RO132208A1 - Plant for conveying liquids vertically from underground wells - Google Patents

Abstract

The invention relates to a plant for conveying liquids vertically, from underground wells, by applying elements of information technology and communication, measuring the operation parameters by means of some sensors and controlling an electric motor and a secondary one. According to the invention, the plant consists of an intelligent operation unit (B), comprising a computing unit (1) which manages the coordinated operation of all the components of the plant for conveying liquids vertically from some underground wells (A) and which bidirectionally communicates with an external server for transmitting the collected data and for receiving the work parameters, consisting of a drive unit (C) which engages with the Mobius-type absorbing belt and collects the vertically conveyed liquid, comprising 17 rollers attached to an exoframe (179), heated with an electric heater (39), where, of the said 17 rollers, 9 rollers are doubly-cantilevered and 8 rollers are simply-cantilevered, two of which are driving rollers, two engaging rollers and 13 free rollers, consisting of a side inverter which also has the supplementary role of collecting the conveyed liquid, a technical leg (D), which provides the manholes and operational holes needed to install/uninstall/modify the Mobius-type absorbing belt, an explosion preventer (E), consisting of a Mobius-type absorbing belt (F) with only one side, made of some textile materials woven with natural or artificial fibers, consisting of an underground unit (G), of special shape, which enables the Mobius-type belt (F) turning at 180°, the flexible anchoring onto the liquid well walls, the easy circulation of liquids besides it and which enables the liquids with high viscosity to be entrained and temporarily liquefied, comprising a measuring unit (H) which enables the collection, primary decantation, the liquid production measurement and the pumping thereof up to the collecting area.

Description

The invention relates to an installation for the vertical transport of liquids from underground wells, applying elements of information and communication technology that measure the operating parameters through sensors and control the main and secondary electric motor. By means of a surface unit and a bottom unit the main electric motor engages a single-sided Mobius type absorbing belt, made of superimposed textile materials, woven with natural or artificial fibers. By circular motion, the same point on the Mobius belt, successively dips into the liquid and absorbs part of it, then reaches the surface unit where the liquid is separated from the Mobius belt by mechanical pressurization and brushing procedures. The collected liquid is then directed to a unit of measurement where it is decanted, measured by volume and pumped further to the final collection area.

Several plants are known, with limited applicability to the oil extraction industry, thus;

An installation is known, in which a continuous flexible element, with cross-section, square or circular, is wound several times on a drive drum.

Also known is an installation with a continuous flexible element with two faces, driven between the teeth of two gears, with special profiles, one motors and the other pressers.

Also known is another installation (RO121995) which comprises a continuous flexible element with two faces, passed over a profiled motor roller and pressed by a chain having a closed type construction, provided with a gear similar to that of the motor roller.

Also known is another installation (RO125468 B1) which comprises a continuous two-sided flexible element, wrapped over a central roller, over which a double-toothed belt is passed over six rollers of which one motor.

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The disadvantages of these installations refer to the relatively narrow range of practical applicability, only in the oil wells of small and medium depth, they refer to the inefficient system of driving the flexible element as well as to large mechanical demands on the flexible element which shortens its life very long. life. Other disadvantages common to these installations refer to the fact that (1) they did not provide any protection system in case of breakage of the flexible element, (2) the motor rollers are in direct contact with the flexible element which, in case of locking the flexible element, leads to friction continuous of the motor roller until the flexible element is sectioned, (3) use a flexible element that is unevenly attacked on both sides resulting in a shorter service life, (4) the bottom unit is uni-modular with predetermined weight resulting in high costs of its production and waste of material, (5) the shape of the bottom unit does not allow the easy passage of the dense fluids, resulting in a stopper effect and the blocking of the installations finally, (6) the realized production is measured only in the parks collection or in the basin, at large intervals, which leads to the impossibility of optimizing the working regime, (7) did not foresee you have explosion protection systems in case of overheating of the installation which leads to a high risk of explosion, the units operating in ATEX zero zones, (8) have no systems for continuous adaptation of the operating regime, which leads to low efficiency, (9) no digital information collection and transmission systems were provided to a central server which means that much of the operating information is lost, (10) they did not provide for the order from smart mobile devices which leads to higher costs. large operating systems, (11) did not provide local decision systems to implement work schedules, which leads to higher operating costs, (12) provided inefficient flexible element sewing systems, (13) did not have adequate collection system, which makes them difficult to use in heavy oil wells that, in contact with air, solidify, (14) no protection systems have been provided the paraffin / asphaltene accumulations in the surface units, (15) did not sufficiently isolate the upstream and downstream routes of the flexible element, which leads to contamination between the two routes, loss of production and further increased inefficiency, (16) guide rollers from the technical foot are in direct contact with the flexible element which leads to unnecessary additional friction, (17) the tension rollers on the surface unit are constructed in simple console which leads in time, under the effect of 2016 00306

28/04/2016 heat and weight when the axiality of the elements in the unit is lost and the surface unit is compromised.

The installation of vertical transport of liquids from underground wells A, according to the invention, removes the disadvantages mentioned by transporting liquids vertically in an intelligent, flexible and efficient way, in that it is provided with an intelligent operating unit B composed of a computing unit. which manages the coordinated operation of all components of the underground wells vertical transport facility, a geographical positioning and communications unit that uniquely identifies the underground wells vertical transport facility and communicates bidirectionally with a central server, by transmitting of the data collected in the current operating mode and by receiving the commands for modifying the operating mode, a control and control unit of the electric motors that controls the power and speed of the main engine and controls the start / stop of the auxiliary engine and a control unit. sensors that monitor the electrical parameters of the engines and monitor the internal and external temperatures of the exoskeleton and which monitor the state of the decanting and production sensors in the unit of measurement and which monitors the linear speed of the Mobius-type absorbing belt, a C-motor unit that engages the absorbing belt. type Mobius and collects the liquid transported vertically, composed of 17 rollers of which 9 in double console and 8 in single console, of which 2 engines, 2 gears and 13 frees, composed of a front inverter which also has an additional role of collection, a technical leg D that provides the visiting and operational mouths needed to launch the Mobius type absorbent belt, an explosion preventer E, a single-sided Mobius F absorbent belt, made of superimposed textile materials, woven with natural fibers. or artificial, an underground unit G of special shape that provides the return of the Mâbius type belt to 180 degrees, ensures the flexible anchoring of the walls of the liquid well, ensures the easy passage of the liquids next to it and that ensures the liquid viscosity with high viscosity and their temporary liquefaction, a unit of measurement and pumping H that ensures the collection production, its primary decanting, volumetric measurement and horizontal pumping of the production at the collection park composed of a primary decanting tank, a secondary tank, a volumetric measuring tank, a decanting sensor, some sensors that measure production, a pump for the transport of the liquid until the collection area.

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The assembly and dismantling of the Mobius type belt is done with the help of a combined winch I which provides the pulling force required for the installation and maintenance operations of the vertical transport facility of the liquids from underground wells, composed of a main electric motor which in combination with a Mechanical gearboxes have adequate firing capacity, a winding winder, a secondary motor and a control panel.

By applying the invention, the disadvantages of the previously known installations of the art are eliminated and the following advantages are obtained:

v Has very low operational costs;

s Reduces the risk of accidents: mechanical, human, environmental;

s Increases applicability by increasing the maximum depth to which the installation works;

s It operates in a very wide range of liquids, from groundwater to high viscosity oil;

s It is energy efficient both in terms of consumption reduction and productivity;

s It is remotely controllable through computers or smart mobile devices (tablets, phones);

s Allows the collection of a large volume of data regarding the production carried out, the consumption of electricity, the state of the electrical network, the internal and external temperature;

S Eliminates the position of the rollers in the console and uses capsulated bearings - which reduces friction, increases the maintenance period for the rollers, preserves the perpendicularity of the rollers and the axiality of all the elements;

✓ in case of accidental rupture or due to excessive wear, the transport element is maintained by the two independent gear units;

s By using a flat or rough side of the drive belt, the contact surface increases, thus reducing the pressure exerted on the transport element and significantly prolonging the life of the transport element;

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28/04/2016 v By using special steering rollers, the transport element does not come into contact with the motor rollers, which eliminates the possibility of the motor rollers sectioning the transport element by friction, if it is stuck or when skating;

V By using the Mobius system, the transport element has only one face, so a surface twice as large on each side, which contributes significantly to reducing the mechanical aggression on the same point of the transport element which leads to the increase of the service life of transport element:

V By constructing a modular bottom unit, with rectangular head in section, it adapts better to the well conditions, allows a higher flow of liquids with high density and allows a higher bandwidth in wells with small diameter, which leading to increased efficiency and productivity of the plant;

The following is an example of embodiment of the invention, in connection with Fjg. 1 FIG. 30, which represents:

Fig. 1: Component diagram of the vertical transport facility of liquids from underground wells (A)

Fig. 2: Operating unit diagram (B)

Fig. 3: Engine unit diagram, front view (C)

Fig. 4: Engine unit diagram, rear view (C)

Fig. 5: Profile of the winding path of the Mobius-type absorbent belt (54)

Fig. 6: Input / output profile of the one-sided vertical transport element (14)

Fig. 7: Section through the double console collection roll (15.16)

Fig. 8: Mobius unit diagram (17)

Fig. 9: Section through the double console steering roller (18)

Fig. 10: Free roll section (19)

Fig. 11: Drive shaft section (20)

Fig. 12: Tensioner mobile arm (21)

Fig. 13: Stretch mechanism diagram (22)

Fig. 14: Engine roller section (25)

Fig. 15: Profile of the primary drive belt (27) of 2016 00306

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Fig. 16: Profile of secondary drive belt (23)

Fig. 17: Exo-screw drive gear (126)

Fig. 18: Exoskeleton Scheme (179)

Fig. 19: Electric heating scheme (39)

Fig. 20: Open flowmeter diagram (40)

Fig. 21: Technical foot diagram (D)

Fig. 22: Section through the launch box (206)

Fig. 23: Explosion prevention scheme (E)

Fig. 24: Mobius type (F) absorbent belt diagram

Fig. 25: Underground unit diagram (G)

Fig. 26: Measurement and pumping unit diagram (H)

Fig. 27: Waste compartment diagram (254)

Fig. 28: Diagram of the impurity collection vessel (253)

Fig. 29: Measurement compartment diagram (248)

Fig. 30: Combined winch scheme (I)

The vertical transport installation of the liquids from underground wells A, Fig. 1, according to the invention, is composed of an operating unit B, an engine unit C, a technical foot D, an explosion preventer E, an absorbent belt of the Mdbius F type, an underground unit G, a measuring and pumping unit. H and I operating equipment.

Operating unit B, Fig. 2, according to the invention, is composed of a computing unit 1 which manages the coordinated operation of all the components of the vertical transport facility of the liquids from underground wells A, a mobile wireless communication unit 3 that manages the communication with the peripheral equipment, communicates bidirectionally with a central server by transmitting the data collected in the current operating mode and by receiving the commands for modifying the operating mode, an input-output unit 2 that manages data communications with local peripheral equipment, a single-phase weak current source 12 which supplies all the equipment electronics and a three-phase low-voltage source 13 that supplies electric motors.

Calculation unit 1, Fig. 2, according to the invention, is an industrial computer powered by the single-phase weak current source 12, has a local communications port UTP 7 through which the wired connection is made to an external computer for 2016 00306

28/04/2016 operations of reading and writing data and administration, a WiFi communication antenna 8 through which the wireless connection is made to an external computer, located at a short distance, for operations of reading-writing data and administration, a modem port 9 through which the wireless connection is made to an external computer, located at a long distance, for data-reading and administration operations as well as a local communications port 10 through which communication with peripheral equipment is performed.

The input-output unit 2, Fig. 2, according to the invention, is supplied from the single-phase weak current source 12, is connected bidirectionally to the computing unit 1, is connected bidirectionally to the speed variator 4 which controls the main electric motor 38 and regulates the linear speed of the absorber belt of the type Mobius F and which provides protection of the main electric motor 38, receives data from the geographical positioning unit 11 which uniquely identifies the vertical transport facility of the liquids from underground wells and provides the local time unit, receives data from the energy measurement unit 6, sends commands to the drive 5, receives data from the main electric motor 38, controls the secondary electric motor 247, reads data from the output sensor 260, reads data from the impurity sensor 250, reads data from some temperature sensors 49 inside and outside the exoskeleton 179 and read data from at the speed sensor »I linear of the absorber belt type Mobius 52, receives data from the productivity sensor 201

The speed variator 4, Fig. 2, according to the invention, is supplied from the source of single-phase weak currents 12, communicates bidirectionally with the input-output unit 2 to receive the working parameters, communicates unidirectionally with the drive equipment 5 to receive the engine speed change command main electric 38 and communicates unidirectionally with the main electric motor 38 to change its speed.

The drive equipment 5, Fig. 2, according to the invention, is supplied from the source of single-phase weak currents 12, communicates unidirectionally with the input-output unit 2 to receive the command to modify the parameters of the main electric motor 38 and of the secondary electric motor 247, communicates unidirectionally with the speed variator 4 to transmit the speed control command of the main electric motor 38, communicates directly with the secondary electric motor 247 to transmit the command to 2016 00306

28/04/2016 7Λ ^ start-stop and communicate directly with the electric heater 39 to transmit the start-stop command.

In a front view, the motor unit C, Fig. 3, according to the invention, is composed of an outer housing which together with an extension plate 181, 184 forms an exoskeleton 179 (Fig. 18), for fastening the rollers in double console. Inside the exoskeleton 179 are 17 rollers, a Mobius unit 17 with the role of a front inverter which also has an additional role of collecting the transported liquid, an input-output unit 14 of the Mobius-type absorbent belt and an outlet unit 41. Depending on the clamping system, of the 17 rollers, 9 are attached to the double console and 8 are to the single console. depending on the role I play, there are 2 motor rollers, 2 gear rollers and 13 free rollers.

In a rear view, the motor unit C, Fig. 4, according to the invention, is composed of an exoskeleton 179 from which a support and stretch sole 42 is taken in the form of the letter V, hinged at the bottom with a hinge 43, and at the upper part is provided with extension bolts 53, and from the movable side is gripped the electric motor 38 which has a shaft 45 over which is attached a pulley 44 of variable diameter which changes the transmission ratio between the main electric motor 38 and the motor rollers 25, 33 over which a set of 1-4 is wound trapezoidal belts 46 which rotate the main pulley 47, which is attached to the drive shaft 33, which further through a transfer pulley rotates a set of secondary trapezoidal belts stretched by a mechanical tensioner 50 provided with a tensioning screw 48, which rotates a secondary pulley caught by the drive shaft 25.

The absorbent belt type MObius F, Fig. 5, according to the invention, enters an exoskeleton 179 through an input-output unit 14, passes through two squeezing and collecting shafts formed by free rolls 15 and 16, passes through a Mobius unit 17, passes through a the steering roller 18, is engaged by pressing between a gear roller 20 and a gear belt 23, is steered by some steering rollers 34 and 32, is pressed by pressing between a gear roller 31 and a gear belt 27, it is directed by a guide roller 35 and 37 and exits an exoskeleton 179 through the protection collar of the input-output unit 14.

The input / output profile of the single-sided vertical transport element 14, Fig. 6, according to the invention, is composed of a metal piece 61 which at the bottom has a fixed and watertight flange 55 and at the top has a

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28/04/2016 two-axis movable clamping flange 60 attached to a metallic piece 61 with screws through oval passage holes to be centered on the ascending-descending path of the Mobius F-type absorbent belt, through which they pass two collars that have radius edges, the rising collar 57 which at the bottom has a protective profile 56 and the descending collar 59 which at the top has a final collecting profile 58, and the height of the descending collar goes up to below the roll 37 to prevent leakage back to the well of the extracted liquid.

Collecting rollers in double console 15, 16, Fig. 7, according to the invention, are composed of a flange 76 with a fixed attachment with some screws of the exoskeleton 179 of which is fixed a capsulated bearing 62 which is crossed by a fixed axis 68 at the end of which is attached a second capsulated bearing 64 which is recessed in the movable flange 70 which in turn is fixed by means of screws of an extension plate 181, and above the bearings is mounted a metal cylinder 72 provided with longitudinally milled cutouts, provided with shoulders and lateral and a drainage channel.

Mobius unit 17, Fig. 8, according to the invention, is composed of two identical assemblies (78, 79) fixed by means of four screws to the rear wall of the exoskeleton 179, between which the return of the Mobius absorbent belt is made, each assembly consisting of a base plate 80 and two side walls 82 between which are mounted two cylindrical rollers with some bearings 83, caught at the end by some fuses 81.

Double console steering rollers 18, 32, Fig. 9, according to the invention, are composed of a flange 98 with a fixed attachment with some screws of the rear wall of the exoskeleton 179 of which a capsular bearing 100 is fixed which is crossed by a fixed axis 95 at the end of which a second capsulated bearing is attached. 87 which is recessed in the movable flange 90 which in turn is fixed by means of screws of the extension plate 181 and a metal cylinder 94 with a toothed profile is mounted above the bearings.

Free rolls 19, 24, 26, 30, Fig. 10, according to the invention, are single console rollers composed of a flange 112 with fixed fastening with some screws on the rear wall of the exoskeleton 179, from which a cylindrical shaft 113 is attached, on which two capsular bearings 104 are fixed on which a metallic roller with toothed profile.

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Gear rollers (20, 31), Fig. 11, according to the invention, are single console rollers composed of a flange 126 with fixed fastening with some screws on the rear wall of the exoskeleton 179, from which a cylindrical shaft is attached on which two capsular bearings 118 are mounted on which a roller is mounted. metal with guide shoulders and threaded holes in which are fixed vertically adjustable exo-bolts 121, locked with a soft metal nut, with round head, which presses the Mobius-type absorbent belt differently and allows the squeezed liquid to be collected and discharged .

Tensioning movable arms 21, 29, Fig. 12, according to the invention, are composed of a clamping flange 131 which is fixed to the rear wall of the exoskeleton 179, from which a movable lever 129 is attached at the end of which is a metallic toothed roller 130 mounted on two capsular bearings 128.

Tension mechanisms 22, 28, Fig. 13, according to the invention, are composed of a movable clamping flange 145, fixed by means of an adjusting nut 136 from the upper wall of the exoskeleton 179, through which a movable shaft 135 regulated outside the mechanism by a nut 139 passes, and which at the side the lower one is coupled to the tensile movable arm 21 (respectively 28) by means of a bolt 134.

Engine rollers 25, 33, Fig. 14, according to the invention, are double console rollers with three bearings composed of a motor shaft 162 which penetrates the rear wall of the exoskeleton 179, sealed by means of a set of seals (164), from which the outer straps are engaged 47 , of which at the inside are fixed bearings, and on the motor shaft is mounted a fixed metallic roller with toothed profile.

The primary drive belt 27, Fig. 15, according to the invention is a two-sided continuous-loop transmission belt, with the flat outer face 172 and the inner face having a trapezoidal shaped shape 173. The inner face is wound after the drive roller 33, is directed by the steering roller 30 , is stretched by the tension roller 29, is directed by the rollers 26 and 32. The outer face presses the absorbent belt of Mobius type over the gear roll 31.

Secondary drive belt 23, Fig. 16, according to the invention, is a two-sided transmission loop in the form of a continuous loop, with the flat outer face 174 and the inner face having a trapezoidal shaped shape 175. The inner face is wound after the motor roller 25, is directed by the steering roller 24, is stretched by a

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28/04/2016 stretching roller 21, is directed by rollers 19 and 18. The outer face presses the Mobius-type absorbent belt over the gear roller 20.

The exo-bolts of the drive rollers 121, Fig. 17, according to the invention, are composed of an outer threaded pipe 176, made of soft metal, having a rounded end that comes into contact with the absorbent belt of the Mobius F type, which is screwed into the gear roller 20, is adjustable in height by means of a nut 177 and secured with a bolt 178.

Exoskeleton 179, FIG. 18, according to the invention, is an external resistance structure, composed of the housing of the motor unit, an extension plate formed of two metal components 181, 184 and some fastening and stiffening supports (180, 182, 183, 185, 186,187, 188, 189, 190, 191).

electric heating 39, Fig. 19, according to the invention, is an internal heating unit of the exoskeleton 179 and fluidization of the extracted liquid, at atmospheric temperatures below 15 degrees Celsius, composed of an electrical resistance 192, a connector 196 to the operating unit B which controls the duration and heating intensity, a base plate 193, a sealed housing 195 and a mounting pin 194.

The open flow meter 40, Fig. 20, according to the invention, is a qualitative and quantitative measuring instrument of the extracted liquid, composed of a clamping flange 201, an outlet tube 200, two lateral clamping arms 199, rotary blades 198, a rotating shaft equipped with speed sensor 202 and an external protective body 197.

Technical leg D, Fig. 21, according to the invention, is a support for the motor unit composed of a reinforced pipe 213 which at its base has a clamping flange at the upper end of the underground well 204 by means of clamping screws 203, two technical clamping windows, 205 and 212 , two technology windows 211 and a launch and operation box 206.

Launching and operating box 206, Fig. 22, according to the invention, is composed of a pull handle 216 welded over the flange cover 208 from which two sheet spacers 217 and 215 are welded which position the launch roller between the up and down verticals described by the Mobius-type absorbent belt.

F without touching them, composed of two fixed targeting rollers 218 and 214.

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The explosion preventer E, Fig. 23, according to the invention, is a safety device in case of increase of the internal pressure of the underground well, which can be operated manually or by means of an electric motor, composed of an external metallic body 220 molded in the form of a cross, which communicates within the along the horizontal axis and along the vertical axis, an upper clamping flange 225, a lower clamping flange 222, two locking wheels 224, two lateral locking flanges 223 and 221, crossed by a metal shaft with an outer thread 226, threaded on a metal tray 227, so that by rotating any closing wheel, the metal shaft rotates inside the tray, performing a translational movement, which leads to the closure or separation of the two metal trays, respectively to the closing / opening of the preventer.

Absorbent belt type Mobius F, Fig. 24, according to the invention, is composed of two tubes 228, 229 woven of a textile material with absorbent properties, resistant to breakage and abrasion and sewn one above the other with longitudinal seams 233, and the two free ends are cut diagonally 232 , twisted against each other at 180 degrees and sewn end to end forming a Mobius 230 strip, with one side, through some cross-shaped seams 231, so that the free ends of the two tubes are superimposed offset over a significant distance, so that by the overlap the final thickness of the absorbent belt remains constant.

Underground unit G, Fig. 25, according to the invention, is a modular assembly composed of a standard fishing socket, two guide rails 243 and left-right positioning with the ends flattened to the level of the grips, fastened by means of metal parts 238 to which is attached a pulley on bearings 237, further to which are attached two additional skates 236 of guide and positioning front with the blunt ends up to the level of the clamps, fastened by means of metal parts, following which are attached some ballast units 235 by means of locking keys 241 , which have the role of changing the weight of the underground unit and adapting it in a flexible form to the shape of the well, if it is not straight.

Unit of measurement and pumping H, Fig. 26, according to the invention, is composed of an outer casing 249 divided into two compartments, the settling compartment 254 and the measuring compartment 248.

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The settling compartment 254, Fig. 27, according to the invention, composed of an inlet flange 265 at the top, a viewing lid 251 at the top, a viewing mouth 244 at the bottom, a rectangular transfer slot on the partition wall of the measuring compartment 254, a inductive sensor 250, and inside it has a collection bin for impurities 253.

Collection tank for impurities 253, Fig. 28, according to the invention, is composed of a box suspended on vertical slides 252, 245, 246 and of a lever 262 coupled to the inductive sensor 250.

The measuring compartment 248, Fig. 29, according to the invention, is composed of a chamber in which there is a float 257 attached to a swing 256, on which slides a counterweight 255, attached by an axis 258 which exits through a bearing 259 through the wall of the enclosure 248 and actuates the sensor inductive 260.

Combined winch I, Fig. 30, according to the invention, is composed of a metal frame 289 on which is fixed with two bearings 292 a drum 293 provided with a fastening system on which the absorbent belt F is wound, which is driven by an electric motor 285 with variable speed and gearbox for launching, recovering and modifying the absorbent belt F, and on which is mounted a second secondary electric winch 294 for maintenance operations.

Claims (23)

claims 1. An installation of vertical transport of liquids from underground wells (A), ensures the transport of liquids vertically in an intelligent, flexible and efficient way, characterized in that it is composed of an intelligent operating unit (B), composed of from the computing unit (1) that manages the coordinated operation of all the components of the vertical transport facility of the liquids from underground wells and which communicates bidirectionally with an external server for transmitting the collected data and receiving the working parameters, composed of a motor unit (C ) which engages the Mobius-type absorbing belt and collects the vertically transported liquid, composed of 17 rollers caught on a heated exoskeleton (179) (39), and out of 17 rollers 9 are in double console and 8 in single console, of which 2 engines, 2 gears and 13 free gears, composed of a front inverter that also has an additional role of collecting the liquid ortat, a technical foot (D) that provides the necessary operating and visiting holes for the installation / uninstallation / modification of the Mobius type absorbent belt, an explosion preventer (E), composed of a Mobius (F) absorbent belt, with a single-sided, made of superimposed textile materials, woven with natural or artificial fibers, composed of an underground unit (G) of special shape that ensures the return of the Mobius-type belt at 180 degrees, ensures the flexible anchoring of the walls of the liquid well, ensures the easy passage of the liquids next to it and which ensures the high viscosity liquids entrainment and their temporary liquefaction, composed of a unit of measurement and pumping (H) that ensures the collection, the primary decantation, the measurement of the liquid production and its pumping to the area collection. 2. The vertical conveyor installation of liquids from underground wells, according to claim 1, characterized in that the operating unit (B) is composed of a computing unit (1) that coordinates the operation of all components of the vertical conveyor system of the liquid from underground wells, composed of a geographical positioning and communications unit (11) that uniquely identifies the vertical transport facility of liquids from underground wells and communicates bidirectionally with a central server, by transmitting the data collected in the current operating mode and by receiving the commands for modifying the operating regime, and from a speed controller (4) that controls the power and 2016 00306 28/04/2016 Main engine speed and controls the start / stop of the auxiliary engine, and of some sensors (250, 260, 49, 52) that monitor the parameters of alternating current received and produced by the main electric motor, the internal and external temperatures of the unit C motors, linear velocity of the Mobius-type absorbent belt in the C unit, the decanting sensor in the measuring and pumping unit H, the production sensor in the measuring and pumping unit H. 3. The vertical conveyor installation of liquids from underground wells, according to claim 2, characterized in that the computing unit (1) is an industrial computer powered by a single-phase weak current source (12), composed of a communications port. local UTP (7) through which the wireless connection is made to an external computer for data-reading and administration operations, and from a WiFi communications antenna (8) through which the wireless connection to an external computer is made, located at a short distance, for data-reading and administration operations, and from a modem communication port (9) through which the wireless connection to an external, long-distance computer for reading operations is performed- data writing and administration as well as composed of a local communications port (10) through which communication with peripheral equipment is carried out. 4. The vertical conveyor installation of the liquids from underground wells, according to claim 2, characterized in that the input-output unit is supplied from a single-phase weak current source (12), is connected bidirectionally to a computing unit (1). , is connected bidirectionally to a speed inverter (4) which controls a main electric motor (38) and adjusts the linear speed of an absorbent belt of Mobius type and which ensures the protection of a main electric motor (38), receives data from a unit geographic positioning (11) that uniquely identifies the vertical transport facility for liquids from underground wells and provides the local time unit, receives data from an energy measurement unit (6), transmits commands to an actuator ( 5), receives data from the main electric motor (38), controls a secondary electric motor (247), reads data from a production sensor (260) , reads data from an impurity sensor (250), reads data from a temperature sensor (249) inside the exoskeleton (179), reads data from a 2016 temperature sensor 00306 28/04/2016 (49) from outside the exoskeleton and reads data from a linear velocity sensor (52) of the Mobius F. type belt. 5. The vertical conveyor installation of liquids from underground wells, according to claim 2, characterized in that the speed variator (4) is supplied from a source of single-phase weak currents (12), communicates bidirectionally with the input-output unit (2). ) to receive the transmit working parameters, it communicates unidirectionally with the drive equipment (5) to receive the command to change the speed of the main electric motor (38) and it communicates unidirectionally with the main electric motor (38) to change its speed. 6. The vertical conveyor installation of liquids from underground wells, according to claim 2, characterized in that the drive equipment (5) is supplied from the source of single-phase weak currents (12), communicates unidirectionally with the input-output unit (2). to receive the command to change the parameters of the main electric motor (38) and of the secondary electric motor (247), communicate unidirectionally with the speed variator (4) to transmit the command to change the speed of the main electric motor (38) and communicate directly with the secondary electric motor (247) to transmit the start-stop command. 7. The vertical conveyor installation of the liquids from underground wells, according to claim 2, characterized in that the computing unit (1) executes different working programs to optimize the consumption of electricity, is accessible through the standard communication protocols HTTP and FTP, through computers or mobile devices (phone, tablet, laptop), to download the collected data, to receive new work programs or to simply read instant work parameters, execute several work calendars by turning on / off main engine (38) and auxiliary engine (247) at preset time intervals for variable durations. 8. The vertical conveyor installation of liquids from underground wells according to claim 1, characterized in that the motor unit (C) is composed of a metal housing and a carving plate made of two metal components (181, 184) and some supports. fastening and stiffening (180, 182,183,185, 186, 187, 188, 189, 190, 191) and which together form a stiffening exoskeleton (179) for double roller brackets (15, 16, 18, 25, 32, 33, 34, 35, 37) which rotate about a fixed axis by means of capsular bearings. to 2016 00306 28/04/2016 9. The vertical conveyor installation of liquids from underground wells, according to claim 8, characterized in that the absorbent belt of the Mobius type (F) inside the exoskeleton (179) passes through two suction and collection cups formed by free rolls (15). , 16), passes through a Mobius unit (17), is engaged, by pressing, by a gear roller (20) and a gear belt (23), through the first gear module consisting of five rollers of which one motors (25), three steering rollers (18, 19, 24) and one tensioner (21), is driven by a steering roller (34), is driven by pressing by a gear roller (31) and a belt of gear (27), by means of the second gear module consisting of five rollers, one of which motors (33), three steering rollers (32, 26, 30) and one of tension (29), is directed by some directing rollers (35, 37) and exits the exoskeleton (179) p inside a protective collar of the input-output unit (14), which is raised up to the steering roller (37) to isolate the descending path of the clean Mobius (F) type absorbent belt, from the possibility of contamination with the liquid and sending it back to the well. 10. The vertical conveyor installation of liquids from underground wells, according to claim 9, characterized in that the transmission of the electric force of an electric motor (38) through both gear modules is made by means of a separate belt (23 or 27) for each motor roller (25 respectively 33), the trapezoidal profiled belt on one side and smooth or rough on the other, which is wound after the motor roller (25 respectively 33) and comes in contact with the steering rollers (18, 19, 24 and 32 respectively, 26, 30) and which engage the absorber belt of the Mobius type (F) by pressing only the gear rollers (20 and 31 respectively), without touching the drive rollers. 11. The vertical conveyor installation of liquids from underground wells, according to claim 9, characterized in that the absorbent belt of the Mobius type (F) is engaged by a variable tensile force generated on one side of the drive belt (25, 33 ) and on the other side of some vertically adjustable exo screws (121), locked with a nut, of soft metal, with round head mounted on the gear roller (20, 31) 12. Vertical conveyor installation of liquids from underground wells, according to claim 9, characterized in that the entry / exit profile of the element of 2016 00306 28/04/2016 The single-sided vertical transport FF (14) is composed of a metal part (61) which at the bottom has a fixed and watertight flange (55) and at the top has a movable clamping flange in two horizontal axes (60) clamped by the metal piece (61) with screws through oval passage holes to be centered on the ascending-descending path of the Mobius F-type absorbing belt, through which two collars with radius edges pass, the ascending collar. (57) which at the bottom has a protective profile (56) and the down collar (59) which at the top has a final collecting profile (58), and the height of the down collar goes below the roller (37) to prevent leakage back to the well of the extracted liquid. 13. The vertical conveyor installation of liquids from underground wells, according to claim 9, characterized in that the motor unit (C) is composed of the exoskeleton (179) from which a V-shaped support and stretching sole (42) is attached. , hinged at the bottom with a hinge (43), and at the top is provided with two tensioning screws (53), and from the movable side is gripped the electric motor (38) which has an axle (45) over which a pulley (44), of variable diameter which changes the transmission ratio between the main electric motor (38) and the motor rollers (25, 33), over which a set of 1-4 trapezoidal belts (46) is wound which rotates a main pulley ( 47) of variable diameter, which is gripped by the drive roller shaft (33), and the drive roller shaft (33) is gripped by a transfer pulley that rotates a set of secondary trapezoidal belts, held by a mechanical tensioner (50) provided with a screw stretching (48), which rotates a pulley caught by the drive shaft (25). 14. Vertical conveyor installation of liquids from underground wells, according to claim 9, characterized in that the Mobius unit (17) is composed of two identical assemblies (78, 79) fixed by means of four screws to the exoskeleton rear wall (179). ), between which the return of the Mobius (F) absorbent belt is made, each assembly is composed of a base plate (80) and two side walls (82) between which are mounted two cylindrical rollers with bearings (83) fastened at the end by safety (81). 15. The vertical conveyor installation of liquids from underground wells, according to claim 9, characterized in that the gear rollers (20, 31) are fitted with screws (121) composed of an external threaded pipe (176) of 2016 00 306 28/04/2016 JLC made of a soft metal, having a rounded end that comes in contact with the Mobius type absorbing belt (F), which is screwed into the gear roller (20), is adjustable in height by means of a nut (177) and is secured with a bolt (178). 16. The vertical conveyor installation of liquids from underground wells, according to claim 9, characterized in that the gear unit (C) is provided with an electric heating equipment (39) internal to the exoskeleton (179) and fluidization of the liquid extracted at temperatures. atmospherics below 15 degrees Celsius, which is composed of an electrical resistor (192), a connector (196) to the operating unit (B) that controls the duration and intensity of the heating, a base plate (193), a watertight housing (195) which copies the bottom of the drive unit (C) and a pin (194). 17. The vertical conveyor installation of liquids from underground wells according to claim 9, characterized in that the gear unit (C) is provided with an open flow meter (40), composed of a clamping flange (201), a tube exhaust (200), two lateral grip arms (199), rotary blades (198), a rotary shaft equipped with a speed sensor (202) and an external protective body (197). 18. The vertical conveyor installation of liquids from underground wells, according to claim 1, characterized in that the technical foot (D) is provided with a launching and operating box (206) composed of a firing handle (216) welded over the flange cover (208) from which two spacers (217, 215) are welded which positions the launch roll between the up and down verticals described by the Mobius (F) absorbent belt without touching them, and from two fixed steering rollers ( 218.214). 19. The vertical conveyor installation of liquids from underground wells, according to claim 1, characterized in that the explosion preventer (E) is composed of a main body in the form of a cross (220), an upper clamping flange (225) , a lower clamping flange (222), two closing wheels (224), two side closing flanges (223, 221), crossed by a metal shaft with outer thread (226), threaded on a metal tray (227) , so that by turning any locking wheel, the metal shaft rotates inside the tank, making a 2016 00306 28/04/2016 movement of translation, which leads to the approximation or separation of the two metal bins, respectively to the closing / opening of the preventer. 20. The vertical conveyor installation of liquids from underground wells, according to claim 1, characterized in that the Mobius (F) type absorbent belt is composed of two tubes (228, 229), woven of textile material with absorbent properties, resistant to tearing and abrasion and sewn on top of each other with longitudinal seams (233), and the two free ends are cut diagonally (232), twisted against each other at 180 degrees and sewn together forming a Mobius strip (230) , with one face, through cross-shaped seams (231), so that the free ends of the two tubes are superimposed offset over a significant distance, so that by overlapping the final thickness of the absorbent belt remains constant. 21. Vertical conveyor installation of liquids from underground wells, according to claim 1, characterized in that the underground unit (G) is a modular assembly, composed of a standard fishing socket, two skates (243) for guiding and left positioning. - straight with the chamfered ends up to the level of the clamps, caught by means of metallic parts (238) to which is attached a pulley on the bearings (237), following which are attached two additional skates (236) of guide and front-rear position with the hinged ends up to the level of the clamps, fastened by means of metal parts, following which are attached some ballast units (235) by means of secure locking keys (241), which have the role of modifying the weight of the underground unit and of being fixed adapt in a flexible form to the well shape, if it is not straight. 22. The vertical conveyor installation of liquids from underground wells according to claim 1, characterized in that the measuring and pumping unit (H) is composed of an outer casing (249) divided into two compartments, the settling compartment (254). and the measuring compartment (248), and the decant compartment (254) is composed at the top of an inlet flange (265), a viewing cover (251), and at the bottom has a visiting flange (244) , a rectangular transfer slot on the partition wall of the measuring compartment (254), an inductive sensor (250), and inside it has an impurity collection basin (253) composed of a box suspended on some 2016 00306 28/04/2016 vertical slides (252, 245, 246) and a lever (262) coupled to the inductive sensor (250), and the measuring compartment (248) is composed of an enclosure in which a float is located (257) attached to a tilt (256), on which a counterweight (255) slides, attached by a shaft (258) which exits through a bearing (259) through the enclosure wall (248) and actuates the inductive sensor (260). 23. The vertical conveyor installation of liquids from underground wells according to claim 1, characterized in that the combined winch (I) is composed of a metal rod (289) on which a drum (293) is fitted with two bearings (292). with a fastening system on which the absorbent belt is wrapped (F), which is driven by an electric motor (285) with variable speed and reducer for launching, recovering and modifying the absorbent belt (F), and on which it is mounted a second secondary electric winch (294) for maintenance operations.