RU2288786C2 - Resonance vibrosieve - Google Patents

Abstract

FIELD: devices for cleaning drilling fluid; construction of oil and gas wells.

SUBSTANCE: proposed vibrosieve includes bed plate, frame, vibrator, shock absorbers, sieve cloths secured on frame, device for control of angle of inclination of frame and receiving bin with feed chute. Bed plate is mounted on shock absorbers; frame is connected with bed plate by means of elastic members of similar length which are made in form of rods or plates; elastic members are mounted at angle to level equal to angle of inclination of vector of frame directive oscillations from vertical; total rigidity of elastic members is selected according to mathematical expression. Vibrator is made in form of electromagnets whose stators are secured to bed plate and armatures are secured to frame; electromagnet windings are connected in parallel and are connected to power supply line through control unit which changes repetition period and amplitude of disturbing force created by electromagnets. Oscillation sensor mounted on frame is connected with control unit which operates in two modes: manual adjustment of frame oscillations and automatic maintenance of preset oscillations.

EFFECT: increased vibration acceleration of frame with no increase in vibrator power; automatic maintenance of preset oscillations of frame.

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Description

The invention relates to a device for cleaning drilling fluid and can be used in the construction of oil and gas wells.

It is known vibrating sieve according to the USSR AS 848084, 07 V 1/40, E 21 V 21/00, including a bed, a frame installed with shock absorbers on the bed and equipped with a vibrator, two successive sieve sheets mounted on the frame, and the discharge end of the first the sieve web is located above the loading end of the second web, which is installed obliquely in the direction of unloading materials at an angle of 5 °, the first sieve web is installed obliquely in the direction of loading of materials with the possibility of changing the angle of inclination from 0 ° to 10 °, while the frame is equipped with on the mechanism for adjusting the angle of inclination of the first screen cloth.

Known vibration sieve with linear vibrations SV1LM, which has a similar device and is used in Russia in droves. This sieve is currently being produced by Krasnodar Plant Neftemash OJSC and other manufacturers according to TU 39 - 0147001 - 145 - 96 (see also the Catalog of production of NPO Tekhoil, M., 2003). In accordance with the requirements of the specified TU The SV1LM sieve provides an oscillation amplitude of the vibrating frame equal to 2 mm at a frame oscillation frequency of about 23 Hz.

A Swaco Mongoose double-acting vibrating screen is known, which comprises a bed, a frame mounted with shock absorbers on the bed and equipped with two vibrators, screen webs mounted on the frame, a mechanism for changing the frame angle, the supply chute, and the main directional vibrator consists of two circular vibrators vibrations, and the additional vibrator is a circular vibrator and is configured to turn on the vibrating screen during overload, the vibrators are mounted on a beam attached frame sidewalls (see Mongoose Shaker Dual -.. Motion Shaker Swaco, A Division of M -. I L.L.C., A Smith / Schlumberger Company, Houston, Texas, 2001).

It is known that Derrick vibrating sieve Flo - Line Cleaner 2000 is equipped with high-power vibrators (Super G vibrators with an integrated lubrication system), which made it possible to raise the frame vibration acceleration to 7.3 G (G - gravity acceleration, G = 9.81 m / s ² ) This vibrating screen is currently the most powerful in terms of throughput (see prospectus "Flo - Line Cleaner 2000 Vibrating Screen. Derrick Equipment Company, Oiltools (Europe) Limited, 2000).

As a prototype, a vibrating screen was selected according to the patent RU 2186635, B 07 V 1/40, including a bed, a frame installed using shock absorbers and equipped with a vibrator, two screens mounted in series on the frame, the first of which was installed with the possibility of changing the angle of inclination from 0 ° up to 10 °, and its discharge end is located above the loading end of the second sieve cloth, while the sieve is equipped with an upper tier consisting of a rigid frame sieve with a pre-stretched sieve cloth and is configured to adjust the frames s on a tilt angle from -2 ° to + 10 °.

A common disadvantage of these analogues and prototype is that they work in a forced oscillation mode. As a result, the vibrating frames of these devices are exposed to a driving force that is many times greater than the driving force required when operating in the mode of maintaining resonant vibrations. This leads to a significant increase in the power of the vibrators, the mass of the frame, the use of commercially available vibrators of low values of vibration acceleration of the frame, the main vibration parameter of the sieve, which determines its throughput, the efficiency of cleaning the drilling fluid and drying the separated sludge. In addition, an important disadvantage of these devices is the lack of the ability to control vibration acceleration of the frame without stopping the sieve and disassembling the nodes of the vibrators to rearrange the unbalances.

The objectives of the invention are: to increase the vibration acceleration of the frame without increasing the power of the vibrator with the ability to manually control the vibrations of the frame directly during operation of the vibrating screen and automatically maintain the specified vibrations of the frame.

The solution to these problems is achieved by the fact that the resonant vibrating screen contains a frame, frame, vibrator, shock absorbers, sieve cloths mounted on the frame, a device for changing the angle of inclination of the frame, a receiving hopper with a feed chute, and the frame is mounted on shock absorbers, the frame is connected to the frame by elastic elements of the same lengths made in the form of plates or rods, elastic elements are installed at an angle to the horizontal, equal to the angle of inclination from the vertical of the vector of directed vibrations of the frame, the total stiffness C of elastic elements ENTOV selected from the formula

where C is the total stiffness of the elastic elements, N / m;

ω _about - the estimated angular frequency of the frame oscillations, in the area of which the operating vibrations of the frame are adjusted, rad / s;

m ₁ - the mass of the bed together with the maximum mass of the drilling fluid in the receiving hopper and in the capacity of the bed under the sieve cloths, kg;

m ₂ is the mass of the frame, kg;

the vibrator is made in the form of electromagnets, the stators of which are attached to the frame, and the anchors are attached to the frame, the windings of the electromagnets are connected in parallel and connected to the power supply by energy through a control device made with the possibility of changing the repetition period and the amplitude of the disturbing force created by the electromagnets, a sensor is installed on the frame oscillations connected to the control device, while the control device is configured to operate in two modes: manual setting mode of the frame oscillations and mode automatically maintain the predetermined frame oscillations.

The application of the proposed set of essential features in a resonant vibrating screen allows you to get a new technical result: to increase the vibration acceleration of the frame without increasing the power of the vibrator, as well as to manually control the frame vibrations directly during operation of the vibrating screen and automatically maintain the specified frame vibrations. The high efficiency of resonant amplification of mechanical vibrations is known (see page 5 in the book: Automation of Resonant Vibrator Machines. Review. Authors: II Bikhovsky and S. I. Popov. Central Research Institute of Information and Technical and Economic Studies on Construction, Road and Communal mechanical engineering. M., 1972). However, it is unknown the use of this effect in the designs of vibrosieve in the claimed combination of essential features. The above formula for determining the total stiffness of elastic elements is obtained by well-known transformations of the formula for the natural frequency of a two-mass oscillatory system corresponding to the working resonant mode (see pages 35-36 in the book Automation of Resonant Vibrators. Review. Authors: II Bikhovsky and S .I. Popov Central Scientific Research Institute of Information and Technical and Economic Studies on Construction, Road and Communal Engineering (Moscow, 1972).

The analysis of the prior art in the field of vibrating devices for cleaning solutions showed that the resonant combination of essential features proposed in the vibrating screen is new, does not explicitly follow from the prior art, and thus, the present invention is new and has an inventive step.

The invention is illustrated by drawings in Fig.1-2. The resonant vibrating screen contains a frame 1, a frame 2. Electromagnet stators are fixed on the frame 3. The frame is mounted on a supporting surface with shock absorbers 4. Screen webs are fixed on the frame 5. A device 6 for changing the screen angle of inclination and a receiving hopper with a feed chute 7 are mounted on the frame. The frame is connected to the frame by elastic elements 8. Anchors 9 electromagnets are attached to the frame opposite the stators of electromagnets. The windings of the electromagnets are connected in parallel and connected to the power supply via the control device 10. An oscillation sensor 11 is installed on the frame, the output of which is connected to the control device. The total stiffness of the elastic elements is selected according to the above formula.

Vibrosieve resonant works as follows. When supplying power to the windings of the electromagnets 3, they create a disturbing force and excite the forced vibrations of the frame 2. Using the control device 10, the amplitude of the disturbing force is set to a known lower value than is required for the operating mode of the frame oscillations. The period of following the disturbing force is changed and the amplitude of the resonant vibrations of the frame 2 is adjusted on the approach to the angular frequency at which the oscillations of the maximum amplitude are excited. This completes the preparation of the resonant vibrating screen for work. When the vibrating screen is operated using the control device 10 in the manual tuning mode, the amplitude of the disturbing force created by the electromagnets is changed and the required oscillation mode is adjusted in accordance with the features of the drilling fluid supplied to the sieve sheets 5. After that, the control device is transferred to the mode of automatically maintaining the specified oscillations. In this case, the vibration sensor 11 measures the actual vibrations of the frame, the sensor signal processes the control device and generates a control signal for a corresponding change in the disturbing force created by the electromagnets. Due to the presence of feedback, the specified frame vibrations are maintained. Changing the tuned mode of oscillations is carried out directly during operation of the vibrating screen using the control device 10 in the manual setting mode.

This resonant vibrating screen allows you to increase the vibration acceleration of the frame in comparison with the known solutions without increasing the power of the vibrator due to the use of the effect of resonant amplification of vibrations, and also provides the ability to regulate frame vibrations directly during operation of the vibrating screen and automatically maintain the specified frame vibrations.

Examples of practical testing of the proposed technical solution.

Example 1. We determine the magnitude of the driving force that must be applied to the frame to obtain vibrations with vibration acceleration that exceeds the level achieved in modern vibrating screens (7.3 G in Derrick vibrating screens). For future developments, taking into account the possible improvement of sieve webs, we take the vibration acceleration of the frame 10G = 10 · 9.81 m / s ² . In relation to this problem, we compare the data for the CB1LM vibrating screen (with conditional modernization) and for the resonant vibrating screen.

Measurement of vibration acceleration of the frame on the CB1LM vibrating screen showed that vibration acceleration at different measurement points varies from 3.7 to 4.2 G. This vibration acceleration of the frame is created by two vibrators with a power of 1.5 kW each. The total synchronous driving force of the vibrators is 2 × 25 = 50 kN (see above TU 39-0147001-145-96, as well as the Operating Instructions for the vibrator electromechanical explosion-proof EVV - 25.0 - 1500 U2. JSC "Yaroslavl Plant" Red Lighthouse " (Yaroslavl, 2003). For the conditional modernization of the SV1LM vibrating screen, we will accept (in reserve the advantages of the resonant vibrating screen) the following assumptions: the mass of the vibrator; b) the strength of the frame with increasing dynamic loads will be ensured without increasing the mass of the frame due to the use of more rational design solutions.These assumptions allow us to leave the total weight of the sieve frame SV1LM unchanged (M = 1030 kg), including the mass of the frame itself (590 kg), beams for mounting motor vibrators (190 kg) and two motor vibrators (2 × 125 = 250 kg). The driving force value P is determined by the well-known formula: P = M · 10G = 1030 kg · 9.81 m / s ² = 101043 N≈101 kN. Thus, to increase the vibration acceleration of the frame on the CB1LM vibrating screen from 4.2 G to 10 G, it is necessary to increase the driving force from 50 kN to 101 kN, i.e. 2 times. Such a significant increase in driving force cannot be provided even by the most powerful motor-vibrator from the number of produced by a specialized enterprise for the production of motor-vibrators - OJSC "Yaroslavl Plant" Red Beacon ". The maximum value of the driving force developed by the vibrators of this plant is 40 kN (see p.6 in the book: Product Catalog of OJSC "Yaroslavl Plant" Red Lighthouse ", Yaroslavl, 2001).

The claimed technical solution was tested on an experimental sample of a resonant vibrating screen manufactured in accordance with the claimed technical solution. The data of the experimental sample: the mass of the bed together with the mass simulating the mass of the drilling fluid in the receiving hopper and in the tank under the sieve cloths, m ₁ = 750 kg; frame weight m ₂ = 600 kg; total stiffness of elastic elements C = 3300 · 10 ⁴ N / m; the estimated angular frequency of the frame oscillations ω _o = 314 rad / s; the amplitude of the disturbing force created by the electromagnets; 2.5 kN; total electric power of electromagnets: 1.2 kW.

The experiments showed that despite the fact that in the claimed technical solution, electromagnets of lower power were used as a vibrator, which created a driving force of a significantly lower magnitude than in a SV1LM sieve, the frame acceleration on the experimental sample of the vibrating screen increased from 4.2 G to 10 G. Achieving such values of vibration acceleration increases the throughput of the vibrating screen, and also opens up the possibility of using grids with a smaller cell, which will improve the quality of drilling mud cleaning.

Example 2. It is experimentally confirmed that when changing the amplitude of the disturbing force created by the electromagnets using the control device using the control device, smooth adjustment of the frame vibration acceleration value is provided directly during the sieve operation. This opens up the possibility of increasing the life of sieve sheets. The practice of operating well-known vibrosieve has shown that the ability to regulate vibrations advertised by manufacturers of vibrosieve by changing the position of the unbalances on the vibrators is not really used. The reason is that to perform such an operation, it is necessary to stop the drilling fluid cleaning process for a sufficiently long time. Therefore, vibrosieve is often operated in the tuning mode for maximum vibration acceleration without taking into account the factor of change in the properties of the drilling fluid. As a result, the resource of sieve sheets is significantly reduced.

Example 3. Experimentally verified the effectiveness of the system to automatically maintain the given frame vibrations. As a vibration sensor, a piezoceramic knock sensor used on modern engines of the VAZ automobile plant was used. The sensor directly measures vibration acceleration and is reliable in conditions of significant dynamic effects. It is also possible (with corresponding changes in the electronic circuit of the control device) the use of an electromagnetic sensor used on the same engines. It was found that in the mode of automatically maintaining the set oscillations, the control device, together with the sensor, supports vibration acceleration of the frame in the range from -10% to + 10% when simulating the flow of drilling fluid onto sieve sheets from 0 to 50 kg (which completely covers the real options when working vibrating screen). The obtained accuracy of maintaining given frame vibrations satisfies the requirements of drilling mud cleaning. In addition, the presence of a system for automatically maintaining specified vibrations stabilizes frame vibrations even with certain deviations of the parameters of the vibrating system of the vibrating screen (for example, with a slight change in the stiffness of the elastic elements or the damping coefficient of vibrations, which can occur during heating of elastic elements).

The above examples show that the present invention is industrially applicable.

Claims (1)

A resonant vibrating screen containing a bed, a frame, a vibrator, shock absorbers, screen cloths mounted on the frame, a device for changing the angle of the frame, a receiving hopper with a feed chute, characterized in that the frame is mounted on shock absorbers, the frame is connected to the bed by elastic elements of the same length, made in the form of plates or rods, the elastic elements are installed at an angle to the horizontal equal to the angle of inclination from the vertical of the vector of directed vibrations of the frame, the total stiffness of the elastic elements is selected by the formula

where C is the total stiffness of the elastic elements, N / m; ω ₀ is the calculated angular frequency of the frame oscillations, in the region of which the operating vibrations of the frame are adjusted, rad / s; m ₁ - the mass of the bed together with the maximum mass of the drilling fluid in the receiving hopper and in the capacity of the bed under the sieve cloths, kg; m ₂ is the mass of the frame, kg; the vibrator is made in the form of electromagnets, the stators of which are attached to the frame, and the anchors are attached to the frame, the windings of the electromagnets are connected in parallel and connected to the power supply by energy through a control device made with the possibility of changing the repetition period and the amplitude of the disturbing force created by the electromagnets, a sensor is installed on the frame oscillations connected to the control device, while the control device is configured to operate in two modes: manual setting mode of the frame oscillations and mode automatically maintain the predetermined frame oscillations.

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