SU1211446A2 - Actuator of well sucker-rod pump - Google Patents

Description

The invention relates to the technique of oil production, in particular to drives of sucker rod pumps, and can be used mainly in the oil industry and is an improvement of the known device according to the main author. St. No. 1106922.

The purpose of the invention is to increase the efficiency and reduce the size of the device by increasing its balance and reducing the angle between the V-shaped, demarcated parts of the flexible link.

FIG. 1 schematically shows the drive of a downhole sucker-rod pump, a general view; in fig. 2 - an eccentric drive 5, the contours of the contact surfaces of which with the movable and stationary parts of the flexible link are located in different planes; in fig. 3 - a variant of the drive of a downhole sucker-rod pump with V-shaped cranks; in fig. 4 - a variant of the proposed drive.

The drive of the downhole pump includes a gear 2 mounted on rack 1 with cranks 3 on the driven shaft (not indicated) and guides 25 pulleys 4 with flexible links 5 slung over them, one end of each of which is connected to the suspension of the rod string (not shown ). Each of the cranks 3 is provided with a tensioning pulley 7, which is covered by a flexible link 5 with a V-shaped arrangement of its branch, which freely rotates around its axis, due to the fact that the other end of the flexible link is connected to the post 1. The tension pulleys are made in eccentrics (not moving the movable 8 and fixed 9 parts of the flexible link 5, respectively. To reduce the dimensions of the eccentric, the contact surfaces 10 and 11 can be located in different planes (Fig. 2). 5 In this case, the attachment to the eccentric of each part of the flexible link can be impl Alternatively and separately, for example, t. / 1 and / 4 in Fig. 2. The location of the contact surfaces of the eccentric along the helical line can be the same. Crankshafts 3 are fitted with counterweights 12. The drive shaft (not shown) of the gearbox 2 associated with engine 13.

Drive downhole pump works as follows.

The crank 3, driven through the gearbox 2 from the engine 13, rotates at a constant speed, pulls the tension shchkin 7 freely mounted on the axis 6, in the form of an eccentric. The eccentric at this time, by winding and winding the fixed part 9 of the flexible link to it, winds and unwinds itself, connected to the column rods, the movable part 8 of the flexible link 5. As a result of summing this movement with the movement of the eccentric axis 6, the reciprocating motion columns shtang borehole pump (not shown) with a cycle equal to the full rotation of the crank 3.

20

30 With a round eccentric e and approximately parallel arrangement of parts 8 and 9 of the flexible link 5, half the stroke of the suspension point shtang occurs due to the movement of the axis 6 of the tension pulley 7, and half due to the winding on it are moved), and flexible links 5, for excluding - Noah part 8 of the flexible link. With a V-slip ratio relative to an eccentric-different crank 3 (FIG. 3), the length

attached to them at point A, a flexible link 5, which is wound up on an excreted sector in the direction of its small pla-centric of the same size,

cha (not indicated) and dividing the flexible link longer or different mobile 8 connected with the column to an eccentric with the same rod length (not shown) and stationary 9, the winding of the flexible link can be reduced.

fixed to the rack of 1 part. Tensioning pin 4 can be made toothed, and flexible link 5 - in the form of a chain that engages with it. Eccentric

The change of the drive operation parameters is carried out by changing the length of the crankshafts 3 and the magnitude of the eccentricity of the tension pulley 7 using known methods, as well as

has a contact surface 10 and a change in the number of revolutions of the crank 3.

for laying, respectively, the movable 8 and the fixed 9 parts of the flexible link 5. To reduce the dimensions of the eccentric, the contact surfaces 10 and 11 may be located in different planes (Fig. 2). In this case, the attachment to the eccentric of each part of the flexible link can also be carried out separately, for example, t. / 1 and / 4 in FIG. 2. With the location of the contact surfaces of the eccentric along the helical lHII, T.L and L may coincide. The cranks 3 are fitted with counterweights 12. A drive shaft (not shown) of the gearbox 2 is connected to the engine 13.

Drive downhole pump works as follows.

The crank 3, driven through the gearbox 2 from the engine 13, rotates at a constant speed, pulls the tension shchkin 7 freely mounted on the axis 6, in the form of an eccentric. The eccentric at this time, by winding and winding the fixed part 9 of the flexible link to it, winds and unwinds itself, connected to the column rods, the movable part 8 of the flexible link 5. As a result of summing this movement with the movement of the eccentric axis 6, the reciprocating motion columns shtang borehole pump (not shown) with a cycle equal to the full rotation of the crank 3.

The change of the drive operation parameters is carried out by changing the length of the crankshafts 3 and the magnitude of the eccentricity of the tension pulley 7 using known methods, as well as

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Claims (4)

1. WELL DRIVE BAR PUMP by ed. St. No. 1106922, characterized in that, in order to increase work efficiency and reduce overall dimensions by increasing its balance and reducing the angle between the V-shaped parts of the flexible link delimited by the tension pulley, the tension pulley is made in the form of an eccentric, and the flexible link is connected with an eccentric for relative slip exceptions. 2. Drive on π. 1, characterized in that the contours of the contact surfaces of the eccentric with the movable and fixed parts of the flexible link are located in the same plane. 3. Drive on π. 1, characterized in that the contours of the contact surfaces of the eccentric with the movable and fixed parts of the flexible link are located in different planes. 4. Drive on π. 1, characterized in that the contours of the contact surfaces of the eccentric are located along a helical line. Figure 1