NO823004L - BROENN PERFORING WIRING DEVICE. - Google Patents

Description

The present invention relates to perforating guns for wells, and more particularly a wiring device or cable mat for selective firing systems for perforating guns in oil and gas wells.

Prior art selective firing systems connect the perforating guns to the firing system (at the ground surface) over a single wire, typically using a downhole addressing device, which acts on a coded signal over the wire to select the particular gun to be fired. In the simplest case, the cannons are simply fired in sequence. In more complicated systems, means are provided (such as a control or steering capsule down the well)

for controllable addressing of special guns from the surface. The latter system, however, requires a number of conductors (multi-conductor cable mat) to connect the guns to the control capsule, where each gun is typically connected with its own, special control wire. (An economical alternative is to use each wire to control two guns using "diode control", where a firing signal of one polarity fires one gun, and the opposite polarity the other).

A fundamental disadvantage of such a multi-conductor cable mat for selective firing systems is the necessity to connect each individual cannon with one special wire. That is to say, when the perforating guns are mounted on their carrier, they are positioned according to the special perforating pattern to be

. is achieved. The individual guns are usually the same, and. taken from a common stock, but this is not the case with the electrical connections. For simplicity and efficiency, the guns are electrically connected by a series of pre-made cable mats. The cable mats have standardized connection units at each end for quick connection, and the cannon array is connected by plugging the cannons and cable mats into each other. For the first cannon in the row, select the cable mat that has a connecting wire connected to the mat wire representing the first cannon; for.the other cannon is connected to different mat wire etc.. Although the cannons are the same and interchangeable, this is not the case with the cable mats, and v great care must be taken to be sure that the correct cable mat is used in the correct order. It also means that you must have a large stock of cable mats, each special for a specific person

position in the cannon line.

There is thus still a need for a multi-conductor system

for the selective firing of well-perforating guns, where not only the guns, but. the cable mats are also standardised, in order to reduce inventory, simplify assembly of the gun array and to minimize the possibility of incorrect connection when using the wrong cable mat for a given location.

The present invention meets the aforementioned needs and purposes. with a selective multiconductor firing system for well perfo-•,. routing cannons where equal cable mats are used, and where each cable mat gradually determines or increments the relative position of conductors in it. In a variant with diode control, two are used. cable mats, where one is incremented and the other is not, as one wire can serve two guns. (Alternatively, a single cable mat can be used for adjacent cannon pairs.) - I—"'% : ''

In the preferred embodiment, a vertical system of selectively activated perforating guns is mounted on a carrier device for later hoisting down and placement in a borehole. Individual electric firing devices, typically electric detonators, are assigned to each perforating gun for individual firing of that particular gun. A cable and a control capsule are connected between the gun array and the firing control device on the ground surface. The firing control device and the control capsule down in the well selectively address each individual detonator by sending out the right electrical signal over the special wire in a multi-conductor cable mat. which is associated with the selected perforating gun. Where diode control. is to be used, the cannons can be arranged in subgroups, where each subgroup is connected by a single wire in the cable mat. Where each cannon has its own wire, each subgroup can be considered to consist of a single cannon.

In contrast to the above arrangement according to the prior art, the subgroups of guns in the array according to the present invention are electrically connected to each other by equal, stepped cable mats, one for each subgroup. The cable mats can be connected in series, and the first or top cable mat

is connected to the control capsule down in the borehole. In the preferred embodiment, the cable mats have suitable connecting devices,

one to receive the electrical signal and one to transmit or send it to the next cable mat. Each cable mat also has internal connecting leads arranged to increment the connections, preferably by one position each, between the respective connecting units.

Each cable mat also has a coupling device which is sensitive to an electrical addressing signal over a special connecting wire, for connecting and controllably energizing the electric detonator assigned to the perforating gun for the particular cable mat. As shown, the cable mats are similar, and therefore the connecting devices in each cable mat are similar and connected by the same special wire. Even though they are connected by the same special wire in each cable mat, the different connecting devices in the series-connected mats are not electrically connected to the same terminal in the terminal box. This is due to the incrementing of wires in each cable mat. '

As each wire harness electrically increments all subsequent wires in the series, the surface firing control device can therefore address the guns uniquely associated with each of the identical wire harnesses by causing the control capsule to address the particular wire in the preceding th cable mat which through a series of cable mats is cumulatively indexed to the capsule.

It is therefore an object of the present invention to provide a selective firing system for well perforating guns, where several conductors are individually connected to individual subgroups of perforating guns through identical cable mats, one for each subgroup, where the cable mats can be connected in series, and where each cable mat increments the electrical position of the wires connecting through it.

These and other objects are achieved according to one aspect of the invention directed to a staggered cable mat in a firing system for well-perforating guns, with a vertically arranged group of selectively activatable perforating guns arranged for hoisting and placement in a borehole, characterized by: a staggered cable mat - unit for one

predetermined subset of perforating guns, which can be interconnected in a series configuration with other such mat units>wherein the cable mat unit has a receiver coupling unit and a

transmitter coupling unit for connecting in series with other such cable mat units, and internal connecting leads arranged to increment the connections between the respective coupling units, and a coupling device sensitive to an electrical address signal on a predetermined line for controllably energizing the associated perforating gun, where the incremented connecting wire increments all subsequent wires in the series so that cannons uniquely associated with such mat unit can be addressed by addressing the particular wire cumulatively indexed by such cable mat units.

Another aspect of the invention is directed to a method of mounting, a well perforating gun, comprising: mounting a vertically arranged group of selectively activatable perforating guns, arranged for hoisting and placing in a borehole; associating individual electrical firing devices for each cannon to activate the associated cannon; connection of an electrical wire with each firing device adapted to activate a particular gun when properly addressed by a controller, and characterized by: connecting a number of equal cable mat units, one for each predetermined subset of perforating guns, in a series configuration where each mat- unit has a receiver coupling unit and a similar transmitter coupling unit with internal electrical connection lines between the coupling units to increment the connections; and connecting with the electrical firing device an identical coupling device in each cable mat unit, sensitive to an electrical addressing signal on the same electrical conductor in each mat unit, for controllable energization of the associated electrical firing device, the incremented wires providing electrical incrementation of all subsequent wires in the series, so that the guns uniquely associated with one of the identical mat units can be addressed by addressing the particular electrical wire cumulatively indexed thereto by the cable mat units.

Fig. 1 is a somewhat simplified illustration of a cannon system

.for well perforation.

Fig. 2 is a schematic illustration of a first cable mat embodiment according to the present invention, and Fig. 3 illustrates an alternative embodiment similar to

fig. 2.

Fig. 1 shows a vertically-arranged group 10 of selectively activatable perforating guns 12 which are connected down in the borehole with a control capsule 14 and a cable 15 to a firing control device, such as a control panel 20 placed on the ground surface. In use, the group 10 is lowered into a well by means of the cable 15, and when it is correctly positioned by means of the cable 15, the various guns 12 are activated to perforate the well.

In the embodiment shown in fig. 2, the individual cannons are fired by individual electrical firing devices, such as the detonators 25. The detonators individually fire the specially associated cannon upon receiving the correct electrical signal on the connecting wire 30 (fig. 2) connected to the associated cable mat unit 35.

The individual electrical cable mat units 35 are identical r one for each cannon 12. In order to be connected in series, each of them has a receiver-connector unit 36 and a corresponding transmitter-connector unit 37. Each mat unit also has internal connecting wires 39 which , according to fig. 2, increments or advances the connections between the respective connector units 3 6 and 37. That is, the wire connected to a first terminal on the receiver connector unit is connected to another terminal on the transmitter connector unit, etc.

Each cable mat unit also has a coupling device, such as wire 40, which is connected to one particular of the connecting wires 39 to respond to an electrical addressing signal on that particular wire, under the control of the firing control panel 20 and control capsule 14 downhole, to energize the associated detonator 25. Due to the increment of the connecting wires at the cable mat 35, the control panel 20 can directly address the guns 12 individually, even though the connector or wire 40 is equally connected within each of the identical cable mat units 35.

The selective firing system illustrated in FIG. 3 are different from that in fig. 2 as the perforating guns are generally arranged in subgroup pairs instead of individually. Likewise, the cable mat units are arranged in pairs, one of which is an incremented mat unit 3 5 as shown in fig. 2, and the other a continuous (non-incremented) cable mat 55. In the preferred embodiment, the cable mat 55 comprises a pair of diodes 57 to selectively activate one of the detonators 25 in the pair of cannons 58a and 58b, which are energized on the same wire from the capsule 14. •The choice comes, depending on whether the energizing signal is positive or negative. A negative signal will fire cannon 58a by sending current into the connecting wire 60 on the continuous mat 55. A positive signal will fire cannon 58b by sending current into the coupling device 40 associated with the incremented cable mat 35. The diode pair 57 thus functions as a control device between the special connecting line 61. by which they are connected in each of the cable mats 55 and the pair of cannons which are connected to be fired thereby. This provides for selective energization of the detonators 25 on the pair of guns as a function of the signal finally placed on the special connecting line 61 under the control of the panel 20.

As can be seen, the present invention has many advantages.

In principle, it is no longer necessary to stock a large number of cable mat units, each of which is unique to a specific cannon site. Instead, similar cable mat units can be used throughout. This makes the assembly of the gun group much easier and faster, and significantly reduces the possibility of misconnection. When the cable mat unit is formed of two mats, such as mats 35 and 55 in the diode control embodiment of FIG. 3, the connection unit can be polarized so that the continuous mats 55 cannot be plugged directly into each other, but must be connected through an incremental cable mat 35. view of the invention, it must be understood that the invention is not limited to exactly these embodiments, and that changes can be carried out without deviating from the scope of the invention.

Claims (4)

1. Wire device or cable mat unit for selective firing of a system of well-perforating guns with a vertically mounted group of selectively activatable perforating guns, arranged for hoisting and placement in a wellbore, characterized by a staggered cable mat unit for a predetermined subset of perforating guns, which can be connected in series with other such mat units, that the cable mat units have a receiver connector unit and a corresponding transmitter connector unit to connect with two other such cable mats in series, and have internal connecting leads arranged to increment the connections between the respective connector units, and a switching device in the cable mat unit sensitive to an electrical addressing signal on a predetermined connecting wire for controllable ergification of the associated perforating gun, the incremented connecting wires electrically incrementing all subsequent wires in the series, so that the guns uniquely associated with such cable mat unit in a series of similar cable mats, may be addressed by addressing the particular wire cumulatively indexed thereto by such cable mat units. 2. System according to claim 1, characterized in that the sub-assembly is a single gun, and the connecting device is a wire for connecting a predetermined connecting wire to the perforating gun. 3. System according to claim 1, characterized in that the subgroup is a number of guns, that the cable mat unit comprises at least one incremental mat and at least one continuous mat, and that the coupling device is a control device connected between said connection line and the gun group to selectively energize the guns as a function of the signal that is placed on the connection line. 4. System according to claim 3, characterized in that each cable mat is for a pair of the perforating guns and has a polarized receiver-^ 1. Wire device or cable mat unit for selective firing of a system of well-perforating guns with a vertically mounted group of selectively activatable perforating guns, arranged for hoisting and placement in a wellbore, characterized by a staggered cable mat unit for a predetermined subset of perforating guns, which can be connected in series with other such mat units, that the cable mat units have a receiver connector unit and a corresponding transmitter connector unit for connecting to two other such cable units in series, and have internal connecting leads arranged to increment the connections between the respective connector units, and a switching device in the cable mat unit sensitive to an electrical addressing signal on a predetermined connection wire for controllable energization of the associated perforating gun, the incremented connection wires electrically incrementing all subsequent wires in the series, so that the guns uniquely associated with such cable mat unit in a series of similar cable mats, can be addressed by addressing the particular wire cumulatively indexed thereto by such cable mat units. 2. System according to claim 1, characterized in that the subgroup is a single gun, and the connecting device is a wire for connecting a predetermined connecting wire to the perforating gun. 3. System according to claim 1, characterized in that the subgroup is a number of guns, that the cable mat unit comprises at least one incremental mat and at least one continuous mat, and that the coupling device is a control device connected between said connection line and the gun group to selectively energize the guns as a function of the signal that is placed on the connection line. 4. System according to claim 3, characterized in that each cable mat is for a pair of the perforating guns and has a polarized receiver-