CS218262B1 - Equipment for dynamic machine balancing - Google Patents

Abstract

The invention relates to the field of pumps and solves the balancing of dynamic forces of single-screw pumps. The essence of the invention is that at least one end of the pump rotor is mounted a buoyancy ring with a lower specific gravity than the specific gravity of the working fluid

Description

[The invention relates to a device for dynamically balancing a machine, in particular a single-spindle pump.

The disadvantage of relatively simple single-spindle pumps is that the rotary motion of the rotor acts on the stator of the pump - dynamic forces, the kitetré causes the vibration of the pump set. In some cases the vibration is very significant. For example, in borehole pumps, it can also lead to a breakdown of the entire plant. Balancing with a counterweight fixed to the rotor cannot be used due to the torsion that the rotor axis performs a precession movement with respect to the stator at an angular velocity equal to the rotation of the rotor around its ace, but in the opposite sense. A solution is known, for example, according to SU AO 5112 308, in which the machine rotor is provided with pins with a rotatably mounted counterweight at the ends, the counterweights being guided in the stator by means of bearings. The disadvantage of this solution is its complexity and failure rate due to the fact that the bearing is exposed to working fluid during operation.

The above mentioned deficiencies are eliminated substantially invention, a device for dynamic balancing machines, in particular the progressive cavity pump wherein the pump rotor is at the ends provided with pins and the subnet-A lies in the fact that at least one lug of the rotor is provided with a buoyancy ring of density ¹ lower than the density of the working fluid.

It is a further object of the invention that the lift ring is rotatably mounted on the rotor journal.

It is a further object of the invention that the buoyancy ring is a hollow ring.

It is a further object of the invention that the rotor pin is provided with a locking ring to secure the lift ring against displacement.

Finally, it is an object of the invention that the resultant of dynamic forces from rotating masses passes through the center of gravity of the buoyancy ring volume.

The higher effect of the invention results in a simplification of the device and a reduction in its weight and failure rate.

An example of a specific embodiment of the invention is shown in the accompanying drawing, which is a longitudinal section through a device according to the invention, placed on the drive joint of a single-screw pump rotor.

Claims (5)

An apparatus for dynamically balancing a machine, in particular a single-spindle pump, wherein the rotor of the pump is provided with pins at the ends, characterized in that at least one pin (7) of the rotor (4) is provided with a lift ring (-8) is the specific gravity of the working fluid. , Device according to claim 1, characterized in that the lift ring (8J) is rotatably mounted on the journal (7) of the rotor (4J). 3. Apparatus according to items 1 and 2, characterized by: According to the invention, the single-spindle pump 1 consists of a stator 2 with a rubber insert 3, in which a rotor 4 is mounted. At the end, the rotor 4 is provided with a drive joint 5 in which a drive rod 6 is connected. The drive shaft S is mounted in a pin 7 which is coaxial with the motor 4. The pin 7 is rotatably mounted with a buoyancy ring 8 having a specific gravity lower than the density of the working fluid, for example formed by an airtight hollow ring 9. The pin 7 is further provided with a circumferential groove 10 in which a locking ring 11 is received to secure the lift ring 8 against displacement. The effect of the dynamic forces occurring during the course of the progressive cavity pump 1 is balanced only if the resultant dynamic force passes through the center of gravity -objemu buoyancy ring 8. If not, you can residual torque balance the dynamic forces further buoyancy ring 8 located on the opposite ^one, not shown, the end roto -ru 4. When the rotor 4 is rotated around the axis of the stator 2, a buoyancy ring 8 is carried by the rotor 4, thus describing a circular path. The β-bend of the buoyancy ring 8 has the same effect on the stator 2 as if the volume of the working fluid expelled by the buoyancy ring 8 was rotated around the stator axis 2 in opposition to the rotor 4. The resulting balancing force vector rotates in a plane perpendicular to the stator axis 2 and passes through the center of gravity of the buoyancy ring 8. The dynamic forces from the rotating masses are generated by precession of the rotor 4 and their resultant rotates so that it is still parallel to the balancing force vector however in the opposite direction. The effect of dynamic forces is perfectly balanced only if the resultant of dynamic forces rotates in the same plane as the balancing force vector and has the same magnitude. Alternatively, the dynamic forces can be counterbalanced by two buoyancy rings 8 located at both ends of the rotor 4. Assuming that the specific weight of the buoyancy ring 8 is lower than that of the working fluid, a complete balance of the dynamic effects of the rotating masses of the machine can be achieved by the apparatus of the invention. INVENTION, characterized in that the buoyancy ring (8) is formed by a hollow ring (9 J). Device according to b-eds 1 to 3, characterized in that the pin (7J of the rotor (4) is provided with a locking ring (10J) to secure the lift ring (8) against displacement. 5. Apparatus according to claims 1 to 4, wherein the pump rotor is provided with only one buoyancy ring, characterized in that the resultant of dynamic forces from the rotating hmiorts passes through the center of gravity of the buoyancy ring (8).