RU2268785C1 - Resonance screen shaker for drilling mud fluid cleaning - Google Patents

Abstract

FIELD: petroleum industry; natural gas industry; production of resonance screen shaker for drilling mud fluid cleaning.

SUBSTANCE: the invention is pertaining to the field of petroleum industry and natural gas industry, in particular, to resonance screen shaker for drilling mud fluid cleaning. The resonance screen shaker for drilling mud fluid cleaning consists of: a base; a fame mounted with the help of the dampers; screen plates fixed on the frame; a device of variation of a tilt angle of the frame; a feeding chute; a vibration exciter mounted on a beam fixed to the side pieces of the frame. Between the vibration exciter and the beam there is a mounted spring, stiffness of which together with stiffness of the dampers in a direction of vector of vibrations of the frame and the mass of the frame is defined by the ratio C + Ca·n/M = ω², where C is a stiffness of the spring, H/m; n - a quantity of dampers, in pieces; M - the mass of the frame, in kg; ω - a resonance angular frequency of the frame vibrations, in radians/s. The windings of the vibration exciter are connected to the mains supply through a frequency converter made with a capability of the electric current frequency change, and on the frame there is a sensor of vibrations connected with a device for control over a frequency converter and its output is connected to the channel of control of the frequency converter. At that the device for control over a frequency converter is made with a capability of operation in two modes: the mode of a manual adjustment of the frame vibrations and the mode of an automatic keeping of the preset values of the frame vibrations. The technical result of the invention is an increased stability of maintenance of a preset value of vibration acceleration of the frame of the resonance screen shaker.

EFFECT: the invention ensures an increased stability of maintenance of the resonance screen shaker frame preset values of vibration acceleration.

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Description

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

Known shale shaker according to A.S. USSR 848084, B 07 V 1/40, E 21 V 21/00, including a bed, a frame mounted by means of shock absorbers on the bed and equipped with a vibrator, two sieve sheets in series mounted on the frame, the discharge end of the first sieve sheet being located above the loading end of the second web installed obliquely in the direction of unloading materials at an angle of 5 °, the first sieve web 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 an adjustment mechanism the angle of inclination of the first screen cloth.

Known vibration sieve with linear vibrations SV1L, which has a similar device and is used in Russia in droves. This sieve is currently produced by OJSC Krasnodar Oil Plant Neftemash and other manufacturers in accordance with TU 39-0147001-145-96 (see also the Product Catalog of NPO Tekhoil, M., 2003). In accordance with the requirements of the specified TU, the SV1L sieve provides an amplitude of vibration of the vibrating frame equal to 2 mm (taking into account the tolerance, the amplitude can vary from 1.7 to 3.0 mm) with a vibration frequency of the frame in the range from 23 to 25 Hz.

A Swaco Mongoose double-acting vibrating screen is known, comprising 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 tilt angle, the feeding 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 -. 1 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 )

Due to this, 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).

A common drawback of these analogues is that they operate in the forced oscillation mode in the frequency region far from resonance. 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 metal consumption of the frame, the power of the vibrators, obtaining, when using commercially available vibrators, low values of the frame acceleration - the main vibration parameter of the sieve, which determines the throughput and cleaning efficiency of the drilling fluid. 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 objective of the invention is to increase the stability of maintaining a given value of vibration acceleration of the frame of the resonant sieve.

The solution to this problem is achieved by the fact that the resonant sieve includes a bed, a frame installed using shock absorbers, screen cloths mounted on the frame, a device for changing the angle of the frame, the feed chute, a vibrator mounted on a beam attached to the side of the frame, while between the vibrator and a spring is installed with a beam, the stiffness of which, together with the stiffness of the shock absorbers in the direction of the frame vibration vector, and the mass of the frame are related by

where C is the stiffness of the spring in N / m;

Ca - the stiffness of the shock absorber in N / m;

n is the number of shock absorbers in units;

M is the mass of the frame in kg;

ω is the resonant angular frequency of the frame oscillations in rad / s,

moreover, the vibrator windings are connected to the supply network through a frequency converter, configured to change the frequency of the electric current, and an oscillation sensor is mounted on the frame connected to a frequency converter control device, the output of which is connected to a frequency converter control channel, and the frequency converter control device is configured to work in two modes: the mode of manual setting of the frame oscillations and the mode of automatic maintenance of the set frame vibrations.

The application of the proposed set of essential features in a resonant sieve allows you to get a new technical result - to increase the stability of maintaining a given value of vibration acceleration of the resonant sieve frame.

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

The invention is illustrated by drawings, which depict: figure 1 is a General view of a resonant sieve, figure 2 is a top view.

The resonant sieve contains a frame 1, a frame 2, which is mounted on the frame using shock absorbers 3 and is equipped with a vibrator 4. The screen webs are fixed on the frame 5. A device for changing the angle of inclination of the frame 6 and the feed chute 7 are mounted on the frame. The beam 8 is connected via spring 9 to vibrator. The vibrator windings are connected to the output of the frequency converter (IF) 10. A sensor 11 is installed on the frame, the output of which is connected to the input of the frequency converter control device (UPCH) 12. The output of the UPCH is connected to the IF control channel.

Resonance sieve works as follows. When a supply voltage is applied to the windings of the vibrator 4, it excites the forced vibrations of the frame 2 on the spring 9, which connects the frame with a source of inertial force, i.e. with a vibrator 4. By turning on the UPCH 12 in the manual tuning mode, the frequency of the electric current and, consequently, the angular frequency of the driving force created by the vibrator are changed. By adjusting the angular frequency of the driving force to the resonant angular frequency of the oscillating system: bed 1 - shock absorbers 3 - frame 2 - beam 8 - spring 9 - vibrator 4, select the amplitude of the driving force at which the required maximum value of vibration acceleration of the frame is achieved. The vibrator is tuned to the selected value of the amplitude of the driving force. This completes the preparation of the resonance sieve for operation. When operating a resonant sieve, first, in the manual adjustment mode, the UPCF change the angular frequency of the driving force in the frequency region of the ascending part of the resonance curve and adjust the resonant sieve to the required oscillation mode in accordance with the properties of the drilling fluid supplied to the sieve sheets. After that, the UPCH switch to the mode of automatically maintaining the given frame vibrations.

This resonant sieve allows to increase, in comparison with the prototype, the stability of maintaining a given value of the frame acceleration due to feedback on the signal characterizing the frame acceleration.

Example. The stability of maintaining a given value of vibration acceleration of the resonant sieve frame was compared, made on the basis of the essential features of the prototype (option A) and the essential features of the present invention (option B). The resonant angular frequency of oscillations of the frame ω was determined for the following data: the mass of the frame without drilling fluid M = 940 kg, the stiffness of the spring on which the vibrator is mounted, C = 6000 · 10 ⁴ N / m, the stiffness of the shock absorber Ca = 6000, N / m, the number shock absorbers n = 4 pcs. The calculation of ω was carried out according to the formula for ω ² given above in this description. It was found that ω ² = 64300 (rad / s) ² . Therefore, ω = 253 rad / s. A study of data from drilling practice showed that the maximum mass of drilling fluid located on sieve sheets can be taken equal to 50 kg. By increasing the mass of the frame by this value, we obtained according to the above formula the resonant angular frequency of oscillations of the frame ω ₁ for the case of the maximum oscillating mass ω ₂ = 247 rad / s. Thus, the maximum deviation of the resonant angular frequency is Δω = 253-247 = 6 [rad / s], while the relative deviation Δω _rel is Δω _rel = 2.4%. Despite the fact that the relative deviation is very insignificant, the experiments showed that when the angular frequency of the driving force oscillations changes by the indicated value, the frame vibration acceleration deviation reaches 40% (option A). For option B, it was experimentally established that the stability of maintaining a given value of vibration acceleration is 10%, which fully complies with the requirements of drilling mud cleaning technology.

The set out example shows that the present invention is industrially applicable.

Claims (1)

A resonant sieve, including a bed, a frame mounted with shock absorbers, screen cloths mounted on the frame, a device for changing the angle of the frame, a feed chute, a vibrator mounted on a beam attached to the side of the frame, while a spring is installed between the vibrator and the beam, the rigidity of which together with the stiffness of the shock absorbers in the direction of the oscillation vector of the frame and the mass of the frame are related by

where C is the stiffness of the spring, N / m; Ca - the stiffness of the shock absorber, N / m; n is the number of shock absorbers, pcs; M is the mass of the frame, kg; ω is the resonant angular frequency of the frame, rad / s, moreover, the vibrator windings are connected to the supply network through a frequency converter, configured to change the frequency of the electric current, and an oscillation sensor is mounted on the frame connected to a frequency converter control device, the output of which is connected to a frequency converter control channel, and the frequency converter control device is configured to work in two modes: the mode of manual setting of the frame oscillations and the mode of automatic maintenance of the set frame vibrations.

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