FR2636669A1 - Mobile regenerator unit for drilling muds. - Google Patents

Abstract

The present invention is in the field of treating drilling muds. More particularly, its subject is a mobile unit for cleaning drilling muds of the type comprising a plate 1 supporting a frame 2 upon which have been disposed primary separation means 3, secondary separation means 4, these secondary separation means 4 comprising a centrifuge 5, at least one hydrocyclone 6, at least one recycling pump 7, a pump vat 12, principally characterised in that the primary separation means 3 are constituted by a rotary cylindrical sifter 9, called a trommel, having an axis 10 substantially horizontal and parallel with a transverse dimension of the device, fed on its inside wall 11, the result of which is that the clayey clods which can be sent towards the installation with the mud are stopped and/or broken up by the sifter and no longer clog up the primary separation means 3.

Description

 The present invention is in the field of the treatment of drilling muds and more particularly relates to a mobile device for sanding them.

 When performing underground work such as drilling, tunneling, special foundations, it is often necessary to clean the sludge from the sand with which it is loaded; which is most often achieved by "cycloning" operations succeeding screening operations.

 Devices are known which carry out this sanding and which comprise: a plate supporting a frame, on which frame have been disposed primary separation means, secondary separation means, the primary separation means being constituted by a vibrating screen.

 However, it turns out that, when using such devices, if foreign bodies such as clods of clay are sent with the sludge, they clog the primary separation means and thus prevent the proper functioning of the device.

 The present invention aims to provide a mobile device, simple and effective, which ensures the separation of large elements (gravel, wood, stones ...) and clods of clay even very sticky, which can adapt to any type site, and having a feed rate which can vary from 0 to 100% of the nominal rate for the single cyclone sand separator and reach 150% for devices equipped with multi-cyclones.

 According to the present invention, a mobile device for desanding drilling mud of the kind comprising a plate supporting a frame, frame on which primary separation means, secondary separation means have been arranged, these secondary separation means comprising a wringer, at least one hydrocyclone, at least one recycling pump, one pump tank, is generally characterized in that the primary separation means consist of a cylindrical rotary screen, known as a trommel, of substantially horizontal and parallel axis to a transverse dimension of the device, supplied on its internal wall, from which it follows that the clay clods which can be sent to the installation with the sludge, are stopped and / or disintegrated by the screener and no longer clog the means of primary separations.

 According to another main characteristic, the rotary screener is subjected to pressurized jets, at its upper part, said jets being directed from the outside of the screener towards its wall.

 According to a last main characteristic, the screen pivots around an axis fixed to the frame and parallel to a longitudinal dimension of the device.

 According to a first secondary characteristic, the device also comprises a pump tank made up of two parts, the first of which is located downstream of the screen, a primary pump intended to transport the sludge from said first part to a cyclone, this same cyclone being located upstream of a vibrating screen wringer, which pours into the second part of the pump tank, and a secondary pump located downstream of the second part of the pump tank and 'upstream of a multicyclone battery located themselves upstream of said wringer.

 According to a second secondary characteristic, the device further comprises a distribution box located downstream of both the primary cyclone and the multi-cyclone battery and intended to supply water to said pump tank so as to stabilize his level.

 Advantageously, the primary cyclone separates the sands by centrifugation under high pressure, the discriminating particle size can vary from 50 to 120 microns depending on the density and viscosity of the mud.

 Advantageously also, the wiper consists of a tray comprising modular interlocking polyurethane elements.

Preferably, the wringer has cracks whose size can be adapted according to each type of sand.
More preferably, this rotary screener separates the large elements at 5 millimeters.

 Advantageously also, said distribution box has two inputs and three outputs, a first input coming from the purified output of the primary cyclone, the other coming from the purified output of the multicyclones, a first output in privileged correspondence with the first input, to the first part of the pump tank, a second outlet to the second part of the pump tank, and a third outlet to the final extraction.

 According to a final secondary characteristic, the first two outlets to the pump tank are controlled by float valves, from which it follows that the recycling box thus favors double cycloning (passage in series in the cyclone and the multicyclones), in the case where the inlet flow rate is lower than the nominal flow rate of the primary pump, while allowing # parallel cycloning in the case where the inlet flow rate is greater than the nominal flow rate, whence it ultimately results that the device has a very great flexibility of operation.

The present invention will be better understood and details will be apparent from the description which will be made of a particular embodiment, in relation to the figures of the appended plates in which
Fig. 1 schematically illustrates a sanding device of the prior art.

 Fig. 2 illustrates in the same way, a device according to the invention.

 Fig. 3 illustrates in their relative positions and in their functions the constituent elements of the device of the invention in one of its possible embodiments.

 Fig. 4 is a representation.

tion in perspective of the device of the invention.

 In fig.l, a device (A) for sanding the prior art comprises a plate 1 supporting a frame 2, said frame comprising primary separation means 3, secondary separation means 4 and a lifting pump 8 transporting the mud from the ground to the primary separation means 3. The primary separation means 3 use a vibrating screen 6 'which performs a first separation, allowing the removal of large elements (gravel, wood, stones ...). The secondary separation means 4 use a primary cyclone 6, a recycling pump 7, a pump tank 12, and a wringer 5, elements whose respective functions will be described later.

 In fig.2, a sanding device (B) according to the invention comprises primary separation means 3, which use a rotary screener, or trommel 9 sprayed with jets 9 '; said screen 9 eliminates not only the large elements, such as gravel, wood, stones, but also clods of clay, even very sticky which come into contact with said trommel 9. This rotary screen 9 is, during operation of the device , driven in rotation about an axis 10 parallel to a transverse dimension of the device; it separates large elements larger than 5 millimeters, which are discharged to the ground, while the sludge is sent to secondary separation means 4. These secondary separation means 4 include, in common with those of prior art devices, a hydrocyclone 6, a pump tank 12 receiving the sludge from the trommel 9, these moving after spinning, towards the hydrocyclone 6 via a recycling pump 7 which ensures the transfer.

 In FIG. 3, the sanding device of the invention, in one of the possible forms of its embodiment, uses a rotary screen 9, fed on its internal wall 11, comprising an ejection chute 9 ", the screen pouring its sludge after screening into a pump tank 12 while the gravel separated from the sludge falls to the ground through the chute 9 ".

 The pump tank 12 consists of two compartments (12 ', 12 ") overhung by a distribution box 14, said pump tank making it possible to stabilize the levels by automatic recycling. The mud, being in the first part 12' of the pump tank 12 from the rotary screen 9, is transported by means of a primary pump 7 ′ to a cyclone, called primary 6, which separates the sands by centrifugation under high pressure. The primary pump 7 ′ comprises a turbine and shields in Ni-hard cast iron or in abrasion-resistant rubber, depending on the uses; transmission is carried out by means of pulleys and belts.

 After cycloning by the primary cyclone 6, a vibrating wringer 5 receives the sands coming from the tip of said primary cyclone 6 and restores an easily shoveled drained sand 5 ". The wringing plate 5 'consists of modular interlocking polyurethane elements , whose size of the cracks is adaptable according to the type of sand, the grain of which can be from 0.2 to 0.4 or 0.6 millimeters.

 If the sludge is loaded only with coarse sand, a simple cycloning carried out by the primary cyclone 6 is sufficient and the sludge is then sent to the pump tank 12, in its second part 12 "and from there to the outlet conduits 14 If, on the other hand, the sludge is loaded with fine or ex-fine sand, a double cycloning will be necessary, and will be carried out thanks to the second stage of a device equipped with multi-cyclones 18 which guarantees maximum sand removal with a single passage through the machine. The sludge will therefore be sent from the second 12 "part of the pump tank 12 to the battery of multi-cyclones 18 supplied under high pressure, by the intermediary of a secondary pump 7", of identical design. to that of the primary pump and which takes up, partially or totally according to its size, the filtrates of the wiper 5. After the double cycloning, the sludge is again sent to the wiper 5, then to the 12 "part of the tank pump which will return them to the outlet conduits 14 'via the recycling box 14.

 This recycling box 14 has an important role in the proper functioning of the device; it is provided with two inputs (a ', b'): one from the purified output of the primary cyclone 6, the other from the purified output of the multicyclones 18, and three outputs: a first output, in correspondence privileged with the first inlet to the first part 12 'of the pump tank 12, a second outlet to the second part 12 "of the pump tank 12, and a third outlet 14' to the final extraction, the first two. outlets to the pump tank being controlled by float valves (21,22). Separations and internal baffles, judiciously arranged thus favor double cycloning in the case where the inlet flow rate is lower than the nominal flow rate of the pump primary 7 ′, while allowing cycloning in parallel in the event that the input flow is greater than the nominal flow, for example greater than 200 m 3 / hour. This last recycling box ensures the proper functioning of the cyclones despite flow variations in the feed (0 to 150%).

The multicyclones 18 also supply (c ') with water, the jets 9' intended to water the trommel 9.

 In FIG. 4, to be compared with the diagram of the previous one, a sanding device in accordance with the invention, in a monobloc assembly transportable on a truck comprises all the elements which have already been stated previously and the location of which will now be described in the device. A trommel 9 is rotated about an axis 10, said axis being fixed to a housing 10 '' 'housing a motor, the trommel having at its lower part an ejection chute 9 ", the whole being substantially located at center of the device and able to pivot about an axis 10 ', perpendicular to the axis 10 of rotation of the trommel 9 and being located under a support 13 of said trommel 9; the pivoting is intended to regulate the ejection of the gravel by the chute 9 ". The trommel 9 is supplied on its internal wall by a non-visible lifting pump located at the rear of the device. A primary cyclone 6 located on the upper part of the device is supplied by a pump tank 12 located under the trommel 9. A box distribution 14, is located under said primary cyclone 6 and at the same height as the trommel 9 and is powered by the primary cyclone (d) and by the multi-cyclone battery (c); said primary cyclone 6 discharges into a vibrating wringer 5, driven in vibration by a couple of unbalanced motor 17, said wringer being not visible in the figure, but being placed at the same height as the trommel 9 of the other side of the distribution box 14.A battery of cyclones 18, called multicyclones, is located on the upper part of the device, and is supplied by a primary pump 79 connected to a line k taking its source (m) in the tank pump 12; said multicyclones then pour, after cycloning, into the wiper 5 (not shown) and supply water with a pipe the jets (not visible) oriented towards the wall of the trommel and intended to facilitate the desanding, while a second 9 "discharge chute collects the sand from the wiper and from the separation effected by the multicyclones 18. And finally an electrical box 16 is placed on the side wall of the pump tank 12, halfway up, is supplied with a voltage of 380/440 V, at a frequency between 50 and 60 Hz, and allows specific protections. This device also comprises, not shown in the drawing, control elements such as pressure gauges, means for taking samples, particularly effective anti-abrasion protection means, etc., and is of reduced maintenance and upkeep.

 This device can therefore be advantageously applied to special foundations: piles, bars, walls molded under bentonite sludge, and used in sludge treatment stations, underground work, tunneling and work by hydraulic shield.

 Although a particular embodiment of the invention has been described and represented, it should be understood that it is not limited to this form and to these means but that it extends to all devices sanding machine with the general characteristics set out above.

Claims (3)

1.- Mobile device for gritting drilling mud  of the kind comprising a plate (1) supporting a frame  (2), frame on which have been arranged means of  primary separation (3), separation means  secondary (4), these secondary separation means  (9) comprising a wringer (5), at least one hydrocyclone  (6), at least one recycling pump (7), one tank  pump 12, characterized  in that the sep means  primary ration (3) consist of a screener  rotary (9) cylindrical, said trommel, axis (10) sen  substantially horizontal and parallel to a tran dimension  transverse of the device, fed on its internal wall  (11),  from which it follows that the clods  clay that can be sent to the facility  with the sludge, are stopped and / or disintegrated by the  screener and no longer clog the means of separation  primary (3) 2.- Device according to claim 1, characterized  in that the rotary screener  (9) is subjected to jets (9 ') under pressure, at its  upper part, these so-called jets <9 ') being directed  from outside the screen (9) towards  its wall 3.- Device according to any one of claims  1 and 2, characterized  in that the screener (9)  pivots around an axis (10 ') fixed to the frame (2) and parallel  raises to a longitudinal dimension of the device 4.- Device according to any one of the claims  previous, characterized  in that it further comprises  a pump tank (12) made up of two parts  (12 ', 12 ") of which the first (12') is located downstream  of the screen (9), a primary pump (7 '), intended  to transport the mud from said first part (12 ')  towards a cyclone (6), this same cyclone (6) being located  upstream of a wringer (5), with a vibrating screen, which  pours into the second part (12 ") of the pump tank  (12), a secondary pump (711), located downstream of  the second part of the pump tank (12) and upstream  a battery (17) of multi-cyclones (18) being  themselves upstream of said wringer (5);  5.- Device according to claim 4, characterized  in that it further comprises  a distribution box (14), located downstream, at the  times, primary cyclone (6) and battery (17)  multi-cyclones (18), and intended to supply  water said pump tank (12) so as to stabilize  its level 6.- Device according to claim 5, characterized  in that the primary cyclone  (6) separates the sands by centrifugation  under high pressure, the discriminatory particle size  can vary from 50 to 120 microns depending on the  density and viscosity of the mud;  7.- Device according to any one of claims  previous, characterized:  in that the wringer (5) is  consisting of a plate (5 ') comprising elements  modular nestable polyurethane 8.- Device according to any one of claims  previous, characterized  in that the spinner (5) com  carries cracks (5 ") whose size is adaptable  depending on each type of sand, and  in that the screener (9) ef  performs the separation at Smm of the large elements 9.- Device according to claim 5, characterized  in that said re box  partition (14) has two entries (a ', b') and three  outputs, a first input (a ') from  the purified outlet of the primary cyclone (6), a second  coming from the refined output of the multicyclones  (18), a first exit, in privileged correspondence  with the first entry, towards the first part 12 '  from the pump tank 12-, a second outlet to the  second part 12 n of the pump tank 12, and a  third outlet 14 'to the final extraction; 10.- Device according to claim 9, characterized  in that the first two  outputs to the pump tank 12 are controlled by  float valves (21,22),  where it follows that the box  recycling privileges double cycloning  (passage in series in the cyclone and multicyclones)  in case the inlet flow is lower than  nominal flow rate of the primary pump 7 ', while allowing  both a parallel cycloning in the case where the flow  inlet is greater than the nominal flow,  where it ultimately results  that this device is very flexible  Operating.