilled in earth - Google Patents

Abstract

The appts. includes a cable provided on its bottom end with a wt., lowered into a hole drilled in the earth. The cable is first provided with a vertical row of boxes, which each contain explosive charges, a support for a detonator with electric contacts. The cable passes through each box; and a bundle of electric wires also passes vertically through each box so the detonators in all the boxes can be fed with an electric current causing an explosion. The detonator consists of a tube provided with contacts on its bottom end, these contacts mating with a pair of contacts fixed in the box and connected to two of the bundle of electric wires. Used for example, a hole 50-175 metres deep is drilled in the earth. The boxes are exploded while seismographs on the surface of the earth analyse the shock waves to determine the type of earth at various depths.

Description

 The present invention relates to an apparatus for studying the nature of the subsoil by the method known as seismic coring.

 According to this method, one or more holes are drilled with a depth which is generally of the order of 50 to 175 m and successively detonate small charges of explosives staged over the entire height of the hole. Seismographs located on the surface of the ground are activated by the arrival of seismic waves through the ground, the analysis of the corresponding records provides indications on the nature and the arrangement of the underlying layers of land.

 The device used under the name of "seismic corer" is composed of a cable, preferably weighty at its end, to which are attached, at suitable locations, the explosive charges each provided with its detonator connected by electrical wires to a device for firing placed on the surface and connected to the recording means.

 So far, seismic corers have been handcrafted and often at the firing point, by direct fixing of the explosive charges on the cable at the places provided in advance. This preparation requires time and is not absolutely secure, despite the care taken.

 The object of the present invention is to provide a seismic corer which is easier to use and provides increased security compared to the current method.

 The present invention therefore provides a seismic coring device comprising a ballasted cable capable of being lowered into a hole and to which are fixed, at heights provided in advance, charges of explosive equipped with electrical ignition devices connected to the ground by electrical conductors capable of igniting said charges at different times, which has the particularities that the weighted cable carries at said heights fixed in advance, connection boxes each provided with electrical contacts connected to the surface by said electrical conductors, that the connection boxes also include a passage for the electrical conductors corresponding to the charges located lower on the cable, supports for explosive charges and a support for the detonator, the electrical contacts being arranged at the inside or near the support for the detonator, and that the detonator includes a plug-in part which ensures con connection of the detonator with said contacts when it is placed in its support.

 -Preferably, the detonator has a cylindrical shape and is extended by the plug-in part, the support for the detonator in the case is a cylindrical cavity elongated parallel to the cable.

 Preferably, again the explosive charges are formed by cylindrical tubes joined in parallel and the supports for the explosive charges consist of grooves provided in the case and in which said tubes can be force-fitted.

Other particularities and advantages of the invention will be explained with reference to a practical, non-limiting example of an embodiment according to the invention, illustrated by the drawings among which
Fig. 1 is a schematic view of the entire core barrel in place in the ground.

Fig. 2 is an exploded perspective view showing a connection boot and the accessories intended for it, and
Fig. 3 is a vertical sectional view of the same case, ready for shooting.

The corer, as a whole, is composed of a steel cabal 1, of length corresponding to the desired seismic coring. The cable 1 is terminated at its lower end by a loop 2 intended for the attachment of a ballast (not shown). (At its other end, the cable 1 can be fixed to a winding winch.)
The cable carries, at defined intervals (in practice every three meters) from the ground, connection boots 4 all identical intended each to carry a detonator and explosive charges, the number of which may vary depending on the position of the boot relative to the ground, the deepest bootmakers receiving, in principle, the heaviest loads. In Figure 1, the bootmakers are also distributed starting with the ground, but it is obvious that other distributions are possible, leaving for example a space without shoemaker near the surface, or with greater spacing downwards. The reference 5 designates a bundle of electrical connection wires which are connected to the shoemakers and follow the cable 1 to the surface.

 A shoemaker 4 is formed from two symmetrical molded parts 4a, 4b assembled by rivets 6 to form a compact block which has roughly the shape of a T and which is crossed by the cable and the electrical connection wires.

Each bootmaker carries a label 7 for locating its distance from the ground.

 Figure 3 shows the shoemaker 4, with the part 4b assumed removed, which corresponds to a cut of the shoemaker by the assembly plane.

 The upper part of the shoemaker 4 has at its enlarged upper part, three vertical grooves 8, 9, 10 which open onto the upper face of the shoemaker and have the same depth. These grooves can each receive an explosive charge of 10 g called "reinforcers" 11, 12, 13, each formed by three metal cylinders 14 filled with explosives and held together by a bar 15, the diameter of these cylinders 14 is slightly less than the width of the grooves 8, 9, 10 so that they are force-fitted into them. In addition, the wall of each cylinder 14 has a circular groove 16 which cooperates with a rib 17 of the vertical wall of the groove for better support.

The housing 4 further comprises a vertical circular hole 18, placed on either side of the assembly plane of the parts 4a and 4b. This hole opens at the upper surface of the housing 4 at approximately equal distance from the three grooves 7,8,9. Its lower end opens into a cavity
19 in which two fixed electrical contacts are placed
20, 21 in tinned brass. Detonator 22, which comes
expensive by force in hole 18 has at its lower end
two other contacts 23, 24 which bear on
the fixed contacts 20, 21. One of the fixed contacts 20, is re
linked to 801 by an insulated electrical wire 25 which is also
connected to contacts 20 of the other corers of the core barrel, then
that the other fixed contact 21 is connected to the ground by another wire
insulated electric 26, which is specific to the corresponding housing.

 The wires 25, 26 are part of the bundle of wires 5.

Inside the cavity 19 is further
provided a boss 27 around which the cable 1 is wound
to immobilize the housing 4 in position. The housing 4 comprises
more passages for cable 4 and the wire harness
connection 5, these passages lead to the upper faces
and lower of the housing, as well as; internally, in the
cavity 19.

For simplicity, only wires 25 and 26 have
summer. shown in Figures 2 and 3. I1 is however clear
that the other wires in the bundle follow the same path as the
wire 25 to enter and exit the housing.

a corer preparation in workshop com
carries the installation of the housing 4 on the cable 1, making
take this one around the boss 27, as well as the
installation of electrical connection wires, and the immobili
sation of the housing by laying the rivets 6. It comprises
in addition to placing the labels on each box. The sons of
connection include at their output connection lugs and
corresponding load depth marking labels
to identify and connect them fa
for the firing of charges. Corers as well
constituted are conditioned on reels. Detonators
and the seismic reinforcers being packaged separately, in
specific packaging.

 In the field, it suffices to set up the detonator 22 and the reinforcers. Depending on the circumstances, including the depth, a bolt bowl can receive 1,2 or 3 reformers. Thus, field operations are reduced to a minimum, and the risk of inaccuracy in the depths is also reduced.

Claims (3)

 1. Seismic coring device comprising a ballasted cable capable of being lowered into a hole and to which are fixed, at heights provided in advance, charges of explosive equipped with electrical priming devices connected to the ground by electrical conductors capable of igniting said charges at different times, characterized in that the ballasted cable (1) carries at said heights fixed in advance, connection boxes each provided with electrical contacts connected to the surface by said electrical conductors , in that the connection boxes also include a passage for the electrical conductors corresponding to the charges located further down on the cable, supports for the explosive charges (11, 12, 13) and a support for the detonator (22 ), the electrical contacts being arranged inside or near the support for the detonator (22), and in that the detonator comprises a plug-in part which ensures the connection of the detonator with said contacts when it is placed in its support,  2. Device according to claim 1, characterized in that the detonator (22) has a cylindrical shape and is extended by the plug-in part, - and in that the support of the detonator in the case is a cylindrical cavity (18) elongated parallel to the cable.  3. Device according to claim 1 or 2, characterized in that the explosive charges (11, 12, 13) are formed by cylindrical tubes joined in parallel, and in that the supports for the explosive charges consist of grooves (8, 9, 10) provided in the case and in which one can force fit said tubes in variable number.