WO2011096786A2 - Oil-drilling simulation device - Google Patents

Abstract

The invention relates to an oil- drilling simulation device that teaches and trains oil industry personnel in drilling, completing and repairing oil wells. Said invention aims to provide a teaching and training simulator that is unique on the market, due to an innovative internal construction, mainly characterized in that said simulator gives trainees a visual display of the behavior of tools and liquid and gaseous fluids inside the casing by means of piping made of transparent material, simulating an oil well at 7000 meters below the surface, without the need to actually go underground. Given the very high financial cost and the high profitability of every oil well operation, added to the disastrous environmental impact of improperly handled operations, it becomes extremely important to have a visual training aid, like that provided by said invention, as the use thereof will have an impact on training in the processes of drilling oil and geothermal wells in our country and around the world.

Description

 DRILL SIMULATOR DEVICE

 OIL

OBJECT OF THE INVENTION This invention will be used in the field of drilling, termination and repair of oil wells, is focused for training and training purposes developed by the need and convenience of the worker or training manipulate the necessary equipment and visualize the processes of liquid and gaseous fluids inside oil wells.

With the purpose of training and training personnel in the oil field, the development of an oil drilling simulator device that is intended to be protected by the present application was considered, since it is a device integrated by metal structure that will support the entire simulator, pipes Clear acrylic of different diameters, acrylic dams, metal mast, liquid fluid booster pump, blowout preventer, gas fluid tank and observation platforms. BACKGROUND OF THE INVENTION

Currently I have no knowledge of products similar to this invention.

BRIEF DESCRIPTION OF THE INVENTION

The invention relates to an oil drilling simulator device, which comprises a support structure that defines at least 3 work areas, one lower, one upper and one half, in the upper working section there is at least 3 liquid storage containers interconnected by transparent acrylic pipes, one of said containers is connected to a first working pipe, said pipe being concentrically arranged at a W

2

 casing pipe, the latter is connected to a liquid container, in the lower section a metal tank will be connected that will introduce gaseous fluids which will be handled manually. BRIEF DESCRIPTION OF FIGURES

The characteristic details of this novel oil drilling simulator device are clearly shown in the following description and in the accompanying drawings. In (figure 1) shows the operation of the simulator device of an oil drilling with liquid fluids (1), storage tanks (2,13,16), fluid booster pump (4), casing pipe (7), pipeline work (6), blowout preventer (8), flexible conductive pipe (3,5,12,15,17). In (figure 2) shows the metal structure that will hold the simulator device of an oil drilling.

In (figure 3) shows the metal mast which will hold weights of different types of tools, when lowering them inside the casing pipe and to raise them. In (figure 4) shows the metal ladder which will serve to access and exit the different platforms of the simulator device of an oil drilling.

In (figure 5) it shows a section of the rail that will be used in the observation platforms of the simulator device of an oil drilling. In (figure 6) shows the whole set of parts that form the simulator device of an oil drilling.

In (figure 7) shows an aerial (top) view of the simulator device of an oil drilling. In (Figure 8) shows a detailed view of how the casing pipe is fastened in the metal structure of the simulator device of an oil drilling

DETAILED DESCRIPTION OF THE INVENTION

With reference to these figures, this novel oil drilling simulator device is formed by liquid fluids (1) which will be deposited in transparent acrylic containers (2) where subsequently by transparent flexible acrylic pipes (3) that are connected to a end to the container (1) and from another end to the pump will be conducted until reaching the pump (4), then the fluid impeller pump (4) will send these fluids through another transparent flexible duct (5) that is placed on the inside of the work pipe (6) that will be constructed of transparent acrylic in small sections that will be inside the casing pipe (7) that is also of transparent acrylic but of greater diameter where it will be held by the observation platforms (25) and the work platform (26) with iron clamps (43) lined with carpet so as not to damage the pipe and screwed (44) for fixing it, the fluid will pass through the stainless steel blowout preventer (8) which is a valve for closing and closing the annular space (11) and the interior space of the working pipe (9), when If required, this component is handled manually by means of pressurized air and a metal tank (47) will be installed in either of its two receiving holes to introduce the necessary air pressure, of the same type as the metal tank (18) , this to close the space that is required at the time depending on the activities that are being carried out by means of a rubber in the form of a donut, the tube when applying pressure will close the space and when pressure is removed it will allow to pass all kinds of fluid, which the first upper hole (41), controls the space inside the work pipe (6) and the second lower hole (42), controls the interior space of the casing pipe (7). The fluid will fall into the working pipe and when it reaches the bottom (10), the fluid will rise because the pump will continue to send fluid and will rise through the annular space (11) that comprises between the inside diameter of the casing pipe (7 ) and the outer diameter of the working pipe (6) which will dispense through a third transparent acrylic duct (12) and the fluid will fall into a second container constructed of transparent acrylic (13) which will have an aluminum mesh (14 ) that will serve to receive some solid formation of any type and after filling this container the fluid (1) by gravity will release through a fourth transparent acrylic duct (15) that will guide the liquid fluid to a third container (16) thus achieving that solid particles remain in the previous container and in this third container the fluid goes without solid particles, so this container also tends to make the same t Fluid cleaning work.

To return to the first fluid container, it will pass from the third container (16) through a fifth flexible acrylic duct (17) and the clean fluid will arrive to begin its journey as already mentioned.

When performing this cycle, said liquid fluid will be connected to the casing pipe (7) at the bottom, a metal tank (18) which is directly connected with transparent flexible pipe (19) into which gaseous fluid will be introduced, which tube will be handled manually, to alter the behavior of the fluid and the personnel will have to perform different activities to control that the fluid does not spill from the casing pipes. The simulator device of an oil drilling will be supported by a metal structure that can be assembled in an area that is needed and disassembled to be able to transport it, which has 4 main supports (20) pyramidal in its lower part will have steel plates for that said structure is stabilized and to strengthen this structure it will have lateral crossbars (21) of smaller diameter to that of the main supports where they will be connected by means of steel plates (22) and screws (23), the structure has 3 floors of which 2 are observation that are the bottom (24) and the middle part (25) of the structure and a work area that will be at the top (26) of said structure. In the upper part of the structure we will also have a metal mast which is composed of a metal plate (27) that will support said mast in a screwed way to the upper platform (26) of the metal structure, two supports (28) of type " L "inclined in a pyramidal way that will be welded together of a longitudinal crossbar (29) which will have a pulley (30) welded that will allow the cables or wires (31) to pass through the middle and tie the working pipes (6 ) to later connect them and lower them to the interior depth (10) of the casing pipe (7), then it will be used to raise said work pipe and disconnect them, this mast will support different weights as it is danced connecting more pipe.

On one of the 4 sides of the metal structure there will be a metal ladder to access the different observation platforms (25) and work (26), which is fastened at the top (32) by screws, as well as in the middle part (33) of the structure and the lower part (34) of the structure, placing rings (35) for better user protection.

In the intermediate observation platform (25) of the metal structure and in the upper part of the work platform (26) we will have a guardrail for user safety which will be built of iron and will be proposed in a habitable way since it could be armed and disassembled to be able to transport it, it consists of a base (36) that is on the platforms where the main supports of the rail (38) will be screwed (37) and secured with screws in the middle part will also carry a thick transverse piece (39) of the same characteristic as the supports main to give rigidity to the railings and offer greater security, under this piece there will be crossbars of smaller diameter (40) which will guide our rail. The working pipe (6) is made of transparent acrylic and will have at its ends male thread (45) to connect to other sections of pipe and female threads (46) to receive other pipes and thus reach the depth of the casing pipe (7 ).

Claims

CLAIMS 1.- An oil drilling simulator device, comprising a support structure that defines at least 3 work areas, one lower, one upper and one half, in the upper section of work there are at least 3 liquid storage containers interconnected with each other by transparent acrylic pipes, one of said containers is connected to a first working pipe, said pipe being concentrically arranged to a casing pipe, the latter is connected to a liquid container, in the Lower section will be connected a metal tank that will introduce gaseous fluids which will be handled manually, it will also have a blowout preventer that will be handled by the staff manually.

2. - An oil drilling simulator device, as I have claimed in clause 1 characterized by a metal structure that is formed by main supports of type L and lateral supports of type L of smaller diameter, supported and stiffened by steel plates and screws to assemble the pieces, thus having two observation platforms one lower at ground level and another at medium level and a third platform called work to carry out the operations that are intended with this invention.

3. - A simulator device for an oil drilling, as I have claimed in clause 1 characterized in that it also has a metal ladder to access and exit the device, connected at the top to the structure, middle and bottom of said structure .

4. - An oil drilling simulator device, as I have claimed in clauses 1 and 2, characterized in that it will also have a mast that is located at the top of the platform anchored by screws where it will support the handling of the weights of the work pipes that will be connected with others in a threaded way to introduce them in the casing pipe, then support the weights to remove the aforementioned pipes.

5.- An oil drilling simulator device, as I have claimed in clause 2, characterized in that it will also have in the observation and work areas, which are located in the upper, lower and middle part of the metal structure, folding rails for better transportation, assembly and disassembly, secured by screws.

6.- An oil drilling simulator device, as I have claimed in clause 1, characterized in that it will also have a work pipe with small dimensions, made of transparent acrylic where at one end it will be female thread to receive other pipes and at the other end of it it will have a male thread to connect to another pipe, so that it can reach the desired depth.

7.- An oil drilling simulator device, as I have claimed in clause 1, characterized in that it will also have a casing pipe that comprises a transparent acrylic pipe of greater diameter than the work pipe and will be fastened from the upper platform to the lower platform.